人类学学报 ›› 2022, Vol. 41 ›› Issue (06): 1069-1082.doi: 10.16359/j.1000-3193/AAS.2022.0036cstr: 32091.14.j.1000-3193/AAS.2022.0036
收稿日期:
2021-08-10
修回日期:
2021-11-27
出版日期:
2022-12-15
发布日期:
2022-12-19
作者简介:
邢松,研究员,主要从事古人类学研究。E-mail: 基金资助:
Received:
2021-08-10
Revised:
2021-11-27
Online:
2022-12-15
Published:
2022-12-19
摘要:
近年来,新材料的发现、新测年结果的更新以及分子生物学的加入,刷新了关于现代人在各主要区域出现时间、在迁徙扩散中与古老人群的交流模式、晚更新世晚期现代人演化复杂场景等方面的认识。本文梳理了关于现代人出现和演化路径的主要化石证据和研究成果。目前化石证据显示:非洲准现代人的出现时间最早可到MIS 9阶段,非洲现代人在中更新世晚期到晚更新世化石证据连续;欧亚大陆现代人的出现时间可追溯到MIS 6阶段,在MIS 5a-MIS 4阶段经历“瓶颈期”,在MIS 3阶段开始广泛分布。从已有证据来看,MIS 3和MIS 2阶段,欧亚大陆不同区域的现代人演化链条并非单一线性,而是呈现有断点的“网状”演化模式。
中图分类号:
邢松. 现代人出现和演化的化石证据[J]. 人类学学报, 2022, 41(06): 1069-1082.
XING Song. Fossil evidence of the emergence of modern humans and their evolution[J]. Acta Anthropologica Sinica, 2022, 41(06): 1069-1082.
[1] | Delson E, Tattersall I, Couvering J, et al. Encyclopedia of Human Evolution and Prehistory[M]. New York: Garland Publishing, 2000 |
[2] |
Rink WJ, Schwarcz HP, Smith FH, et al. ESR ages for Krapina hominids[J]. Nature, 1995, 378: 24-24
doi: 10.1038/378024a0 URL |
[3] |
Prüfer K, Racimo F, Patterson N, et al. The complete genome sequence of a Neanderthal from the Altai Mountains[J]. Nature, 2014, 505: 43-49
doi: 10.1038/nature12886 URL |
[4] |
Valladas H, Mercier N, Froget L, et al. TL Dates for the Neanderthal site of the Amud Cave, Israel[J]. Journal of Archaeological Science, 1999, 26: 259-268
doi: 10.1006/jasc.1998.0334 URL |
[5] |
Jacobs Z, Li B, Shunkov MV, et al. Timing of archaic hominin occupation of Denisova Cave in southern Siberia[J]. Nature, 2019, 565: 594-599
doi: 10.1038/s41586-018-0843-2 URL |
[6] |
Chen F, Welker F, Shen CC, et al. A late Middle Pleistocene Denisovan mandible from the Tibetan Plateau[J]. Nature, 2019, 569: 409-412
doi: 10.1038/s41586-019-1139-x URL |
[7] |
Rizal Y, Westaway KE, Zaim Y, et al. Last appearance of Homo erectus at Ngandong, Java, 117,000-108,000 years ago[J]. Nature, 2020, 577: 381-385
doi: 10.1038/s41586-019-1863-2 URL |
[8] |
Sutikna T, Tocheri MW, Morwood MJ, et al. Revised stratigraphy and chronology for Homo floresiensis at Liang Bua in Indonesia[J]. Nature, 2016, 532: 366-369
doi: 10.1038/nature17179 URL |
[9] |
Détroit F, Mijares AS, Corny J, et al. A new species of Homo from the Late Pleistocene of the Philippines[J]. Nature, 2019, 568: 181-186
doi: 10.1038/s41586-019-1067-9 URL |
[10] |
Trinkaus E. European early modern humans and the fate of the Neandertals[J]. Proceedings of the National Academy of Sciences, 2007, 104: 7367-7372
doi: 10.1073/pnas.0702214104 URL |
[11] |
Kuhlwilm M, Gronau I, Hubisz MJ, et al. Ancient gene flow from early modern humans into eastern Neanderthals[J]. Nature, 2016, 530: 429-433
doi: 10.1038/nature16544 URL |
[12] | Sankararaman S, Patterson N, Li H, et al. The date of interbreeding between Neandertals and modern humans[J]. PLoS Genetics, 2012, 8: e1002947 |
[13] |
Hajdinjak M, Mafessoni F, Skov L, et al. Initial Upper Palaeolithic humans in Europe had recent Neanderthal ancestry[J]. Nature, 2021, 592: 253-257
doi: 10.1038/s41586-021-03335-3 URL |
[14] |
Fu Q, Hajdinjak M, Moldovan OT, et al. An early modern human from Romania with a recent Neanderthal ancestor[J]. Nature, 2015, 524: 216-220
