Skip to main content Accessibility help
×
Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-28T04:11:11.086Z Has data issue: false hasContentIssue false

2 - Origins and evolution of African Hominidae

Published online by Cambridge University Press:  28 March 2008

F. Clark Howell
Affiliation:
University of California, Berkeley
Get access

Summary

INTRODUCTION

The African continent still preserves, in its equatorial reaches, mankind's closest living relatives, the chimpanzee (Pan) and gorilla (Gorilla) of the family Pongidae. In favourable parts of the continent there is a substantial fossil record for portions of the past 65 million years of geologic time, the Cenozoic Era. A diversity of primates are documented in the first (Palaeogene) part of that era, but in Africa only towards its end in the Oligocene Epoch. Though primitive still, some species are assigned to the Hominoidea, the primate superfamily which includes Hominidae and Pongidae, living and extinct. Early in the subsequent (Neogene) part of that era, the Miocene affords an abundance of primitive pongids, and in its mid to later parts there is even some suggestive evidence of more hominid-like creatures. Strangely, the fossil record of the African apes is thereafter essentially unknown.

This chapter attempts to set out in a general way the primary evidence for the evolution of Hominidae in Africa since the upper Miocene. The distribution of fossil localities yielding Cenozoic Hominidae on the continent is shown in the map at fig. 2.1. The temporal distributions of the most important fossil hominid occurrences are shown schematically in figs. 2.2 to 2.5. Their relationships are shown, also schematically, in the cladogram at fig. 2.13. The principal taxa of Hominidae most commonly recognized are duly considered but morphological details are generally avoided; the principal known features of each taxon are set out at length elsewhere (Howell 1978).

Type
Chapter
Information
Publisher: Cambridge University Press
Print publication year: 1982

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abel, W. (1931). Kritische Untersuchungen über Australopithecus africanus Dart. Morph. Jb. 65, 539–640.Google Scholar
Adloff, P. (1931). Uber die Ursprung des Menschen im Lichte der Gebissforschung. Schr. konigsb. gelehrt. Ges. nathrw. Kl. 8, 299–312.Google Scholar
Adloff, P. (1932). Das Gebiss von Australopithecus africanus Dart. Einige ergänzende Bemerkungen zum Eckzahn problem. Z. Anat. EntwGesch. 97, 145–56.Google Scholar
Andrews, P. and Couvering, J. A. H. (1975). Palaeoenvironments in the East African Miocene. In Szalay, F. S. (ed.), Approaches to primate palaeobiology, 5. Basel.Google Scholar
Anthony, J. (1966). Premières observations sur le moulage endocranien des hommes fossiles du Jebel Irhoud (Maroc). C.r. hebd. Séanc. Acad. Sci., Paris 262–D, 556–8.Google Scholar
Arambourg, C. (1962). Les faunes mammalogiques du Pléistocène circum mediterranéen. Quaternaria 6, 97–110.Google Scholar
Arambourg, C. (1963). Le gisement de Ternifine: l'Atlanthropus de Ternifine. Archs Inst. Paléont. hum. 32, 37–190.Google Scholar
Arambourg, C. and Biberson, P. (1955). Découverte de vestiges humains dans la carrière de Sidi Abderrahman, près de Casablanca. C.r. hebd. Séanc. Acad. Sci., Paris 240–D, 1661–3.Google Scholar
Arambourg, C. and Biberson, P. (1956). The fossil human remains from the Paleolithic site of Sidi Abderrahman (Morocco). Am. J. phys. Anthrop. 14, 467–90.Google Scholar
Arkell, A. J., Bate, D. M. A., Wells, L. H. and Lacaille, A. D. (1951). The Pleistocene Fauna of Two Blue Nile Sites. Fossil Mammals Afr. 2. Br. Mus. Nat. Hist., London.Google Scholar
Aronson, J. A., Schmitt, T. J., Walter, R. C., Taieb, M., Tiercelin, J.-J., Johanson, D. C., Naeser, C. W. and Nairn, A. E. M. (1977). New geochronologic and palaeomagnetic data for the hominid-bearing Hadar Formation of Ethiopia. Nature, Lond. 267, 323–7.Google Scholar
Bada, J. L. and Deems, L. (1975). Accuracy of dates beyond the 14C dating limit using the aspartic acid racemisation reaction. Nature, Lond. 255, 218–19.Google Scholar
Bada, J. L. and Protsch, R. (1973). Racemisation reaction of aspartic acid and its use in dating fossil bones. Proc. nat. Acad. Sci. U.S.A. 70, 1331–4.Google Scholar
Bada, J. L., Protsch, R. and Schroeder, R. A. (1973). The racemisation reaction of isoleucine used as a paleo-temperature indicator. Nature, Lond. 241, 394–5.Google Scholar
Bada, J. L., Schroeder, R. A., Protsch, R. and Berger, R. (1974). Concordance of collagen based radiocarbon and aspartic-acid racemization ages. Proc. nat. Acad. Sci. U.S.A. 71, 914–17.Google Scholar
Bakker, E. M. Zinderen and Butzer, K. W. (1973). Quaternary environmental changes in southern Africa. Soil Sci. 116, 236–48.Google Scholar
