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23. Mellars, P. Going east: new genetic and archaeological perspectives on the modern human colonization of Eurasia. Science 313: 796–800 (2006).
24. Walter, R. C., Buffler, R. T., Bruggema
25. Rose, J. The Arabian Corridor migration model: archaeological evidence for hominin dispersals into Oman during the Middle and Upper Pleistocene. Proceedings of the Seminar for Arabian Studies 37: 1–19 (2007).
Арaвийскaя зaгaдкa: Омaн
1. Rose, J. The Arabian Corridor migration model: archaeological evidence for hominin dispersals into Oman during the Middle and Upper Pleistocene. Proceedings of the Seminar for Arabian Studies 37: 1–19 (2007).
2. Field, J. S., Lahr, M. M. Assessment of the Southern Dispersal: GIS-based analyses of potential routes at Oxygen Isotopic Stage 4. Journal of World Prehistory 19: 1–45 (2006).
3. Petraglia, M. D., Alsharekh, A. The Middle Palaeolithic of Arabia: implications for modern human origins, behaviour and dispersals. Antiquity 77: 671–684 (2003).
4. Parker, A. G., Rose, J. I. Climate change and human origins in southern Arabia. Proceedings of the Seminar for Arabian Studies 38: 25–42 (2008).
5. Pope, K. O., Terrell, J. E. Environmental setting of human migrations in the circum-Pacific region. Journal of Biogeography 35: 1–21 (2008).
6. Rose, J. The question of Upper Pleistocene co
7. Stringer, C. Coasting out of Africa. Nature 405: 24–27 (2000).
2. По следaм предков: из Индии в Австрaлию
Археологические нaходки в пепле: Джвaлaпурaм, Индия
1. Rampino, M. R., Self, S. Volcanic winter and accelerated glaciation following the Toba super-eruption. Nature 359: 50–52 (1992).
2. Petraglia, M., Korisettar, R., Boivin, N., et al. Middle Palaeolithic assemblages from the Indian subcontinent before and after the Toba super-eruption. Science 317: 114–16 (2007).
3. Oppenheimer, C. Limited global change due to the largest known Quaternary eruption, Toba E74 kyr BP? Quaternary Science Reviews 21: 1593–609 (2002).
4. James, H. V. A., Petraglia, M. D. Modern human origins and the evolution of behaviour in the Later Pleistocene record of south Asia. Current Anthropology 46: S3–S16 (2005).
5. Gibbons, A. Pleistocene population explosions. Science 5130: 27–8 (1993).
6. Rampino, M. R., Self, S. Bottleneck in Human Evolution and the Toba eruption. Science 262: 1955 (1993).
7. Pope, K. O., Terrell, J. E. Environmental setting of human migrations in the circum-Pacific region. Journal of Biogeography 35: 1–21 (2008).
8. Louys, J. Limited effect of the Quaternary’s largest super-eruption (Toba) on land mammals from Southeast Asia. Quaternary Science Reviews 26: 3108–3117 (2007).
9. Macaulay, V., Hill, C., Achilli, A., et al. Single, rapid coastal settlement of Asia revealed by analysis of complete mitochondrial genomes. Science 308: 1034–1036 (2005).
10. Mellars, P. Going east: new genetic and archaeological perspectives on the modern human colonization of Eurasia. Science 313: 796–800 (2006).
11. Field, J. S., Lahr, M. M. Assessment of the Southern Dispersal: GIS-based analyses of potential routes at Oxygen Isotopic Stage 4. Journal of World Prehistory 19: 1–45 (2006).
12. Field, J. S., Petraglia, M. D., Lahr, M. M. The southern dispersal hypothesis and the South Asian archaeological record: examination of dispersal routes through GIS analysis. Journal of Anthropological Archaeology 26: 88–108 (2007).
Охотники-собирaтели и гены влaжных лесов: Ленггонг, Перaк, Мaлaйзия
1. Flint, J., Hill, A. V. S., Bowden, D. K., et al. High frequencies of α-thalassaemia are the result of natural selection by malaria Nature 321: 744–750 (1986).
2. Oppenheimer, S. J., Higgs, D. R., Weatherall, D. J., et al. Alpha thalassaemia in Papua New Guinea. Lancet 25: 424–426 (1984).
3. Oppenheimer, S. J., Hill, A. V. S., Gibson, F. D., et al. The interaction of alpha thalassaemia with malaria. Transactions of the Royal Society of Tropical Medicine and Hygiene 81: 322–326 (1987).
4. Isa, H. M. Material culture transformation and its impact on cultural ecological change: the case study of the Lanoh in Upper Perak (2007).
5. Carey, I., Orang Asli. Тhe Aboriginal Tribes of Peninsular Malaysia. Oxford University Press, Oxford (1976).
6. Rabett, R., Barker, G. Through the looking glass: new evidence on the presence and behaviour of late Pleistocene humans at Niah Cave, Sarawak, Borneo. In: Mellars, P., Boyle, K., Bar-Yosef, O., Stringer, C. (eds) Rethinking the Human Revolution: New Behavioural and Biological Perspectives on the Origin and Dispersal of Modern Humans, McDonald Institute for Archaeological Research, Cambridge: 411–424 (2007).
7. Lahr, M. M. Тhe Evolution of Modern Human Diversity, Cambridge University Press, Cambridge (1996).
8. Oppenheimer, S. Out of Eden. Тhe Peopling of the World. Constable & Robinson, London (2003).
9. Hill, C., Soares, P., Mormina, M., et al. Phylogeography and Ethnogenesis of Aboriginal Southeast Asians. Molecular Biology and Evolution 23: 2480–2491 (2006).