doi: 10.1038/nature14558 URL |
[15] |
Harvati K, Röding C, Bosman AM, et al. Apidima Cave fossils provide earliest evidence of Homo sapiens in Eurasia[J]. Nature, 2019, 571: 500-504
doi: 10.1038/s41586-019-1376-z URL |
[16] |
Hershkovitz I, Marder O, Ayalon A, et al. Levantine cranium from Manot Cave (Israel) foreshadows the first European modern humans[J]. Nature, 2015, 520: 216-219
doi: 10.1038/nature14134 URL |
[17] |
Meyer M, Kircher M, Gansauge MT, et al. A high-coverage genome sequence from an archaic Denisovan individual[J]. Science, 2012, 338: 222-226
doi: 10.1126/science.1224344 pmid: 22936568 |
[18] |
Larena M, McKenna J, Sanchez-Quinto F, et al. Philippine Ayta possess the highest level of Denisovan ancestry in the world[J]. Current Biology, 2021, 31: 4219-4230.e4210
doi: 10.1016/j.cub.2021.07.022 URL |
[19] |
McDougall I, Brown FH, Fleagle JG. Stratigraphic placement and age of modern humans from Kibish, Ethiopia[J]. Nature, 2005, 433: 733-736
doi: 10.1038/nature03258 URL |
[20] |
White TD, Asfaw B, DeGusta D, et al. Pleistocene Homo sapiens from Middle Awash, Ethiopia[J]. Nature, 2003, 423: 742-747
doi: 10.1038/nature01669 URL |
[21] |
Schwarcz HP, Grün R, Vandermeersch B, et al. ESR dates for the hominid burial site of Qafzeh in Israel[J]. Journal of Human Evolution, 1988, 17: 733-737
doi: 10.1016/0047-2484(88)90063-2 URL |
[22] |
Valladas H, Reyss JL, Joron JL, et al. Thermoluminescence dating of Mousterian Troto-Cro-Magnon’ remains from Israel and the origin of modern man[J]. Nature, 1988, 331: 614-616
doi: 10.1038/331614a0 URL |
[23] |
McDermott F, Grün R, Stringer CB, et al. Mass-spectrometric U-series dates for Israeli Neanderthal/early modern hominid sites[J]. Nature, 1993, 363: 252-255
doi: 10.1038/363252a0 URL |
[24] |
Stringer CB, Grün R, Schwarcz HP, et al. ESR dates for the hominid burial site of Es Skhul in Israel[J]. Nature, 1989, 338: 756-758
doi: 10.1038/338756a0 URL |
[25] |
Macaulay V, Hill C, Achilli A, et al. Single, rapid coastal settlement of Asia revealed by analysis of complete mitochondrial genomes[J]. Science, 2005, 308: 1034-1036
doi: 10.1126/science.1109792 pmid: 15890885 |
[26] |
Hublin JJ, Ben-Ncer A, Bailey SE, et al. New fossils from Jebel Irhoud, Morocco and the pan-African origin of Homo sapiens[J]. Nature, 2017, 546: 289-292
doi: 10.1038/nature22336 URL |
[27] |
Hershkovitz I, Weber GW, Quam R, et al. The earliest modern humans outside Africa[J]. Science, 2018, 359: 456-459
doi: 10.1126/science.aap8369 pmid: 29371468 |
[28] |
Vidal CM, Lane CS, Asrat A, et al. Age of the oldest known Homo sapiens from eastern Africa[J]. Nature, 2022, 601: 579-583
doi: 10.1038/s41586-021-04275-8 URL |
[29] |
Westaway KE, Louys J, Awe RD, et al. An early modern human presence in Sumatra 73,000-63,000 years ago[J]. Nature, 2017, 548: 322-325
doi: 10.1038/nature23452 URL |
[30] |
Liu W, Martinón-Torres M, Cai Yj, et al. The earliest unequivocally modern humans in southern China[J]. Nature, 2015, 526: 696-670
doi: 10.1038/nature15696 URL |
[31] | Jarvis A, Reuter H, Nelson AE Hole-filled seamless SRTM data V4. International Centre for Tropical Agriculture (CIAT)[J]. Geographic Information System, Guevara, 2008 |
[32] |