Balout, L. (1965a). Données nouvelles sur le problème du Moustérien en Afrique du Nord. In Actas del V Congreso Panafricano de Prehistoria y de Estudio del Cuaternario (Santa Cruz de Ternerife), vol. 1, 137–43.Google Scholar
Balout, L. (1956b). Le Moustérien du Maghreb. Quaternaria 7, 43–58.Google Scholar
Balout, L. (1970). L'industrie néandertalienne du Djebel Irhoud (Maroc). Fundamenta A(2) (A. Rust Festschrift), 1970, 57–60.Google Scholar
Balout, L., Biberson, P. and Tixier, J. (1967). L'Acheuléen de Ternifine (Algérie). Gisement de l'Atlanthrope. Anthropologie, Paris 71, 217–37.Google Scholar
Beaumont, P. B. (1973). Border Cave — a progress report. S. Afr. J. Sci. 69, 41–6.Google Scholar
Beaumont, P. B. and Boshier, A. K. (1972). Some comments on recent findings at Border Cave, northern Natal. S. Afr. J. Sci. 68, 22–4.Google Scholar
Beaumont, P. B. and Vogel, J. C. (1972). On a new radiocarbon chronology for Africa south of the Equator. Afr. Stud. 31, 155–82.Google Scholar
Behrensmeyer, A. K. (1976a). Lothagam Hill, Kanapoi, and Ekora: a general summary of stratigraphy and faunas. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 163–70. Chicago.Google Scholar
Behrensmeyer, A. K. (1976b). Fossil assemblages in relation to sedimentary environments in the East Rudolf succession. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 383–401. Chicago.Google Scholar
Bennejeant, C. (1936). La dentition de l'Australopithecus africanus (Dart). Mammalia I, 8–14.Google Scholar
Bennejeant, C. (1953). Les dentures temporaires des Primates. Bull. Mém. Soc. Anthrop. Paris 4, series 10, 11–44.Google Scholar
Berggren, W. A. (1969). Cenozoic chronostratigraphy, planktonic foramineral zonation and the radiometric time-scale. Nature, Lond. 224, 1072–5.Google Scholar
Berggren, W. A. (1971). Tertiary boundaries. In Funnell, B. F. and Riedel, W. R. (eds.), Micropalaeontology of oceans, 693–809. Cambridge.Google Scholar
Berggren, W. A. (1972). A Cenozoic time-scale — some implications for regional geology and paleobiology. Lethaia 5, 195–215.Google Scholar
Berggren, W. A. (1973). The Pliocene time-scale: calibration of planktonic foraminiferal and calcareous non-plankton zones. Nature, Lond. 243, 391–7.Google Scholar
Berggren, W. A. and Couvering, J. A. (1974). The late Neogene. Biostratigraphy, geochronology and paleoclimatology of the last 15 million years in marine and continental sequences. Palaeogeogr. Palaeoclimatol. Palaeoecol. 16, 1–216.Google Scholar
Biberson, P. (1956). Le gisement de l'Atlanthrope de Sidi Abderrahman (Casablanca). Bull. Archéol. maroc. 1, 39–91.Google Scholar
Biberson, P. (1961). Le cadre paléogéographique de la préhistoire du Maroc atlantique. Publs Serv. antiquités Maroc 16.Google Scholar
Biberson, P. (1963). Quelques précisions sur les classifications du Quaternaire marocain. Bull. Soc. géol. Fr. 7:5, 607–16.Google Scholar
Biberson, P. (1964). La place des hommes du Paléolithique marocain dans la chronologie du Pléistocène atlantique. Anthropologie, Paris 68, 475–526.Google Scholar
Biberson, P. (1971). Essai de redefinition des cycles climatiques du Quaternaire continental du Maroc. Bull. Ass. fr. Hétude Quatern. 1:26, 3–13.Google Scholar
Bilsborough, A. (1972). Anagenesis in hominid evolution. Man 7, 481–3.Google Scholar
Bilsborough, A. (1973). A multivariate study of evolutionary change in the hominid cranial vault with some evolution rates. J. hum. Evol. 2, 387–403.Google Scholar
Bishop, W. W. (1967). The later Tertiary in East Africa. In Bishop, W. W. and Clark, J. D. (eds.), Background to Evolution in Africa, 31–56. Chicago.Google Scholar
Bishop, W. W. (1971). The late Cenozoic history of East Africa in relation to hominoid evolution. In Turekian, K. K. (ed.), Late Cenozoic glacial ages, 493–527. New Haven.Google Scholar
Bishop, W. W. (1972). Stratigraphic succession ‘versus’ calibration in East Africa. In Bishop, W. W. and Miller, J. A. (eds.), Calibration of hominoid evolution, 219–46. Edinburgh and Toronto.Google Scholar
Bishop, W. W. (1973). The tempo of human evolution. Nature, Lond. 244, 405–9.Google Scholar
Bishop, W. W. and Chapman, G. R. (1970). Early Pliocene sediments and fossils from the northern Kenya Rift valley. Nature, Lond. 226, 914–18.Google Scholar
Bishop, W. W., Chapman, G. R., Hill, A. and Miller, J. A. (1971). Succession of Cainozoic vertebrate assemblages from the northern Kenya Rift Valley. Nature, Lond. 233, 389–94.Google Scholar
Bishop, W. W., Pickford, M. and Hill, A. (1975). New evidence regarding the Quaternary geology, archaeology and hominids of Chesowanja, Kenya. Nature, Lond. 258, 204–8.Google Scholar
Bishop, W. W. and Miller, J. A. (eds.) (1972). Calibration of hominoid evolution. Edinburgh and Toronto.
