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The Archaeology of Archaic and Early Modern Homo Sapiens: An African Perspective

Published online by Cambridge University Press:  22 December 2008

Philip Allsworth-Jones
Philip Allsworth-Jones
Affiliation:
McDonald Institute for Archaeological Research62 Sidney StreetCambridge CB2 3JW
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Extract

Whereas in Europe the transition from Middle to Upper Palaeolithic and the replacement of Neanderthal by anatomically modern humans appear to be synchronous events, in Africa this is not the case. Neanderthals as such were not present in Africa, and if the ‘Out of Africa’ model is correct, the ancestors of anatomically modern humans must have made their appearance in a Middle Stone Age context before 100,000 years ago. Subsequently, it seems that they coexisted with Neanderthals for up to 70,000 years in the Near East. If a direct biological correlation can be ruled out, the question arises: what was the impetus for an Upper Palaeolithic ‘revolution’ and why should it have taken place at all?

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Articles
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Cambridge Archaeological Journal , Volume 3 , Issue 1 , April 1993 , pp. 21 - 39
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Copyright © The McDonald Institute for Archaeological Research 1993

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References

Aitken, M.J., Stringer, C.B. & Mellars, P.A. (eds.), 1992. The origin of modern humans and the impact of chronometric dating. Philosophical Transactions of the Royal Society: series B (Biological Sciences) 337, 125250.Google Scholar
Aitken, M.J. & Valladas, H., 1992. Luminescence dating relevant to human origins. Philosophical Transactions of the Royal Society: series B 337, 139–44.Google ScholarPubMed
Allsworth-Jones, P., 1986a. Middle Stone Age and Middle Palaeolithic: the evidence from Nigeria and Cameroun, in Stone Age Prehistory, eds. Bailey, G.N. & Callow, P.. Cambridge: Cambridge University Press, 153–68.Google Scholar
Allsworth-Jones, P., 1986b. The Szeletian and the Transition from Middle to Upper Palaeolithic in Central Europe. Oxford: Oxford University Press.Google Scholar
Allsworth-Jones, P., 1987. The earliest human settlement in West Africa and the Sahara. West African Journal of Archaeology 17, 87128.Google Scholar
Allsworth-Jones, P., 1990. Les industries à pointes foliacées d'Europe Centrale: questions de définitions et relations avec les autres techno–complexes, in Paléolithiaue moyen récent et paléolithiaue supérieur ancien en Europe, ed. Farizy, C.. (Mémoires du Musée d'lle de France 3.) Nemours: APRAIF, 7995.Google Scholar
Andah, B.W., 1979. The early palaeolithic in West Africa: the case of Asokrochona coastal region of Accra, Ghana. West African Journal of Archaeology 9, 4785.Google Scholar
Asfaw, B., 1983. A newhominid parietal from Bodo, Middle Awash Valley, Ethiopia. American Journal of Physical Anthropology 61, 367–71.CrossRefGoogle ScholarPubMed
Bar-Yosef, O., 1992. The role of western Asia in modern human origins. Philosophical Transactions of the Royal Society: series B 337, 193200.Google ScholarPubMed
Barinaga, M., 1992. ‘African Eve’ backers beat a retreat. Science 255, 686–7.CrossRefGoogle Scholar