Day MH. Early Homo sapiens remains from the Omo River region of south-west Ethiopia: Omo human skeletal remains[J]. Nature, 1969, 222: 1135-1138
doi: 10.1038/2221135a0 URL |
[33] | Grine FE. The Late Quaternary hominins of Africa:The skeletal evidence from MIS 6-2[A]. In: Jones SC, Stewart BA(Eds.). Africa from MIS 6-2: Population Dynamics and Paleoenvironments[C]. Springer, 2016, 323-381 |
[34] |
McDermott F, Stringer C, Grün R, et al. New Late-Pleistocene uranium-thorium and ESR dates for the Singa hominid (Sudan)[J]. Journal of Human Evolution, 1996, 31(6): 507-516
doi: 10.1006/jhev.1996.0076 URL |
[35] |
Trinkaus E. Early modern humans[J]. Annual Review of Anthropology, 2005, 34: 207-230
doi: 10.1146/annurev.anthro.34.030905.154913 URL |
[36] | Sharp WD, Paces JB. Comment on “The earliest modern humans outside Africa”[J]. Science, 2018, 362: eaat6598 |
[37] | Hershkovitz I, Duval M, Grün R, et al. Response to Comment on “The earliest modern humans outside Africa”[J]. Science, 2018, 362: eaat8964 |
[38] |
Vallois HV, Vandermeersch B. The Mousterian skull of Qafzeh (Homo VI). An anthropological study[J]. Journal of Human Evolution, 1975, 4(6): 445-455
doi: 10.1016/0047-2484(75)90142-6 URL |
[39] |
Stringer C, Galway-Witham J. When did modern humans leave Africa?[J]. Science, 2018, 359: 389-390
doi: 10.1126/science.aas8954 pmid: 29371454 |
[40] |
Douka K, Bergman CA, Hedges REM, et al. Chronology of Ksar Akil (Lebanon) and implications for the colonization of Europe by anatomically modern humans[J]. PLoS One, 2013, 8: e72931
doi: 10.1371/journal.pone.0072931 URL |
[41] | de Lumley MA, Guipert G, de Lumley H, et al. Apidima 1 and Apidima 2: Two Anteneandertal skulls in the Peloponnese, Greece[J]. L’Anthropologie, 2020, 124: 102743 |
[42] | Rosas A, Bastir M. An assessment of the late Middle Pleistocene occipital from Apidima 1 skull (Greece)[J]. L’Anthropologie, 2020, 124: 102745 |
[43] | Fewlass H, Talamo S, Wacker L, et al. A 14C chronology for the Middle to Upper Palaeolithic transition at Bacho Kiro Cave, Bulgaria[J]. Nature Ecology & Evolution, 2020, 4: 794-801 |
[44] | Prüfer K, Posth C, Yu H, et al. A genome sequence from a modern human skull over 45,000 years old from Zlatý kůň in Czechia[J]. Nature Ecology & Evolution, 2021, 5: 820-825 |
[45] |
Higham T, Compton T, Stringer C, et al. The earliest evidence for anatomically modern humans in northwestern Europe[J]. Nature, 2011, 479: 521-524
doi: 10.1038/nature10484 URL |
[46] |
Shang H, Tong H, Zhang S, et al. An early modern human from Tianyuan Cave, Zhoukoudian, China[J]. Proceedings of the National Academy of Sciences, 2007, 104: 6573-6578
doi: 10.1073/pnas.0702169104 URL |
[47] |
Liu W, Jin CZ, Zhang YQ, et al. Human remains from Zhirendong, South China, and modern human emergence in East Asia[J]. Proceedings of the National Academy of Sciences, 2010, 107: 19201-19206
doi: 10.1073/pnas.1014386107 URL |
[48] | Sun XF, Wen SQ, Lu CQ, et al. Ancient DNA and multimethod dating confirm the late arrival of anatomically modern humans in southern China[J]. Proceedings of the National Academy of Sciences, 2021, 118: e2019158118 |
[49] | Higham TFG, Douka K. The reliability of late radiocarbon dates from the Paleolithic of southern China[J]. Proceedings of the National Academy of Sciences, 2021, 118: e2103798118 |