Bishop, W. W. and Pickford, M. H. (1975). Geology, fauna and palaeo-environments of the Ngorora Formation, Kenya Rift Valley. Nature, Lond. 254, 185–92.Google Scholar
Black, D. (1931). On an adolescent skull of Sinanthropus pekinensis in comparison with an adult skull of the same species and with other hominid skulls, recent and fossil. Palaeont. sin. series D, 7:2, 1–144.Google Scholar
Black, D., Chardin, T., Young, C. C. and Pei, W. C. (1933). Fossil man in China. The Choukoutien cave deposits with a synopsis of our present knowledge of the late Cenozoic of China. Mem. geol. Surv. China series A. 11, 1–158.Google Scholar
Boaz, N. T. and Howell, F. C. (1977). A gracile hominid cranium from upper Member G of the Shungura Formation, Ethiopia. Am. J. phys. anthrop. 46, 93–108.Google Scholar
Boswell, P. G. H. (1935). Human remains from Kanam and Kanjera, Kenya Colony. Nature, Lond. 135, 71.Google Scholar
Brace, C. L. (1967). The stages of human evolution. Englewood Cliffs, New Jersey.
Brace, C. L. (1973). Sexual dimorphism in human evolution. Yearb. phys. Anthrop. 16, 50–68.Google Scholar
Brain, C. K. (1958). The Transvaal ape-man-bearing cave deposits. Transv. Mus. Mem. 11.Google Scholar
Brain, C. K. (1968). Who killed the Swartkrans ape-men? S. Afr. Mus. Assoc. Bull. 9, 127–39.Google Scholar
Brain, C. K. (1970). New finds at the Swartkrans australopithecine site. Nature, Lond. 225, 1112–19.
Brain, C. K. (1973). The significance of Swartkrans. J. S. Afr. biol. Soc. 13, 7–23.Google Scholar
Brain, C. K. (1975). An interpretation of the bone assemblage from the Kromdraai australopithecine site, South Africa. In Tuttle, R. H. (ed.), Paleoanthropology, morphology and paleoecology. The Hague.Google Scholar
Brain, C. K. (1976). A re-interpretation of the Swartkrans site and its remains. S. Afr. J. Sci. 72, 141–6.Google Scholar
Brain, C. K. (1978). Some aspects of the South African australopithecine sites and their bone accumulations. In Jolly, C. J. (ed.), Early hominids of Africa, 131–64. London.Google Scholar
Brock, A. and Hay, R. L. (1976). The Olduvai Event at Olduvai Gorge. Earth Planet. Sci. Lett. 29, 126–30.Google Scholar
Brock, A. and Isaac, G. Ll. (1974). Palaeomagnetic stratigraphy and chronology of hominid-bearing sediments east of Lake Rudolf, Kenya. Nature, Lond. 247, 344–8.Google Scholar
Broom, R. (1925a). Some notes on the Taung skull. Nature, Lond. 115, 569–71.Google Scholar
Broom, R. (1925b). On the newly discovered South African man-ape. Nat. Hist., N. Y. 25, 409–18.Google Scholar
Broom, R. (1929a). Note on the milk dentition of Australopithecus. Proc. zool. Soc. Lond. 1928, 85–8.Google Scholar
Broom, R. (1929b). The Transvaal fossil human skeleton. Nature, Lond. 123, 415–16.Google Scholar
Broom, R. (1938). The Pleistocene anthropoid apes of South Africa. Nature, Lond. 142, 377–9.Google Scholar
Broom, R. (1941). The milk molars of man and anthropoids. S. Afr. dent. J. 15, 314–16.Google Scholar
Broom, R. (1947). The upper milk molars of the ape-man, Plesianthropus. Nature, Lond. 159, 602.Google Scholar
Broom, R. (1950). The genera and species of the South African fossil ape-men. Am. J. phys. Anthrop. 8, 1–13.Google Scholar
Broom, R. and Robinson, J. T. (1949). A new type of fossil man. Nature, Lond. 164, 322–3.Google Scholar
Broom, R. and Robinson, J. T. (1950). Man contemporaneous with the Swartkrans ape-man. Am. J. phys. Anthrop. 8, 489–94.Google Scholar
Broom, R., Robinson, J. T. and Schepers, G. W. H. (1950). Sterkfontein ape-men Plesianthropus. Transv. Mus. Mem. 4.Google Scholar
Broom, R. and Schepers, G. W. H. (1946). The South African fossil ape-men, the Australopithecinae. Transv. Mus. Mem. 2.Google Scholar
Brothwell, D. R. (1963). Evidence of early population change in central and southern Africa: doubts and problems. Man 63, 101–4.Google Scholar
Brown, F. H., Howell, F. C. and Eck, G. G. (1978). Observations on problems of correlation of late Cenozoic hominid-bearing formations in the north Rudolf basin. In Bishop, W. W. (ed.), Geological background to fossil man. Edinburgh and Toronto.Google Scholar
Brown, F. H. (1972). Radiometric during of sedimentary formations in the lower Omo valley, Ethiopia. In Bishop, W. W. and Miller, J. A. (eds.), Calibration of hominoid evolution, 273–87. Edinburgh and Toronto.Google Scholar
Brown, F. H. and Nash, W. P. (1976). Radiometric dating and tuff mineralogy of Omo Group deposits. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 50–63. Chicago.Google Scholar
Brown, F. H. and Shuey, R. T. (1976). Magnetostratigraphy of the Shungura and Usno Formations, lower Omo valley, Ethiopia. In Coppens, Y., et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 64–78. Chicago.Google Scholar
Brown, F. H., Shuey, R. T. and Croes, M. K. (1978). Magnetostratigraphy of the Shungura and Usno Formations, southwestern Ethiopia: new data and comprehensive reanalysis. Geophysical J. Royal Astron. Soc., Lond. 54, 519–38.Google Scholar