Beaumont, P.B., Villiers, H. de & Vogel, J.C., 1978. Modern man in Sub–Saharan Africa prior to 49,000 years Bp: a review and evaluation with particular reference to Border Cave. South African Journal of Science 74, 409–19.Google Scholar
Bickerton, D., 1990. Language and Species. Chicago (IL): University of Chicago Press.CrossRefGoogle Scholar
Bishop, W.W. & Clark, J.D. (eds.), 1967. Background to Evolution in Africa. Chicago (IL): University of Chicago Press.Google Scholar
Bordes, F., 1976–77. Mousterien et Aterien. Quaternaria XIX, 1934.Google Scholar
Bowcock, A.M. et al., 1991. Drift, admixture, and selection in human evolution: a study with DNA poly–morphisms. Proc. Natl. Acad. Sci. USA 88, 839–43.CrossRefGoogle Scholar
Bräuer, G., 1984. A craniological approach to the origin of anatomically modern Homo sapiensin Africa and implications for the appearance of modern Europeans, in The Origins of Modern Humans, eds. Smith, F.H. & Spencer, F.. New York (NY): Alan R. Liss, 327410.Google Scholar
Bräuer, G., 1989. The evolution of modern humans: a comparison of the African and non–African evidence, in The Human Revolution, eds. Mellars, P. & Stringer, C.. Edinburgh: Edinburgh University Press 123–54.Google Scholar
Bräuer, G. & Leakey, R.E., 1986. The ES–11693 Cranium. Journal of Human Evolution 15, 289312.CrossRefGoogle Scholar
Bräuer, G. & Mehlman, M.J., 1988. Hominid molars from a Middle Stone Age level at the Mumba rock shelter, Tanzania. American Journal of Physical Anthropology 75,6976.Google Scholar
Bräuer, G. & Rimbach, K.W., 1990. Late archaic and modern Homo sapiens from Europe, Africa, and Southwest Asia: craniometric comparisons and phylogenetic implications. Journal of Human Evolution 19, 789807.CrossRefGoogle Scholar
Brooks, A.S., Crowell, A.L. & Yellen, J.E., 1980. ≠Gi: a Stone Age archaeological site in the northern Kalahari Desert, Botswana. Proceedings of the 8th Panafrican Congress of Prehistory and Quaternary Studies, Nairobi, September 1977. Nairobi: TILLMIAP, 304–9.Google Scholar
Brooks, A.S. et al., 1990. Dating Pleistocene archaeological sites by protein diagenesis in ostrich eggshell. Science 248, 60–4.CrossRefGoogle Scholar
Brothwell, D.R., 1963. Evidence of early population change in Central and Southern Africa: doubts and problems. Man 63, 101–4.CrossRefGoogle Scholar
Butzer, K.W., Beaumont, P.B. & Vogel, J.C., 1978. Lithostratigraphy of Border Cave, Kwazulu, South Africa: a Middle Stone Age sequence beginning c. 195,000 BP. Journal of Archaeological Science 5, 317–41.Google Scholar
Butzer, K.W., Brown, F.H. & Thurber, D.L., 1969. Horizontal sediments of the lower Omo valley: the Kibish Formation. Quaternaria XI, 1529.Google Scholar
Campbell, B.G., 1964. Quantitative taxonomy and human evolution, in Classification and Human Evolution, ed. Washburn, S.L.. London: Methuen, 5074.Google Scholar
Carter, P.L., Mitchell, P.J. & Vinnicombe, P., 1988. Sehonghong: The Middle and Later Stone Age Sequence at a Lesotho Rock Shelter. (BAR International Series 406.) Oxford: BAR.Google Scholar
Cavalli-Sforza, L.L., 1983. The Genetics of Human Races. (Carolina Biology Readers No.121.) Burlington (NC): Carolina Biological Supply Company.Google Scholar
Cavalli-Sforza, L.L., 1991. Genes, peoples and languages. Scientific American, November 265(5), 72–8.CrossRefGoogle Scholar
Cavalli-Sforza, L.L.et al., 1988. Reconstruction of human evolution: bringing together genetic, archaeological, and linguistic data. Proc. Natl. Acad. Sci. USA 85, 6002–6.CrossRefGoogle ScholarPubMed