[50] | Martinón-Torres M, Cai Y, Tong H, et al. On the misidentification and unreliable context of the new “human teeth” from Fuyan Cave (China)[J]. Proceedings of the National Academy of Sciences, 2021, 118: e2102961118 |
[51] |
Wu X, Pei S, Cai Y, et al. Morphological description and evolutionary significance of 300 ka hominin facial bones from Hualongdong, China[J]. Journal of Human Evolution, 2021, 161: 103052
doi: 10.1016/j.jhevol.2021.103052 URL |
[52] | 刘武, 吴秀杰, 邢松, 等. 中国古人类化石[M]. 北京: 科学出版社, 2014 |
[53] | 原思训, 陈铁梅, 高世君. 华南若干旧石器时代地点的铀系年代[J]. 人类学学报, 1986, 5: 179-190 |
[54] | Wu X, Liu W, Dong W, et al. The brain morphology of Homo Liujiang cranium fossil by three-dimensional computed tomography[J]. Chinese Science Bulletin, 2008, 53: 2513-2519 |
[55] | 刘武, 吴秀杰, 汪良. 柳江人头骨形态特征及柳江人演化的一些问题[J]. 人类学学报, 2006, 25: 177-194 |
[56] |
Xing S, Guan Y, O’Hara M, et al. Late Pleistocene hominin teeth from Laoya Cave, southern China[J]. Anthropological Science, 2017, 125(3): 129-140
doi: 10.1537/ase.170802 URL |
[57] |
Mao X, Zhang H, Qiao S, et al. The deep population history of northern East Asia from the Late Pleistocene to the Holocene[J]. Cell, 2021, 184: 3256-3266
doi: 10.1016/j.cell.2021.04.040 pmid: 34048699 |
[58] | 刘武, 何嘉宁, 吴秀杰, 等. 山顶洞人与现代华北人头骨非测量性特征比较及中国更新世晚期人类演化的一些问题[J]. 人类学学报, 2006, 25: 26-41 |
[59] |
Cunningham DL, Wescott DJ. Within-group human variation in the Asian Pleistocene: the three Upper Cave crania[J]. Journal of Human Evolution, 2002, 42: 627-638
pmid: 11969300 |
[60] |
Cunningham DL, Jantz RL. The morphometric relationship of Upper Cave 101 and 103 to modern Homo sapiens[J]. Journal of Human Evolution, 2003, 45: 1-18
pmid: 12890442 |
[61] |
Wei P, Wallace IJ, Jashashvili T, et al. Structural analysis of the femoral diaphyses of an early modern human from Tianyuan Cave, China[J]. Quaternary International, 2017, 434: 48-56
doi: 10.1016/j.quaint.2015.10.099 URL |
[62] |
Wei P, Zhao Y, Walker CS, et al. Internal structural properties of the humeral diaphyses in an early modern human from Tianyuan Cave, China[J]. Quaternary International, 2021, 591: 107-118
doi: 10.1016/j.quaint.2021.04.012 URL |
[63] |
Yang MA, Gao X, Theunert C, et al. 40,000-year-old individual from Asia provides insight into early population structure in Eurasia[J]. Current Biology, 2017, 27(20): 3202-3208. e9
doi: S0960-9822(17)31195-8 pmid: 29033327 |
[64] |
Wei P, Lu H, Carlson KJ, et al. The upper limb skeleton and behavioral lateralization of modern humans from Zhaoguo Cave, southwestern China[J]. American Journal of Physical Anthropology, 2020, 173: 671-696
doi: 10.1002/ajpa.24147 URL |
[65] |
Liao W, Xing S, Li D, et al. Mosaic dental morphology in a terminal Pleistocene hominin from Dushan Cave in southern China[J]. Scientific Reports, 2019, 9: 2347
doi: 10.1038/s41598-019-38818-x pmid: 30787352 |
[66] |
Demeter F, Shackelford LL, Bacon AM, et al. Anatomically modern human in Southeast Asia (Laos) by 46 ka[J]. Proceedings of the National Academy of Sciences, 2012, 109: 14375-14380
doi: 10.1073/pnas.1208104109 URL |