Brown, F. H., Howell, F. C. and Eck, G. G. (1978). Observations on problems of correlation of late Cenozoic hominid-bearing formations in the north Rudolf basin. In Bishop, W. W. (ed.), Geological background to fossil man, 473–98. Edinburgh and Toronto.Google Scholar
Butzer, K. W. (1974a). Geological and ecological perspectives on the Middle Pleistocene. Quaternary Res. 4.Google Scholar
Butzer, K. W. (1974a). Geo-archaeological interpretation of two Acheulian calc-pan sites: Doornlaagte and Rooidam (Kimberley, South Africa). J. archaeol. Sci. I.Google Scholar
Butzer, K. W. (1973). Re-evaluation of the geology of the Elandsfontein (Hopefield) site, south-western Cape, South Africa. S. Afr. J. Sci. 69, 234–8.Google Scholar
Butzer, K. W. (1974a). Geological and ecological perspectives on the Middle Pleistocene. Quaternary Res. 4, 136–48.Google Scholar
Butzer, K. W. (1974b). Paleoecology of South African australopithecines: Taung revisited. Curr. anthrop. 15, 367–82 and 413–16.Google Scholar
Butzer, K. W. (1976). Lithostratigraphy of the Swartkrans formation. S. Afr. J. Sci. 72, 136–41.Google Scholar
Butzer, K. W. (1978). Geo-ecological perspectives on early hominid evolution. In Jolly, C. J. (ed.), Early hominids of Africa, 191–218. London.Google Scholar
Butzer, K. W. and Helgren, D. M. (1972). Late Cenozoic evolution of the Cape coast between Knysna and Cape St. Francis, South Africa. Quaternary Res. 2, 143–69.Google Scholar
Butzer, K. W. and Thurber, D. L. (1969). Some late Cenozoic sedimentary formations of the lower Omo basin. Nature, Lond. 222, 1132–7.Google Scholar
Butzer, K. W., Clark, J. D. and Cooke, H. B. S. (1974). The geology, archaeology and fossil mammals of the Cornelia Beds, O.F.S. Mem. Nat. Mus. Bloemfontein 9.Google Scholar
Butzer, K. W., Helgren, D. M., Fock, G. J. and Stuckenrath, R. (1973). Alluvial terraces of the lower Vaal river, South Africa: a reappraisal and reinvestigation. J. Geol. 81, 341–62.Google Scholar
Butzer, K. W., Helgren, D. M., Fock, G. J. and Stuckenrath, R. (1974). Alluvial terraces of the lower Vaal river, South Africa: a reappraisal and reinvestigation. J. Geol. 82, 663–7.Google Scholar
Butzer, K. W., Isaac, G. Ll., Richardson, J. L. and Washbourn-Kamau, C. (1972). Radiocarbon dating of the East African lake levels. Science, N. Y. 175, 1069–76.Google Scholar
Campbell, B. G. (1963). Quantitative taxonomy and human evolution. In Washburn, S. L. (ed.), Classification and human evolution, 50–74. Chicago.Google Scholar
Campbell, B. G. (1965). The nomenclature of the Hominidae, including a definitive list of hominid taxa. Occ. Pap. R. Anthrop. Inst. 22.Google Scholar
Campbell, B. G. (1972). Man for all seasons. In Campbell, B. G. (ed.), Sexual selection and the descent of man, 1871–1971, 40–58. Chicago.Google Scholar
Campbell, B. G. (1973). New concepts in physical anthropology: fossil man. Ann. Rev. Anthrop. 1, 27–54.Google Scholar
Campbell, B. G. (1974). A new taxonomy of fossil man. Yearb. phys. Anthrop. 17, 195–201.Google Scholar
Campbell, B. G. (1978). Some problems in hominid classification and nomenclature. In Jolly, C. J. (ed.), Early hominids of Africa, 567–82. London.Google Scholar
Camps, G. (1968). Tableau chronologique de la préhistoire récente du Nord de l'Afrique: première synthèse des datations absolues obtenues par le carbone 14. Bull. Soc. préhist. fr. 75, 609–22.Google Scholar
Camps, G. (1974). Nouvelles remarques sur l'âge de l'Atérien. Bull. Soc. préhist. fr. 71, 163–4.Google Scholar
Carney, J., Hill, A., Miller, J. A. and Walker, A. (1971). Late australopithecine from Baringo district, Kenya. Nature, Lond. 230, 509–14.
Cerling, T. E., Brown, F. H., Cerling, B. W., Curtis, G. H. and Drake, R. E. (1979). Preliminary correlations between the Koobi Fora and Shungura Formations, East Africa. Nature, Lond. 279, 118–21.Google Scholar
Chavaillon, J. (1973). Chronologie des niveaux paléolithiques de Melka-Kontouré. C.r. hebd. Séanc. Acad. Sci., Paris 276–D, 1533–6.Google Scholar
Chavaillon, J. (1976). Evidence for the technical practices of early Pleistocene hominids, Shungura Formation, lower Omo valley, Ethiopia. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 563–73. Chicago.Google Scholar
Chavaillon, J., Brahimi, C. and Coppens, Y. (1974). Première découverte d'hominidé dans l'un des sites Acheuléens de Melka-Kontouré (Éthiopie). C.r. hebd. Séanc. Acad. Sci., Paris, 278–D, 3299–3302.Google Scholar
Choubert, G. and Marçais, J. (1947). Le Quaternaire des environs de Rabat et l'âge de l'homme de Rabat. C.r. hebd. séanc. Acad. Sci., Paris 224, 1645–7.Google Scholar
Ciochon, R. L. and Corruccini, R. S. (1976). Shoulder joint of Sterkfontein Australopithecus. S. Afr. J. Sci. 72, 80–2.Google Scholar
Clark, J. D. (1969). Further excavations at Broken Hill, Northern Rhodesia. Jl R. Anthrop. Inst. 89, 201–32.Google Scholar
Clark, J. D. (1967). Atlas of African prehistory. Chicago.
