256

Dortch, J. and Malaspinas, A.-S. 2017. Madjedbebe and Genomic Histories of Aboriginal Australia. Australian Archaeology 83(3): 174–7.

257

Cooper and Stringer 2013.

258

Prüfer, K. et al. 2017. A High-Coverage Neandertal Genome from Vindija Cave in Croatia. Science 358: 655–8.

259

Trinkaus, E. and Shipman, P. 1993. The Neandertals: Changing the Image of Mankind. London: Pimlico.

260

Shipman, P. 2001. The Man Who Found the Missing Link: The Extraordinary Life of Eugène Dubois. London: Weidenfeld and Nicolson.

261

Zaim, Y. et al. 2011. New 1.5 Million-Year-Old Homo erectus Maxilla from Sangiran (Central Java, Indonesia). Journal of Human Evolution 61: 363–76.

262

Gathogo, P. N. and Brown, F. H. 2006. Revised Stratigraphy of Area 123, Koobi Fora, Kenya, and New Age Estimates of Its Fossil Mammals, Including Hominins. Journal of Human Evolution 51(5): 471–9.

263

Dennell, R. and Roebroeks, W. 2006. An Asian Perspective on Early Human Dispersal from Africa. Nature 438: 1099–1104.

264

Tobias, P. V. 1976. The Life and Times of Ralph von Koenigswald: Palaeontologist Extraordinary. Journal of Human Evolution 5(5): 403–12.

265

Franzen, J. 1984. G. H. R. von Koenigswald and Asia – An Obituary. Asian Perspectives 25(2): 43–51.

266

Matsu'ura, S. et al. 2020. Age Control of the First Appearance Datum for Javanese Homo erectus in the Sangiran Area. Science 367: 210–14.

267

Von Koenigswald, G. H. R. and Weidenreich, F. 1938. Discovery of an Additional Pithecanthropus Skull. Nature 142: 715.

268

Thorne, A. G. and Wolpoff, M. H. 1981. Regional Continuity in Australasian Pleistocene Hominid Evolution. American Journal of Physical Anthropology 55: 337–49.

269

Об этой работе на Яве ее ведущие участники рассказали в: Swisher III, C. C., Curtis, G. H. and Lewin, R. 2000. Java Man: How Two Geologists Changed Our Understanding of Human Evolution. Chicago: Chicago University Press.

270

Swisher III, C. C. et al. 1996. Latest Homo erectus of Java: Potential Contemporaneity with Homo sapiens in Southeast Asia. Science 274: 1870–74.

271

Rizal, Y. et al. 2020. Last Appearance of Homo erectus at Ngandong, Java, 117,000–108,000 Years Ago. Nature 577: 381–5.

272

Там же.

273

Storm, P. et al. 2005. Late Pleistocene Homo sapiens in a Tropical Rainforest Fauna in East Java. Journal of Human Evolution 49(4): 536–45.

274

Westaway, K. E. et al. 2007. Age and Biostratigraphic Significance of the Punung Rainforest Fauna, East Java, Indonesia, and Implications for Pongo and Homo. Journal of Human Evolution 53(6): 709–17.

275

См.: Глава 2, примечание 42.

276

Kaifu, Y., Baba, H. and Aziz, F. 2006. Indonesian Homo erectus and Modern Human Origins in Australasia: New Evidence from the Sambungmacan Region, Central Java. In Y. Tomida et al. (eds.), Proceedings of the 7th and 8th Symposia on Collection Building and Natural History Studies in Asia and the Pacific Rim, National Science Museum Monographs (34), Tokyo: National Science Museum, pp. 289–94.

277

Delson, E. et al. 2001. The Sambungmacan 3 Homo erectus Calvaria: A Comparative Morphometric and Morphological Analysis. Anatomical Record 262: 380–97.

278

Turney, C. S. M. et al. 2020. Late Survival of Multiple Hominin Species in Island Southeast Asia. Статья находится на стадии отправки в научное издание.

279

Browning, S. R. et al. 2018. Analysis of Human Sequence Data Reveals Two Pulses of Archaic Denisovan Admixture. Cell 173(1): 53–61.

280

Lawson, D. J., van Dorp, L. and Falush, D. 2018. A Tutorial on How Not to Over-Interpret STRUCTURE and ADMIXTURE Bar Plots. Nature Communications 9(3258).

281

Sagan, C. 2006. The Varieties of Scientific Experience: A Personal View of the Search for God, ed. A. Druyan. Harmondsworth: Penguin.

282

Sutikna, T. et al. 2018. The Spatio-Temporal Distribution of Archaeological and Faunal Finds at Liang Bua (Flores, Indonesia) in Light of the Revised Chronology for Homo floresiensis. Journal of Human Evolution 124: 52–72.

283

Tucci, S. et al. 2018. Evolutionary History and Adaptation of a Human Pygmy Population of Flores Island, Indonesia. Science 361: 511–16.

284

Gravina, B., Mellars, P. and Ramsey, C. 2005. Radiocarbon Dating of Interstratified Neanderthal and Early Modern Human Occupations at the Châtelperronian Type-Site. Nature 438: 51–6; Zilhão, J. et al. 2008. Grotte des Fées (Châtelperron): History of Research, Stratigraphy, Dating, and Archaeology of the Châtelperronian Type-Site. PalaeoAnthropology 2008: 1–42; Riel-Salvatore, J., Miller, A. E. and Clark, G. A. 2008. An Empirical Evaluation of the Case for a Châtelperronian-Aurignacian Interstratification at Grotte des Fées de Châtelperron. World Archaeology 40(4): 480–92.

285

Finlayson, C. et al. 2008. Gorham's Cave, Gibraltar – The Persistence of a Neanderthal Population. Quaternary International 181(1): 64–71

286

Finlayson, C. et al. 2006. Late Survival of Neanderthals at the Southernmost Extreme of Europe. Nature 443: 850–53.

287

Banks, W. E. et al. 2008. Neanderthal Extinction by Competitive Exclusion. PLoS ONE 3(12): e3972.

288

Wood, R. E. et al. 2013. Radiocarbon Dating Casts Doubt on the Late Chronology of the Middle to Upper Palaeolithic Transition in Southern Iberia. Proceedings of the National Academy of Sciences 110(8): 2781–6.

289

Pinhasi, R. et al. 2011. Revised Age of Late Neanderthal Occupation and the End of the Middle Paleolithic in the Northern Caucasus. Proceedings of the National Academy of Sciences 108(21): 8611–16.

290

Higham, T. F. G. 2011. European Middle and Upper Palaeolithic Radiocarbon Dates are Often Older Than They Look: Problems with Previous Dates and Some Remedies. Antiquity 85(327): 235–49.

291

Higham, T. F. G. et al. 2014. The Timing and Spatiotemporal Patterning of Neanderthal Disappearance. Nature 512: 306–9.