[67] | Demeter F, Shackelford L, Westaway K, et al. Early modern humans and morphological variation in Southeast Asia: Fossil evidence from Tam Pa Ling, Laos[J]. PLoS One, 2015, 10: e0121193 |
[68] | Curnoe D, Datan I, Taçon PSC, et al. Deep skull from Niah Cave and the Pleistocene peopling of Southeast Asia[J]. Frontiers in Ecology and Evolution, 2016, 4: 75 |
[69] |
Wedage O, Amano N, Langley MC, et al. Specialized rainforest hunting by Homo sapiens -45,000 years ago[J]. Nature Communications, 2019, 10: 1-8
doi: 10.1038/s41467-018-07882-8 URL |
[70] | Kennedy KA. God-Apes and Fossil Men: Paleoanthropology of South Asia[M]. Ann Arbor: University of Michigan Press, 2000 |
[71] |
Matsumura H, Pookajorn S. A morphometric analysis of the Late Pleistocene human skeleton from the Moh Khiew Cave in Thailand[J]. Homo, 2005, 56: 93-118
doi: 10.1016/j.jchb.2005.05.004 pmid: 16130834 |
[72] |
Dizon E, Détroit F, Sémah F, et al. Notes on the morphology and age of the Tabon Cave fossil Homo sapiens[J]. Current Anthropology, 2002, 43: 660-666
doi: 10.1086/342432 URL |
[73] |
Détroit F, Dizon E, Falguères C, et al. Upper Pleistocene Homo sapiens from the Tabon cave (Palawan, The Philippines): description and dating of new discoveries[J]. Comptes Rendus Palevol, 2004, 3: 705-712
doi: 10.1016/j.crpv.2004.06.004 URL |
[74] |
Storm P, Wood R, Stringer C, et al. U-series and radiocarbon analyses of human and faunal remains from Wajak, Indonesia[J]. Journal of Human Evolution, 2013, 64: 356-365
doi: 10.1016/j.jhevol.2012.11.002 pmid: 23465338 |
[75] | Storm P. The evolutionary significance of the Wajak skulls[M]. Nationaal Natuurhistorisch Museum, 1995 |
[76] |
Fu Q, Li H, Moorjani P, et al. Genome sequence of a 45,000-year-old modern human from western Siberia[J]. Nature, 2014, 514: 445-450
doi: 10.1038/nature13810 URL |
[77] |
Kuzmin YV, Kosintsev PA, Razhev DI, et al. The oldest directly-dated human remains in Siberia: AMS C-14 age of talus bone from the Baigara locality, West Siberian Plain[J]. Journal of Human Evolution, 2009, 57(1): 91-95
doi: 10.1016/j.jhevol.2009.04.003 URL |
[78] |
Seguin-Orlando A, Korneliussen TS, Sikora M, et al. Genomic structure in Europeans dating back at least 36,200 years[J]. Science, 2014, 346: 1113-1118
doi: 10.1126/science.aaa0114 pmid: 25378462 |
[79] |
Pettitt PB, Bader NO. Direct AMS Radiocarbon dates for the Sungir mid Upper Palaeolithic burials[J]. Antiquity, 2000, 74: 269-270
doi: 10.1017/S0003598X00059196 URL |
[80] |
Richards MP, Pettitt PB, Stiner MC, et al. Stable isotope evidence for increasing dietary breadth in the European mid-Upper Paleolithic[J]. Proceedings of the National Academy of Sciences, 2001, 98: 6528-6532
doi: 10.1073/pnas.111155298 URL |
[81] | Akimova E, Higham T, Stasyuk I, et al. A new direct radiocarbon AMS date for an Upper Palaeolithic human bone from Siberia[J]. Archaeometry, 2010, 52: 1122-1130 |
[82] |
Sikora M, Seguin-Orlando A, Sousa VC, et al. Ancient genomes show social and reproductive behavior of early Upper Paleolithic foragers[J]. Science, 2017, 358: 659-662
doi: 10.1126/science.aao1807 pmid: 28982795 |
[83] |
Raghavan M, Skoglund P, Graf KE, et al. Upper Palaeolithic Siberian genome reveals dual ancestry of Native Americans[J]. Nature, 2014, 505: 87-91
doi: 10.1038/nature12736 URL |