Clark, J. D., Oakley, K. P., Wells, L. H. and McClelland, J. A. C. (1950). New studies on Rhodesian Man. Jl. R. Anthrop. Inst. 77, 7–32.Google Scholar
Clarke, R. J. (1976). New cranium of Homo erectus from Lake Ndutu, Tanzania. Nature, Lond. 262, 485–7.Google Scholar
Clarke, R. J. (1977). A Juvenile cranium and some adult teeth of early Homo from Swartkrans, Transvaal. S. Afr. J. Sci. 73, 46–9.Google Scholar
Clarke, R. J. (1979). Early hominid footprints from Tanzania. S. Afr. J. Sci. 75, 148–9.Google Scholar
Clarke, R. J. and Howell, F. C. (1972). Affinities of the Swartkrans 847 cranium. Am. J. phys. Anthrop. 37, 319–36.Google Scholar
Clarke, R. J., Howell, F. C. and Brain, C. K. (1970). More evidence of an advanced hominid at Swartkrans. Nature, Lond. 225, 1219–22.Google Scholar
Conroy, G. C., Jolly, C. J., Kramer, D. and Kalb, J. E. (1978). Newly discovered fossil hominid skull from the Afar depression, Ethiopia, Nature, Lond. 275, 67–70.Google Scholar
Cooke, H. B. S. (1963). Pleistocene mammal faunas of Africa, with particular reference to southern Africa. In Howell, F. C. and Bourlière, F. (eds.), African ecology and human evolution, 65–116. Chicago.Google Scholar
Cooke, H. B. S. (1967). The Pleistocene sequence in South Africa and problems of correlation. In Bishop, W. W. and Clark, J. D. (eds.), Background to evolution in Africa, 175–84. Chicago.Google Scholar
Cooke, H. B. S. and Maglio, V. J. (1972). Plio-Pleistocene stratigraphy in East Africa in relation to proboscidean and suid evolution. In Bishop, W. W. and Miller, J. A. (eds.), Calibration of hominoid evolution, 303–30. Edinburgh and Toronto.Google Scholar
Cooke, H. B. S., Malan, B. D. and Wells, L. H. (1945). Fossil man in the Lebombo mountains, South Africa: the ‘Border Cave’, Ingwavuma district, Zululand. Man 3, 6–13.Google Scholar
Coon, C. S. (1962). The origin of races. New York.
Coppens, Y. (1961). Décoverte d'un australopithecine dans le Villafranchian du Tchad. C.r. hebd. Séanc. Acad. Sci., Paris 252–D, 3851–2.Google Scholar
Coppens, Y. (1962). Découverte d'un australopithecine dans le Villafranchian du Tchad. Colloques. Centre Nationale de la Recherche Scientifique (Paris) 104, 455–9.Google Scholar
Coppens, Y. (1965). L'hominien du Tchad. C.r. hebd. Séanc. Acad. Sci., Paris 260–D, 2869–71.Google Scholar
Coppens, Y. (1966). Le Tchadanthropus. Anthropologie, Paris 70, 5–16.Google Scholar
Coppens, Y. (1978). Les hominidés du Pliocène et du Pléistocène d'Ethiopie: chronologie, systématique, environnement. In Les origines humanies et les époques de l'intelligence, Fondation Singer-Polignac, 79–102. Paris.Google Scholar
Corruccini, R. S. and Ciochon, R. L. (1979). Primate facial allometry and interpretations of australopithecine variation. Nature, Lond. 281, 62–4.Google Scholar
Curtis, G. H., Drake, R., Cerling, T. E. and Hampel, J. H. (1975). Age of the KBS tuff in the Koobi Fora Formation, East Rudolf, Kenya. Nature, Lond. 258.Google Scholar
Curtis, G. H., Drake, R., Ceding, T. E. and Hampel, J. H. (1975). Age of the KBS tuff in the Koobi Fora Formation, East Rudolf, Kenya. Nature, Lond. 258, 395–8.Google Scholar
Curtis, G. H. and Hay, R. L. (1972). Further geological studies and potassium-argon dating at Olduvai Gorge and Ngorongoro Crater. In Bishop, W. W. and Miller, J. A. (eds.), Calibration of hominoid evolution, 289–301. Edinburgh and Toronto.Google Scholar
Dahlberg, A. A. (1960). The Olduvai giant hominid tooth. Nature, Lond. 188, 962.Google Scholar
Dart, R. A. (1940b). Recent discoveries bearing on human history in southern Africa. Jl R. Anthrop. Inst. 70.Google Scholar
Dart, R. A. (1925). Australopithecus africanus: the man-ape of South Africa. Nature, Lond. 115, 195–9.Google Scholar
Dart, R. A. (1929). A note on the Taungs skull. S. Afr. J. Sci. 26, 648–58.Google Scholar
Dart, R. A. (1930–1). I caratteri dell' Australopithecus africanus. Archo Antrop. Etnol. 60–1, 287–95.Google Scholar
Dart, R. A. (1934). The dentition of Australopithecus africanus. Folia anat. jap. 12, 207–21.Google Scholar
Dart, R. A. (1940a). The status of Australopithecus. Am. J. phys. Anthrop. 36, 167–86.Google Scholar
Dart, R. A. (1940b). Recent discoveries bearing on human history in southern Africa. Jl R. Anthrop. Inst. 70, 13–27.Google Scholar
