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Paleoanthropological Implications of the Nonarcheological Bone Assemblage from Swartklip I, South-Western Cape Province, South Africa

Published online by Cambridge University Press:  20 January 2017

Richard G. Klein
Richard G. Klein*
Affiliation:
Department of Anthropology, University of Chicago, 1126 E. 59th St., Chicago, Illinois 60637 USA
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Abstract

The relative frequencies of different skeletal elements within the bone assemblage recovered from a late Pleistocene fissure fill at Swartklip (South-Western Cape Province, South Africa) are shown to resemble those in the assemblage from the Transvaal australopithecine site of Makapansgat. Since there is evidence that carnivores, probably hyenas, accumulated the bones at Swartklip, it follows that carnivores, rather than hominids, may have accumulated the bones at Makapansgat.

Type
Research Article
Information
Quaternary Research , Volume 5 , Issue 2 , June 1975 , pp. 275 - 288
Copyright
University of Washington

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References

Brain, C.K., (1967a). New light on old bones. South African Museums Association Bulletin 9, 22 27.Google Scholar
Brain, C.K., (1967b). Hottentot food remains and their bearing on the interpretation of fossil bone assemblages. Scientific Papers of the Namib Desert Research Station 32, 1 11.Google Scholar
Brain, C.K., (1968). Who killed the Swartkrans ape-men?. South African Museums Association Bulletin 9, 127 139.Google Scholar
Brain, C.K., (1969a). The probable role of leopards as predators of the Swartkrans australopithecines. South African Archaeological Bulletin 24, 170 171.Google Scholar
Brain, C.K., (1969b). The contribution of Namib Desert Hottentots to an understanding of australopithecine bone accumulations. Scientific Papers of the Namib Desert Research Station 39, 13 22.Google Scholar
Brain, C.K., (1970). New finds at the Swartkrans australopithecine site. Nature (London) 225, 1112 1119.Google Scholar
Dart, R.A., (1956). The myth of the boneaccumulating hyena. American Anthropologist 58, 40 62.Google Scholar
Dart, R.A., (1957a). The osteodontokeratic culture of Australopithecus prometheus. Transvaal Museum Memoir 10, 1 105.Google Scholar
Dart, R.A., (1957b). The Makapansgat australopithecine osteodontokeratic culture. Clark, J.D., Proceedings of the Third Pan-African Congress of Prehistory Chatto and Windhus, London 161 171.Google Scholar
Hendey, Q.B., (1974). The Late Cenozoic Carnivora of the South-Western Cape Province. Annals of the South African Museum 63, 1 369.Google Scholar
Hendey, Q.B., Hendey, H., (1968). New Quaternary fossil sites near Swartklip, Cape Province. Annals of the South African Museum 52, 43 73.Google Scholar
Hendey, Q.B., Singer, R., (1965). The faunal assemblages from the Gamtoos Valley Shelters. South African Archaeological Bulletin 20, 206 213.Google Scholar
Hughes, A.R., (1954). Hyaenas versus australopithecines as agents of bone accumulation. American Journal of Physical Anthropology 12, 467 486.Google Scholar
Hughes, A.R., (1958). Some ancient and recent observations on hyenas. Koedoe 1, 105 114.Google Scholar
Klein, R.G., (1972). The late Quaternary mammalian fauna of Nelson Bay Cave (Cape Province, South Africa): its implications for megafaunal extinctions and environmental and cultural change. Quaternary Research 2, 135 142.CrossRefGoogle Scholar
Klein, R.G., (1974). Environment and subsistence of prehistoric man in the southern Cape Province, South Africa. World Archaeology 5, 249 284.CrossRefGoogle ScholarPubMed
Kruuk, H., (1972). The Spotted Hyena. University of Chicago Press, Chicago.Google Scholar
Leakey, M.D., (1971). Olduvai Gorge: Excavations in Beds I and II, 1960–1963. Cambridge University Press, New York and Cambridge.Google Scholar
Mills, G., (1973). The Brown Hyaena. African Wildlife 27, 150 153.Google Scholar
Penzhorn, B.L., (1974). Sex and age composition and dimensions of the springbok (Antidorcas marsupialis) population in the Mountain Zebra National Park. Journal of the Southern African Wildlife Management Association 4, 63 65.Google Scholar
Pienaar, U.de V., (1969). Predator-prey relationships amongst the larger mammals of the Kruger National Park. Koedoe 12, 108 176.CrossRefGoogle Scholar
Simons, J.W., (1966). The presence of leopard and a study of the food debris in the leopard lairs of the Mount Suswa Caves, Kenya. Bulletin of the Cave Exploration Group of East Africa 1, .Google Scholar
Singer, R., Fuller, A.O., (1962). The geology and description of a fossiliferous deposit near Zwartklip in False Bay. Transactions of the Royal Society of South Africa 34, 205 211.Google Scholar
Sutcliffe, A.J., (1970). Spotted-hyaena: crusher, gnawer, digester and collector of bones. Nature (London) 227, 1110 1113.Google Scholar
Tankard, A.J., Schweitzer, F.R., (1974). The geology of Die Kelders Cave and environs: a palaeoenvironmental study. South African Journal of Science 70, 360 369.Google Scholar
Tankard, A. J., Schweitzer, F. R., (in press). Textural analysis of cave sediments: Die Kelders, Cape Province, South Africa. In “Geoarchaeology: Earth Science and the Past.”. (Davidson, D. A., Shackley, M. L., , Eds.). Duckworth, London.Google Scholar
Wells, L.H., Cooke, H.B.S., (1956). Fossil Bovidae from the Limeworks Quarry, Makapansgat, Potgietersrus. Palaeontologica Africana 4, 1 55.Google Scholar