Clark, J.D. (ed.), 1957. Proceedings of the 3rd Pan–African Congress on Prehistory, Livingstone, 1955. London: Chatto & Windus.Google Scholar
Clark, J.D., 1959. Further excavations at Broken Hill, Northern Rhodesia. Journal of the Royal Anthropological Institute 89, 201–32.Google Scholar
Clark, J.D., 1963. Prehistoric Cultures of Northeast Angola and their Significance in Tropical Africa. (Publicações Culturais No. 62.) Lisbon: Diamang.Google Scholar
Clark, J.D., 1964a. The influence of environment in inducing culture change at the Kalambo Falls prehistoric site. South African Archaeological Bulletin 19, 93101.CrossRefGoogle Scholar
Clark, J.D., 1964b. The Sangoan culture of Equatoria: the implications of its stone equipment, in Miscelanea en Homenaje al Abate Henri Breuil, vol. 1, ed. Perello, E. Ripoll. Barcelona: Instituto de Prehistoria y Arqueologia, 309–25.Google Scholar
Clark, J.D., 1969. Kalambo Falls Prehistoric Site, vol. 1. Cambridge: Cambridge University Press.Google Scholar
Clark, J.D., 1970. The Prehistory of Africa. London: Thames & Hudson.Google Scholar
Clark, J.D., 1974. Kalambo Falls Prehistoric Site, vol. 2. Cambridge: Cambridge University Press.Google Scholar
Clark, J.D., 1975. Africa in prehistory: peripheral or paramount? Man (n.s.) 10,175–98.CrossRefGoogle Scholar
Clark, J.D., 1981. ‘New men, strange faces, other minds’: an archaeologist's perspective on recent discoveries relating to the origin and spread of modern man. Proceedings of the British Academy LXVII, 163–92.Google Scholar
Clark, J.D., 1992. African and Asian perspectives on the origins of modern humans. Philosophical Transactions of the Royal Society: series B 337, 201–15.Google ScholarPubMed
Clark, J.D.et al., 1947. New studies on Rhodesian man. Journal of the Royal Anthropological Institute 77, 732.Google Scholar
Clark, J.D.et al.., 1968. Rhodesian Man: notes on a new femur fragment. Man (n.s.) 3, 105–11.CrossRefGoogle Scholar
Clark, J.G.D., 1969. World Prehistory, 2nd ed.Cambridge: Cambridge University Press.Google Scholar
Clarke, R.J., 1976. New cranium of Homo erectus from Lake Ndutu, Tanzania. Nature 262, 485–7.CrossRefGoogle Scholar
Clarke, R.J., 1985. A new reconstruction of the Florisbad cranium, with notes on the site, in Ancestors: The Hard Evidence, ed. E., Delson. New York (NY): Alan R. Liss, 301–5.Google Scholar
Conroy, G.C. et al., 1978. Newly discovered fossil hominid skull from the Afar depression, Ethiopia. Nature 275, 6770.Google Scholar
Davidson, I., 1991. The archaeology of language origins: a review. Antiquity 65,3948.Google Scholar
Davies, O., 1964. The Quaternary in the Coastlands of Guinea. Glasgow: Jackson.Google Scholar
Day, M.H., 1972. The Omo human skeletal remains, in The Origin of Homo sapiens, ed. Bordes, F.. Paris: Unesco, 31–5.Google Scholar
Day, M.H., Leakey, M.D. & Magori, C., 1980. A new hominid fossil skull (L.H.18) from the Ngaloba Beds, Laetoli, northern Tanzania. Nature 284, 55–6.Google Scholar
Day, M.H. & Stringer, C.B., 1991. Les restes crâniens d'Omo–Kibish et leur classification á l'intérieur du genre Homo. L'Anthropologie 95, 573–94.Google Scholar
Day, M.H.et al., 1991. Les vestiges post–crâniens d'Omo 1 (Kibish). L'Anthropologie 95, 595610.Google Scholar
Deacon, H.J., 1992. Southern Africa and modern human origins. Philosophical Transactions of the Royal Society: series B 337, 177–83.Google Scholar