Dart, R. A. (1948). The infancy of Australopithecus. In Toil, A. L. du (ed.), Robert Broom Commemorative Volume, 143–52. Roy. Soc. of S. Afr., Cape Town.Google Scholar
Dart, R. A. (1956). Cultural status of the South African man-apes. Smithsonian Annual Report 1956, 317–38.Google Scholar
Dart, R. A. (1957a). The Makapansgat australopithecine osteodontokeratic culture. In Proceedings of the Third Pan-African Congress on Prehistory (Livingstone 1955), 161–71. London.Google Scholar
Dart, R. A. (1957b). The osteodontokeratic culture of Australopithecus prometheus. Transv. Mus. Mem. 10.Google Scholar
Davis, P. R. (1964). Hominid fossils from Bed I, Olduvai Gorge, Tanganyika. Nature, Lond. 201, 967–8.Google Scholar
Day, M. H. (1969). Femoral fragment of a robust australopithecine from Olduvai Gorge, Tanzania. Nature, Lond. 221, 230–3.Google Scholar
Day, M. H. (1971). The Omo human skeletal remains. In Bordes, F. (ed.), The origin of Homo sapiens, 31–5, UNESCO, Paris.Google Scholar
Day, M. H. (1973a). Locomotor features of the lower limb in hominids. Sym. zool. Soc. Lond. 33, 29–51.Google Scholar
Day, M. H. (1973b). The development of Homo sapiens. Accad. naz. dei Lincei, Rome 370, 87–95.Google Scholar
Day, M. H. (1976a). Hominid postcranial remains from the East Rudolf succession – a review. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin. 507–21. Chicago.Google Scholar
Day, M. H. (1976b). Hominid postcranial material from Bed I, Olduvai Gorge. In 987 Issac, G. Ll. and McCown, E. R. (eds.), Human origins: L. S. B. Leakey and the East African evidence, 362–74. Menlo Park, CA.Google Scholar
Day, M. H., Leakey, M. D., Olson, T. R., Leakey, R. E. F., Walker, A., McHenry, H. M., Corruccini, R. S., Johanson, D. C. and White, T. D. (1980). On the status of Australopithecus afarensis. Science 207, 1102–5.
Day, M. H. and Molleson, T. I. (1973). The Trinil femora. Symp. Soc. Study hum. Biol, 11, 127–54.Google Scholar
Day, M. H. and Wood, B. A. (1968). Functional affinities of the Olduvai hominid 8 talus. Man 3, 440–5.Google Scholar
Débenath, A. (1972). Nouvelles fouilles à Dar es Soltane (Champ de tir d'El Menzeh) près de Rabat (Maroc). Note préliminaire. Bull. Soc. préhist. fr. 69, 178–9.Google Scholar
Débenath, A. (1975). Découverte de rests humains probablement atériens à Dar es Soltane (Maroc). C.r. hebd. Séanc. Acad. Sci., Paris 281–D, 875–6.Google Scholar
Dietrich, W. O. (1939). Zur Stratigraphie der Africanthropus fauna. Zentbl. Miner. Geol. Paläont. B, 1–9.Google Scholar
Dietrich, W. O. (1942). Ältestquartäre Säugetiere aus der südlichen Serengeti, Deutsch-Ostafrika. Palaeontographica 94, 43–133.Google Scholar
Dietrich, W. O. (1945). Nashornreste aus dem Quartär Deutsch-Ostafrika. Palaeontographica 96, 46–90.Google Scholar
Dietrich, W. O. (1950). Fossile Antilopen und Rinder Äquatorialafrikas. Palaeontographica 99, 1–62.Google Scholar
Drake, R. E., Curtis, G. H., Ceding, T. E., Ceding, B. W. and Hampel, J. H. (1980). KBS tuff dating and geochronology of tuffaceous sediments in the Koobi Fora and Shungura Formations, East Africa. Nature, Lond. 283, 368–71.Google Scholar
Drennan, M. R. (1937). The Florisbad skull and brain cast. Trans. R. Soc. S. Afr. 25, 103–14.Google Scholar
Dreyer, T. F. (1935). A human skull from Florisbad, Orange Free State, with a note on the endocranial cast by C. U. Ariens Kappers. Prof. K. ned. Akad. Wet. 38, 119–28.Google Scholar
Dreyer, T. F. (1936). The endocranial cast of the Florisbad skull – a correction. Soöl. Navors. nas. Mus. Bloemfontein. 1, 21–3.Google Scholar
Dreyer, T. F. (1938). The fissuration of the frontal endocranial cast of the Florishad skull compared with that of the Rhodesian skull. Z. Rassenk. 8, 193–8.Google Scholar
Dreyer, T. F. (1947). Further observations on the Florisbad skull. Soöl. Navors. nas. Mus. Bloemfontein 1, 183–90.Google Scholar
Dubois, E. (1891). Palaeontologische onderzoekingen op Java. Versl. Mijnw., Batavia, 1891, 3, 12–14; 4. 12–15.Google Scholar
Dubois, E. (1894). Pithecanthropus erectus. Eine menschenahnliche Ubergangsform aus Java Netherlands Government, Amsterdam. (Also in Jaarb. Mijn. Ned.-Oost-Indië (1895), 24, 5–77)Google Scholar
Dubois, E. (1926). On the principal characters of the femur of Pithecanthropus erectus. Proc. K. ned. Akad. Wet. 29, 730–43.