[84] |
Devièse T, Massilani D, Yi S, et al. Compound-specific radiocarbon dating and mitochondrial DNA analysis of the Pleistocene hominin from Salkhit Mongolia[J]. Nature Communications, 2019, 10: 1-7
doi: 10.1038/s41467-018-07882-8 URL |
[85] |
Coppens Y, Tseveendorj D, Demeter F, et al. Discovery of an archaic Homo sapiens skullcap in northeast Mongolia[J]. Comptes Rendus Palevol, 2008, 7: 51-60
doi: 10.1016/j.crpv.2007.12.004 URL |
[86] |
Tseveendorj D, Gunchinsuren B, Gelegdorj E, et al. Patterns of human evolution in northeast Asia with a particular focus on Salkhit[J]. Quaternary International, 2016, 400: 175-179
doi: 10.1016/j.quaint.2015.08.074 URL |
[87] |
Massilani D, Skov L, Hajdinjak M, et al. Denisovan ancestry and population history of early East Asians[J]. Science, 2020, 370: 579-583
doi: 10.1126/science.abc1166 pmid: 33122380 |
[88] |
Kobayashi H, Matsui Y, Suzuki H. University of Tokyo Radiocarbon Measurements IV[J]. Radiocarbon, 1971, 13: 97-102
doi: 10.1017/S0033822200000904 URL |
[89] |
Trinkaus E, Ruff CB. Early modern human remains from eastern Asia: The Yamashita-cho 1 immature postcrania[J]. Journal of Human Evolution, 1996, 30: 299-314
doi: 10.1006/jhev.1996.0025 URL |
[90] |
Kaifu Y, Fujita M. Fossil record of early modern humans in East Asia[J]. Quaternary International, 2012, 248: 2-11
doi: 10.1016/j.quaint.2011.02.017 URL |
[91] |
Thorne A, Grün R, Mortimer G, et al. Australia’s oldest human remains: age of the Lake Mungo 3 skeleton[J]. Journal of Human Evolution, 1999, 36: 591-612
pmid: 10330330 |
[92] |
Bowler JM, Johnston H, Olley JM, et al. New ages for human occupation and climatic change at Lake Mungo, Australia[J]. Nature, 2003, 421: 837-840
doi: 10.1038/nature01383 URL |
[93] | Thorne AG. Mungo and Kow Swamp: Morphological variation in Pleistocene Australians[J]. Mankind, 1971, 8: 85-89 |
[94] |
Adcock GJ, Dennis ES, Easteal S, et al. Mitochondrial DNA sequences in ancient Australians: Implications for modern human origins[J]. Proceedings of the National Academy of Sciences, 2001, 98: 537-542
doi: 10.1073/pnas.98.2.537 URL |
[95] |
Macumber PG. The geology and palaeohydrology of the Kow Swamp fossil hominid site, Victoria, Australia[J]. Journal of the Geological Society of Australia, 1977, 24: 307-320
doi: 10.1080/00167617708728990 URL |
[96] |
Stone T, Cupper ML. Last Glacial Maximum ages for robust humans at Kow Swamp, southern Australia[J]. Journal of Human Evolution, 2003, 45: 99-111
pmid: 14529647 |
[97] |
Thorne AG, Macumber PG. Discoveries of late Pleistocene man at Kow Swamp, Australia[J]. Nature, 1972, 238: 316-319
doi: 10.1038/238316a0 URL |
[98] |
Stringer C, Galway-Witham J. On the origin of our species[J]. Nature, 2017, 546: 212-214
doi: 10.1038/546212a URL |
[99] |
Weaver TD. Did a discrete event 200,000-100,000 years ago produce modern humans?[J]. Journal of Human Evolution, 2012, 63: 121-126
doi: 10.1016/j.jhevol.2012.04.003 pmid: 22658331 |
[100] | Stringer C. Modern human origins: progress and prospects[J]. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences, 2002, 357: 563-579 |
[101] | Rightmire GP. Human evolution in the Middle Pleistocene: The role of Homo heidelbergensis[J]. Evolutionary Anthropology, Issues, News, and Reviews: Issues, News, and Reviews, 1998, 6: 218-227 |