Deacon, H.J. & Geleijnse, V.B., 1988. The stratigraphy and sedimentology of the main site sequence, Klasies River, South Africa. South African Archaeological Bulletin 43, 514.CrossRefGoogle Scholar
Deacon, J., 1989. Review of Mitchell 1988b and Carter, Mitchell & Vinnicombe, 1988. South African Archaeological Bulletin 44, 53–4.CrossRefGoogle Scholar
Debénath, A., 1975. Découverte de restes humains probablement atériens à Dar es Soltane (Maroc). Comptes Rendus de l'Académie des Sciences Paris (D) 281, 875–6.Google Scholar
Debenath, A. et al., 1982. Position stratigraphique des restes humains paléolithiques marocains sur la base des travaux récents. Comptes Rendus de l'Académie des Sciences Paris(II) 294, 1247–50.Google Scholar
Debenath, A. et al., 1986. Stratigraphie, habitat, typologie et devenir de l'Aterien marocain: données récentes. L'Anthropologie 90, 233–46.Google Scholar
Edwards, A.W.F. & Cavalli-Sforza, L., 1964. Reconstruction of evolutionary trees, in Phenetic and Phylogenetic Classification, eds. Haywood, V.H. & McNeill, J.. (Systematic Association Publication No. 6.) London: Systematics Association, 6776.Google Scholar
Ennouchi, E., 1962. Un Néandertalien: l'homme du Jebel Irhoud (Maroc). l'Anthropologie 66, 279–99Google Scholar
Ennouchi, E., 1963. Les Néanderthaliens du Jebel Irhoud (Maroc). Comptes Rendus de VAcademie des Sciences Paris 256, 2459–60.Google Scholar
Ferembach, D., 1976. Les restes humains de la Grotte de Dar–es–Soltane 2 (Maroc) Campagne 1975. Bull. et Mém. de la Soc. d'Anthrop. de Paris 3 (XIII), 183–93.Google Scholar
Foley, R., 1987. Hominid species and stone–tool assemblages: how are they related? Antiquity 61, 380–92.CrossRefGoogle Scholar
Gilead, I., 1991. The Upper Paleolithic period in the Levant. journal of World Prehistory 5 (2), 105–54.Google Scholar
Goodwin, A.J.H., 1928. An introduction to the Middle Stone Age in South Africa. South African Journal of Science 25: 410–8.Google Scholar
Grüm, R. & Stringer, C.B., 1991. Electron spin resonance dating and the evolution of modern humans. Archaeometry 33(2), 153–99.CrossRefGoogle Scholar
Grun, R.et al., 1990a. Electron–spin–resonance dating of tooth enamel from Klasies River Mouth cave. Current Anthropology 31(4), 427–32.Google Scholar
Grün, R.et al., 1990b. ESR dating evidence for early modern humans at Border Cave in South Africa. Nature 344, 537–9.Google Scholar
Grün, R.et al., 1991. ESR dating of teeth from Garrod's Tabun cave collection. Journal of Human Evolution 20, 231–48.CrossRefGoogle Scholar
Hahn, J., 1986. Kraft und Aggression. Tubingen: Institut für Urgeschichte der Universität Tübingen.Google Scholar
Hay, R.L., 1987. Geology of the Laetoli area, in Laetoli, a Pliocene Site in Northern Tanzania, eds. M.D., Leakey & J.M., Harris. Oxford: Oxford University Press, 23–47.Google Scholar
Howells, W.W., 1976. Explaining modern man: evolutionists versus migrationists. Journal of Human Evolution 5, 477–95.CrossRefGoogle Scholar
Hublin, J.J., 1978. Quelques caractères apomorphes du crâne néandertalien et leur interprétation phylogénique. Comptes Rendus de l'Académie des Sciences Paris (D) 287, 923–6.Google Scholar
Hublin, J.J., 1992. Recent human evolution in northwestern Africa. Philosophical Transactions of the Royal Society: series B 337, 185–91.Google ScholarPubMed
Isaac, G.L., 1982. The earliest archaeological traces, in The Cambridge History of Africa, vol. 1, ed. Clark, J.D.. Cambridge: Cambridge University Press, 157–247.Google Scholar