Dubois, E. (1934). New evidence of the distinct organization of Pithecanthropus. Proc. K. ned. Akad. Wet. 37, 139–45.
Ennouchi, E. (1962a). Un crâne d'homme ancien au Jebel Irhoud (Maroc). C.r. hebd. Séanc. Acad. Sci., Paris 254–D, 4330–2.Google Scholar
Ennouchi, E. (1962b). Un néanderthalien: l'homme du Jebel Irhoud (Maroc). Anthropologie, Paris 66, 279–99.Google Scholar
Ennouchi, E. (1963). Les néanderthaliens du Jebel Irhoud (Maroc). C.r. hebd. Séanc. Acad. Sci., Paris 256–D, 2459–60.Google Scholar
Ennouchi, E. (1966). Le site du Jebel Irhoud (Maroc). In Actas del V Congreso Panafricano de Prehistoria y de Estudio del Cuaternario vol. 11, 53–60 (Santa Cruz de Tenerife).Google Scholar
Ennouchi, E. (1968). Le deuxiéme crâne de l'homme d'lrhoud. Annls Paléont. (Vertébrés) 54, 117–28.Google Scholar
Ennouchi, E. (1969). Présence d'un enfant néanderthalien au Jebel Irhoud (Maroc). Annls Paléont. (Vertébrés) 55, 251–65.Google Scholar
Ennouchi, E. (1972). Nouvelle découverte d'un archantropien au Maroc. C.r. hebd. Séanc. Acad. Sci., Paris 274–D, 3088–90.Google Scholar
Ewer, R. F. (1956). The dating of the Australopithecinae: faunal evidence. S. Afr. archaeol. Bull, 11, 41–5.Google Scholar
Ewer, R. F. (1957). Faunal evidence on the dating of the Australopithecinae. In Proceedings of the Third Pan-African Congress on Prehistory (Livingstone, 1955), 135–42.Google Scholar
Ferembach, D. (1965). Homo erectus. Bull. Société d'Etudes et de Recherches Préhistoriques Institut Pratique de Préhistoire 14, 1–15.
Ferembach, D. (1972). L'ancêtre de l'homme du paléolithique supérieur était-il néanderthalien? In Bordes, F. (ed.), The origin of Homo sapiens, 73–80. UNESCO, Paris.Google Scholar
Ferembach, D. (1976a). Les restes humains de la grotte de Dar-es-Soltane 2 (Maroc) campagne, 1975. Bull. Mém. Soc. Anthrop. Paris series 13, 3, 183–93.Google Scholar
Ferembach, D. (1976b). Les restes humains Atériens de Témara (campagne 1975). Bull. Mém. Soc. Anthrop. Paris series 13, 3, 175–80.Google Scholar
Findlater, I. C., Fitch, F. J., Miller, J. A. and Watkins, R. T. (1974). Dating of the rock succession containing fossil hominids at East Rudolf, Kenya. Nature, Lond. 251, 213–15.Google Scholar
Fitch, F. J., Hooker, P. J. and Miller, J. A. (1976). Argon-40/argon-39 dating of the KBS tuff in Koobi Fora formation, East Rudolf, Kenya. Nature, Lond. 263, 704–4.Google Scholar
Fitch, F. J. and Miller, J. A. (1970). Radioisotopic age determinations of Lake Rudolf artefact sites. Nature, Lond. 226, 226–8.Google Scholar
Fitch, F. J. and Miller, J. A. (1976). Conventional potassium–argon and argon-40/argon-39 dating of volcanic rocks from East Rudolf. In Coppens, Y. et al, (eds.), Earliest man and environments in the Lake Rudolf basin, 123–47. Chicago.Google Scholar
Freeman, L. G. (1975a). By their works you shall know them: cultural developments in the Paleolithic. In Kurth, G. and Eibl-Ebiesfeldt, I. (eds.), Hominisation and behaviour, 234–61. Stuttgart.Google Scholar
Freeman, L. G. (1975b). Acheulian sites and stratigraphy in Iberia and the Maghreb. In Butzer, K. W. and Isaac, G. Ll. (eds.), After the australopithecines, 661–743. The Hague.Google Scholar
Funnell, B. M. (1964). The Tertiary period. In The Phanerozoic time scale: a symposium, Q. Jl Geol. Soc. Lond. 120, 179–91.Google Scholar
Galloway, A. (1937). The nature and status of the Florisbad skull as revealed by its non-metrical features, Am. J. Phys. Anthrop. 23, 1–17.Google Scholar
Gieseler, W. (1974). Die Fossilgeschichte des Menschen. In Die Evolution der Organism, 3rd edn, vol. III, 171–517. Stuttgart.Google Scholar
Gleadow, A. J. W. (1980). Fission track age of the KBS tuff and associated hominid remains in northern Kenya. Nature, Lond. 284, 225–30.Google Scholar
Gramly, R. M. and Rightmire, G. P. (1973). A fragmentary cranium and dated Later Stone Age assemblage from Lukenya Hill, Kenya. Man 8, 571–9.Google Scholar
Greene, D. L. (1975). Gorilla dental sexual dimorphism and early hominid taxonomy. Symp. IV Int. Congr. Primatol. 3, 82–100.Google Scholar
Gregory, W. K. (1930). The origin of man from a brachiating anthropoid stock. Science, N. Y. 71, 645–50.Google Scholar
Gregory, W. K. and Hellman, M. (1939a). Evidence of the australopithecine man-apes on the origin of man. Science, N. Y. 88, 615–16.Google Scholar