[102] |
Buck LT, Stringer CB. Homo heidelbergensis[J]. Current Biology, 2014, 24: R214-R215
doi: 10.1016/j.cub.2013.12.048 URL |
[103] |
Stringer CB, Barnes I. Deciphering the Denisovans[J]. Proceedings of the National Academy of Sciences, 2015, 112: 15542-15543
doi: 10.1073/pnas.1522477112 URL |
[104] |
Wu XJ, Maddux SD, Pan L, et al. Nasal floor variation among eastern Eurasian Pleistocene Homo[J]. Anthropological Science, 2012, 120: 217-226
doi: 10.1537/ase.120709 URL |
[105] |
Li ZY, Wu XJ, Zhou LP, et al. Late Pleistocene archaic human crania from Xuchang, China[J]. Science, 2017, 355: 969-972
doi: 10.1126/science.aal2482 URL |
[106] |
Xing S, Martinón-Torres M, Bermúdez de Castro JM. Late Middle Pleistocene hominin teeth from Tongzi, southern China[J]. Journal of Human Evolution, 2019, 130: 96-108
doi: S0047-2484(18)30346-4 pmid: 31010547 |
[107] |
Ni X, Ji Q, Wu W, et al. Massive cranium from Harbin in northeastern China establishes a new Middle Pleistocene human lineage[J]. The Innovation, 2021, 2: 100130
doi: 10.1016/j.xinn.2021.100130 URL |
[108] | 刘武, 吴秀杰, 邢松. 更新世中期中国古人类演化区域连续性与多样性的化石证据[J]. 人类学学报, 2019, 38: 473-490 |
[109] |
Meyer M, Arsuaga JL, de Filippo C, et al. Nuclear DNA sequences from the Middle Pleistocene Sima de los Huesos hominins[J]. Nature, 2016, 531: 504-507
doi: 10.1038/nature17405 URL |
[110] |
Klein RG. Archeology and the evolution of human behavior[J]. Evolutionary Anthropology, 2000, 9: 17-36
doi: 10.1002/(SICI)1520-6505(2000)9:1<17::AID-EVAN3>3.0.CO;2-A URL |
[111] |
Gunz P, Bookstein FL, Mitteroecker P, et al. Early modern human diversity suggests subdivided population structure and a complex out-of-Africa scenario[J]. Proceedings of the National Academy of Sciences, 2009, 106: 6094-6098
doi: 10.1073/pnas.0808160106 URL |
[112] |
Reyes-Centeno H, Ghirotto S, Détroit F, et al. Genomic and cranial phenotype data support multiple modern human dispersals from Africa and a southern route into Asia[J]. Proceedings of the National Academy of Sciences, 2014, 111: 7248-7253
doi: 10.1073/pnas.1323666111 URL |
[113] |
Petraglia MD, Haslam M, Fuller DQ, et al. Out of Africa: New hypotheses and evidence for the dispersal of Homo sapiens along the Indian Ocean rim[J]. Annals of Human Biology, 2010, 37: 288-311
doi: 10.3109/03014461003639249 pmid: 20334598 |
[114] |
Armitage S, Jasim S, Marks A, et al. The southern route “out of Africa”: Evidence for an early expansion of modern humans into Arabia[J]. Science, 2011, 331: 453-456
doi: 10.1126/science.1199113 pmid: 21273486 |
[115] |
Westaway KE, Morwood MJ, Roberts RG, et al. Age and biostratigraphic significance of the Punung rainforest fauna, East Java, Indonesia, and implications for Pongo and Homo[J]. Journal of Human Evolution, 2007, 53: 709-717
pmid: 17706269 |
[116] |
Storm P, Aziz F, de Vos J, et al. Late Pleistocene Homo sapiens in a tropical rainforest fauna in East Java[J]. Journal of Human Evolution, 2005, 49: 536-545
pmid: 16137741 |
[117] | 张新锋, 吉学平, 沈冠军. 云南西畴仙人洞动物化石铀系年代[J]. 人类学学报, 2004, 23: 88-92 |
[118] | 陈德珍, 祁国琴. 云南西畴人类化石及共生的哺乳动物群[J]. 古脊椎动物学报, 1978, 16: 33-46 |
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