Kaplan, J.M., 1989. 45,000 years of hunter–gatherer history in Natal as seen from Umhlatuzana rock shelter. South African Archaeological Society Goodwin Series 6, 716.Google Scholar
Kaplan, J.M., 1990. The Umhlatuzana Rock Shelter sequence: 100,000 years of Stone Age history. Natal Museum Journal of Humanities 2, 194.Google Scholar
Klein, R.G., 1989. The Human Career. Chicago (IL): University of Chicago Press.Google Scholar
Klein, R.G., 1992. The archeology of modern human origins. Evolutionary Anthropology 1, 514.Google Scholar
Kuman, K.A., 1989. Florisbad and *Gi: the contribution of open–air sites to study of the Middle Stone Age in southern Africa. Unpublished Ph.D. dissertation, University of Pennsylvania, Philadelphia.Google Scholar
Leakey, R.E., Butzer, K.W. & Day, M.H., 1969. Early Homo sapiens remains from the Omo river region of Southy–west Ethiopia. Nature 222, 1132–8.CrossRefGoogle ScholarPubMed
Lewin, R., 1988. In the Age of Mankind. Washington (DC): The Smithsonian Institution.Google Scholar
McBrearty, S., 1987. Une évaluation du Sangoen: son âge, son environnement et son rapport avec l'origine de l'Homo sapiens. L'Anthropologie 91, 497510.Google Scholar
McBrearty, S., 1988. The Sangoan–Lupemban and Middle Stone Age sequence at the Muguruk site, Western Kenya. World Archaeology 19, 388420.CrossRefGoogle Scholar
McBrearty, S., 1991. Recent research in Western Kenya and its implications for the status of the Sangoan industry, in Cultural Beginnings, ed. J.D., Clark. Bonn: Habelt, 159–76.Google Scholar
Magori, C. & Day, M.H., 1983. Laetoli Hominid 18: an early Homo sapiens skull. Journal of Human Evolution 12, 747–53.CrossRefGoogle Scholar
Marks, A.E., 1983. The Middle to Upper Palaeolithic transition in the Levant. Advances in World Archaeology 2, 5198.Google Scholar
Mehlman, M.J., 1979. Mumba–Höhle revisited: the relevance of a forgotten excavation to some current issues in East African prehistory. World Archaeology 11, 8094.CrossRefGoogle Scholar
Mehlman, M.J., 1987. Provenience, age and associations of archaic Homo sapiens crania from Lake Eyasi, Tan–zania. Journal of Archaeological Science 14,133–62CrossRefGoogle Scholar
Mellars, P. A., 1989. Major issues in the emergence of modern humans. Current Anthropology 30(3), 349–85.CrossRefGoogle Scholar
Mellars, P.A., 1991. Cognitive changes and the emergence of modern humans in Europe. Cambridge Archaeological Journal 1(1), 6376.CrossRefGoogle Scholar
Mellars, P.A., 1992. Archaeology and the population–dispersal hypothesis of modern human origins in Europe. Philosophical Transactions of the Royal Society: series B 337, 225–34.Google Scholar
Mellars, P.A. & Tixier, J., 1989. Radiocarbon–accelerator dating of Ksar ‘Aqil (Lebanon) and the chronology of the Upper Palaeolithic sequence in the Middle East. Antiquity 63, 761–8.CrossRefGoogle Scholar
Miller, G.H.et al., 1992. Pleistocene geochronology and palaeothermometry from protein diagenesis in ostrich eggshells: implications for the evolution of modern humans. Philosophical Transactions of the Royal Society: series B 337, 149–57.Google Scholar
Mitchell, P.J., 1988a. The late Pleistocene early microlithic assemblages of southern Africa. World Archaeology 20, 2739.CrossRefGoogle Scholar
Mitchell, P.J., 1988b. The Early Microlithic Assemblages of Southern Africa. (BAR International Series 388.) Oxford: BAR.Google Scholar