10. Jablonski, N. G., Chapman, G. The evolution of human skin coloration. Journal of Human Evolution 39: 57–106 (2000).
11. Jablonski, N. G. The evolution of human skin and skin colour. A
12. Norton, H. L., Kittles, R. A., Parra, E., et al. Genetic evidence for the convergent evolution of light skin in Europeans and East Asians. Molecular Biology & Evolution 24: 710–722 (2007).
13. Thangaraj, K., Chaubey, G., Singh, V. K., et al. In situ origin of deep rooting lineages of mitochondrial Macrohaplogroup ‘M’ in India. BMC Genomics 7: 151 (2006).
14. O’Co
Охотники зa древними черепaми: пещерa Ниaх, Борнео
1. Tom Harrison, Тhe Barefoot Anthropologist, BBC Four (2006).
2. Barker, G., Barton, H., Bird, M., et al. The ‘human revolution’ in lowland tropical Southeast Asia: the antiquity and behaviour of anatomically modern humans at Niah Cave (Sarawak, Borneo). Journal of Human Evolution 52: 243–261 (2007).
3. Rabett, R., Barker, G. Through the looking glass: new evidence on the presence and behaviour of late Pleistocene humans at Niah Cave, Sarawak, Borneo. In: Mellars, P., Boyle, K., Bar-Yosef, O., Stringer, C. (eds), Rethinking the Human Revolution: New Behavioural and Biological Perspectives on the Origin and Dispersal of Modern Humans, McDonald Institute for Archaeological Research, Cambridge: 411–424 (2007).
4. Detroit, F., Dizon, E., Falgueres, C., et al. Upper Pleistocene Homo sapiens from the Tabon Cave (Palawan, The Philippines): description and dating of new discoveries. Comptes Rendus Palevol 3: 705–712 (2004).
5. Storm, P. The evolution of humans in Australasia from an environmental perspective. Palaeogeography, Palaeoclimatology, Palaeoecology 171: 363–383 (2001).
6. Pope, K. O., Terrell, J. E. Environmental setting of human migrations in the circum-Pacific region. Journal of Biogeography 35: 121 (2008).
7. Cattelain, P. Hunting during the Upper Palaeolithic: bow, spearthrower, or both? In: H. Knecht (ed.), Projectile Technology, Plenum Press, New York: 213–240 (1997).
8. Hunt, C. O., Gilbertson, D. D., Rushworth, G. Modern humans in Sarawak, Malaysian Borneo, during Oxygen Isotope Stage 3: palaeoenvironmental evidence from the Great Cave of Niah. Journal of Archaeological Science 34: 1953–1969 (2007).
Хоббит: Флорес, Индонезия
1. Morwood, M., Oosterzee, P. V. Тhe Discovery of the Hobbit. Тhe Scientific Breakthrough that Changed the Face of Human History, Random House Australia, Sydney (2007).
2. Brown, P., Sutikna, T., Morwood, M. J., et al. A new small-bodied hominin from the Late Pleistocene of Flores, Indonesia. Nature 431: 1055–1061 (2004).
3. Jakob, T., Indriati, E., Soejono, R. P., et al. Pygmoid Australomelanesian Homo sapiens skeletal remains from Liang Bua, Flores: population affinities and pathological abnormalities. Proceedings of the National Academy of Science 103: 13421–13426 (2006).
4. Falk, D., Hildebolt, C., Smith, K., et al. Brain shape in human microcephalics and Homo floresiensis. Proceedings of the National Academy of Sciences 104: 2513–2518 (2007).
5. Obendorf, P. J., Oxnard, C. E., Kefford, B. J. Are the small human-like fossils found on Flores human endemic cretins? Proceedings of the Royal Society B e-publication doi:10.1098/rspb.2007.1488 (2008).
6. Argue, D., Donlon, D., Groves, C., Wright, R. Homo floresiensis: microcephalic, pymoid, Australopithecus, or Homo? Journal of Human Evolution 51: 360–374 (2006).
7. Larson, S. G., Jungers, W. L., Morwood, M. J., et al. Homo floresiensis and the evolution of the hominin shoulder. Journal of Human Evolution 6: 718–731 (2007).
8. Tocheri, M. W., Orr, C. M., Larson, S. G., et al. The primitive wrist of Homo floresiensis and its implications for hominin evolution. Science 317: 1743–1745 (2007).
9. Moore, M. W., Brumm, A. Stone artifacts and hominins in island Southeast Asia: new insights from Flores, eastern Indonesia. Journal of Human Evolution 52: 85–102 (2007).
10. O’Co
11. Morwood, M. J., Brown, P., Jatmiko, et al. Further evidence for small-bodied hominins from the Late Pleistocene of Flores, Indonesia. Nature 437: 1012–1017 (2005).
Вояж кaменного векa: с Ломбокa нa Сумбaву, Индонезия
1. Macaulay, V., Hill, C., Achilli, A., et al. Single, rapid coastal settlement of Asia revealed by analysis of complete mitochondrial genomes. Science 308: 1034–1036 (2005).
2. Oppenheimer, S. Out of Eden. Тhe Peopling of the World, Constable & Robinson, London (2003).
3. Oppenheimer, S. The Great Arc of dispersal of modern humans: Africa to Australia. Quaternary International doi:10.1016/j.quaint.2008.05.015 (2008).
4. Ingman, M., Gyllensten, U. Mitochondrial genome variation and evolutionary history of Australian and New Guinean aborigines. Genome Research 13: 1600–1606 (2003).
5. Van Holst Pellekan, S., Ingman, M., Roberts-Thomson, J., Harding, R. M. Mitochondrial genomics identifies major haplogroups in aboriginal Australians. American Journal of Physical Anthropology 131: 282–294 (2006).