Mountain, J.L.et al., 1992. Evolution of modern humans: evidence from nuclear DNA polymorphisms. Philosophical Transactions of the Royal Society: series B 337, 159–65.Google ScholarPubMed
Mturi, A.A., 1976. New hominid from Lake Ndutu, Tanzania. Nature 262, 484–5.CrossRefGoogle Scholar
Noten, F. van, 1977. Excavations at Matupi cave. Antiquity 51, 3540.CrossRefGoogle Scholar
Nygaard, S.E. & Talbot, M.R., 1976. Interim report on excavation at Asokrochona, Ghana. West African Journal of Archaeology 6, 1319.Google Scholar
Nygaard, S.E & Talbot, M.R., 1984. Stone Age archaeology and environment on the southern Accra plains, Ghana. Norwegian Archaeological Review 17, 1938.CrossRefGoogle Scholar
Oakley, K.P., 1974. Revised dating of the Kanjera hominids. Journal of Human Evolution 3, 257–8.CrossRefGoogle Scholar
Putman, J.J., 1988. The search for modern humans. National Geographic: The Peopling of the Earth 174(4), 439–77.Google Scholar
Rightmire, G.P., 1979. Implications of Border Cave skeletal remains for Later Pleistocene human evolution. Current Anthropology 20, 2335.CrossRefGoogle Scholar
Rightmire, G.P. & H.J., Deacon, 1991. Comparative studies of Late Pleistocene human remains from Klasies River Mouth, South Africa. Journal of Human Evolution 20, 131–56.Google Scholar
Ross, P.E., 1991. Hard words. Scientific American, April 264(4), 70–9.CrossRefGoogle Scholar
Ruhlen, M., 1987. A Guide to the World's Languages. Stanford (CA): Stanford University Press.Google Scholar
Luca, A.P. Santa, 1978. A re–examination of presumed Neandertal–like fossils. Journal of Human Evolution 7, 619–36.Google Scholar
Schwarcz, H.P., 1992. Uranium–series dating and the origin of modern man. Philosophical Transactions of the Royal Society: series B 337, 131–7.Google ScholarPubMed
Schwarcz, H.P.et al., 1988. ESR dates for the hominid burial site of Qafzeh in Israel. Journal of Human Evolution 17, 733–7.CrossRefGoogle Scholar
Schwarcz, H.P. et al., 1989. ESR dating of the Neanderthal site, Kebara cave, Israel. Journal of Archaeological Science 16, 653–9.Google Scholar
Singer, R. & Wymer, J., 1968. Archaeological investigations at the Saldanha skull site in South Africa. South African Archaeological Bulletin 15, 6374.Google Scholar
Singer, R. & Wymer, J., 1982. The Middle Stone Age at Klasies River Mouth in South Africa. Chicago (IL): University of Chicago Press.Google Scholar
Smith, F.H., 1985. Continuity and change in the origin of modern Homo sapiens. Zeitschrift für Morphologie und Anthropologie 75, 197222.Google Scholar
Smith, F.H., 1992. Models and realities in modern human origins: the African fossil evidence. Philosophical Transactions of the Royal Society: series B 337, 243–50.Google ScholarPubMed
Stoneking, M. & Cann, R.L., 1989. African origin of human mitochondrial DNA, in The Human Revolution, eds. P., Mellars & C., Stringer. Edinburgh: Edinburgh University Press, 1730.Google Scholar
Stoneking, M.et al., 1992. New approaches to dating suggest a recent age for the human mtDNA ancestor. Philosophical Transactions of the Royal Society: series B 337, 167–75.Google ScholarPubMed
Stringer, C.B., 1986. An archaic character in the Broken Hill innominate E. 719. American Journal of Physical Anthropology 71, 115–20.CrossRefGoogle ScholarPubMed
Stringer, C.B., 1990. The emergence of modern humans. Scientific American, December 263(6), 6874.CrossRefGoogle ScholarPubMed
Stringer, C.B., in press. Out of Africa: a personal history, in Origins of Anatomically Modern Humans, 14th Annual Spring Systematics Symposium. Chicago (IL): Field Museum of Natural History.Google Scholar
Stringer, C.B. & P., Andrews, 1988. Genetic and fossil evidence for the origin of modern humans. Science 239, 1263–8CrossRefGoogle ScholarPubMed
Stringer, C.B.et al., 1989. ESR dates for the hominid burial site of Es Skhul in Israel. Nature 338, 756–8.Google Scholar
Templeton, A.R.et al., 1992. Human origins and analysis of mitochondrial DNA sequences. Science 255, 737–9.CrossRefGoogle ScholarPubMed
Texier, J.P. et al., 1988. Nouvelles donnees sur la situation chronologique de l'Atérien du Maroc et leurs implications. Comptes Rendus de I'Académie des Sciences Paris 307 (II), 827–32.Google Scholar
Tixier, J., 1967. Precédés d'analyse et questions de terminologie conqernant l'étude des ensembles industriels du Paléolithique récent et de l'Epipaléolithique dans l'Afrique du Nord–Ouest, in Background to Evolution in Africa, eds. W.W., Bishop & J.D., Clark. Chicago (IL): Chicago University Press, 771820.Google Scholar
Valladas, H.et al., 1987. Thermoluminescence dates for the Neanderthal burial site at Kebara in Israel. Nature 330, 159–60.CrossRefGoogle Scholar
Valladas, H.et al., 1988. Thermoluminescence dating of Mousterian ‘Proto–Cro–Magnon’ remains from Israel and the origin of modern man. Nature 331, 614–16.CrossRefGoogle Scholar
Vigilant, L.et al., 1991. African populations and the evolution of human mitochondrial DNA. Science 253, 1503–7.CrossRefGoogle ScholarPubMed
Villiers, H. de, 1973. Human skeletal remains from Border Cave, Ingwavuma district, Kwazulu, South Africa. Annals of the Transvaal Museum 28, 229–56.Google Scholar
Villiers, H. de, 1976. A second adult human mandible from Border Cave, Ingwavuma district, Kwazulu, South Africa. South African Journal of Science 72, 212–15.Google Scholar
Villiers, H. de & Fatti, L.P., 1982. The antiquity of the Negro. South African Journal of Science 78,321–32.Google Scholar
Vogel, J.C. & Beaumont, P.B., 1972. Revised radiocarbon chronology for the Stone Age in South Africa. Nature 237,50–1.CrossRefGoogle Scholar
Volman, T.P., 1984. The early prehistory of southern Africa, in Southern African Prehistory and Paleoenvironments, ed. R.G., Klein. Rotterdam: A.A. Balkema, 169220.Google Scholar
Wadley, L. & Harper, P., 1989. Rose Cottage Cave revisited: Malan's Middle Stone Age collection. South African Archaeological Bulletin 44, 2332.Google Scholar
Wendorf, F. & Schild, R., 1974. A Middle Stone Age Sequence from the Central Rift Valley, Ethiopia. Warsaw: PAN IHKM.Google Scholar
Wendorf, F.et al., 1975. Dates for the Middle Stone Age of East Africa. Science 187, 740–2.CrossRefGoogle ScholarPubMed
Wendorf, F.et al., 1976. The prehistory of the Egyptian Sahara. Science 193, 103–14.CrossRefGoogle ScholarPubMed
Wendorf, F.et al., 1990. Le dernier interglaciaire dans le Sahara oriental. L'Anthropologies, 361–91.Google Scholar
Wendt, W.E., 1976. ‘Art mobilier’ from the Apollo 11 cave, South West Africa: Africa's oldest dated works of art. South African Archaeological Bulletin 31, 511.Google Scholar
Wolpoff, M.H., 1989. Multiregional evolution: the fossil alternative to Eden, in The Human Revolution, eds. P., Mellars & C., Stringer. Edinburgh: Edinburgh University Press, 62108.Google Scholar
Woodward, A.S., 1921. A new cave man from Rhodesia, South Africa. Nature 108, 371–2.CrossRefGoogle Scholar