Gregory, W. K. and Hellman, M. (1939b). The dentition of the extinct South African man-ape Australopithecus (Plesianthropus) transvaalensis Broom. A comparative and phylogenetic study. Ann. Transv. Mus. 19, 339–73.Google Scholar
Gregory, W. K. and Hellman, M. (1939c). The South African fossil man-apes and the origin of human dentition. J. Am. dent. Ass. 26, 558–64.Google Scholar
Grommé, C. S. and Hay, R. L. (1971). Geomagnetic polarity epochs: age and duration of the Olduvai normal polarity event. Earth Planet. Sci. Lett. 10, 179–85.Google Scholar
Gutgesell, V. J. (1970). ‘Telanthropus’ and the single species hypothesis. A reexamination. Am. Anthrop. 72, 565–76.Google Scholar
Harris, J. W. K. and Bishop, W. W. (1976). Sites and assemblages from the early Pleistocene beds of Karari and Chesowanja, Kenya. IXe Congr. Union Int. Sci. Préhist. Protohist. (Nice), Colloque V, 70–117.Google Scholar
Harris, J. W. K. and Isaac, G. Ll. (1976). The Karari industry: early Pleistocene archaeological materials from the terrain east of Lake Rudolf, Kenya. Nature, Lond. 262, 102–7.Google Scholar
Hay, R. L. (1971). Geologic background of Beds I and II: stratigraphic summary. In Leakey, M. D. (ed.), Olduvai Gorge, vol. III: Excavations in Beds I and II, 1960–1963. Cambridge.Google Scholar
Hay, R. L. (1976). Geology of the Olduvai Gorge. Berkeley.
Heintz, N. (1967). Evolution de la hauteur maximale du frontal, du pariétal et de l'occipital chez les hominidés. Ann. Paléont. (Vertébrés) 53, 51–75.Google Scholar
Hendey, Q. B. (1974). Faunal dating of the late Cenozoic of southern Africa, with special reference to the Carnivora. Quaternary Res. 4, 149–61.Google Scholar
Hillhouse, J. W., Ndombi, J. W. M., Cox, A. and Brock, A. (1977). Additional results on palaeomagnetic stratigraphy of the Koobi Fora Formation, East of Lake Turkana (Lake Rudolf), Kenya. Nature, Lond. 265, 411–15.Google Scholar
Holloway, R. L. (1970). Australopithecine endocast (Taung specimen, 1924): a new volume determination. Science, N. Y. 168, 966–8.Google Scholar
Holloway, R. L. (1972). Australopithecine endocast, brain evolution in the Hominoidea, and a model of hominid evolution. In Tuttle, R. H. (ed.), The functional and evolutionary biology of primates, 185–203. Chicago.Google Scholar
Holloway, R. L. (1974). The casts of fossil hominid brains. Scient. Am. 231, 106–15.Google Scholar
Holloway, R. L. (1975). Early hominid endocasts: volumes, morphology and significance for hominid evolution. In Tuttle, R. H. (ed.), Primate functional morphology and evolution, 393–416. The Hague.Google Scholar
Horowitz, A., Siedner, G. and Bar-Yosef, O. (1973). Radiometric dating of the Ubeidiya formation, Jordan valley, Israel. Nature, Lond. 242, 186–7.Google Scholar
Howe, B. (1967). The palaeolithic of Tangier, Morocco. Excavations at Cape Ashakar, 1939–1947. Bull. Am. Sch. prehist. Res. 22.Google Scholar
Howell, F. C. (1969a). Remains of Hominidae from Pliocene/Pleistocene formations in the lower Omo basin, Ethiopia. Nature, Lond. 233, 1234–9.Google Scholar
Howell, F. C. (1969b). Hominid teeth from White Sands and Brown Sands localities, lower Omo basin, Ethiopia. Quaternaria 11, 47–54.Google Scholar
Howell, F. C. (1972). Pliocene/Pleistocene Hominidae in Eastern Africa: absolute and relative ages. In Bishop, W. W. and Miller, J. A. (eds.), Calibration of hominoid evolution, 331–68. Edinburgh and Toronto.Google Scholar
Howell, F. C. (1978). Hominidae. In Maglio, V. J. and Cooke, H. B. S. (eds.), Evolution of African mammals, 154–248. Cambridge, Mass.Google Scholar
Howell, F. C. and Coppens, Y. (1976). An overview of Hominidae from the Omo succession, Ethiopia. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 522–32. Chicago.Google Scholar
Howell, F. C., Washburn, S. L. and Ciochon, R. L. (1978). Relationship of Australopithecus and Homo J. Hum. Evolut. 7, 127–31.
Howell, F. C. and , B. A. Wood (1974). Early hominid ulna from the Omo basin, Ethiopia. Nature, Lond. 249, 174–6.Google Scholar
Howells, W. W. (1966). Homo erectus. Scient. Am. 215, 46–53.
Howells, W. W. (1973). Evolution of the genus Homo. Reading, Massachusetts.Google Scholar
Hrdlička, A. (1925). The Taungs age. Am. J. phys. Anthrop. 8, 379–92.Google Scholar
Hrdlička, A. (1930). The Rhodesian Man. Am. J. phys. Anthrop. 9, 173–204.Google Scholar
Huffman, T. N. (1971). Excavations at Leopard's Kopje main Kraal: a preliminary report. S. Afr. archaeol. Bull. 26.Google Scholar
Hughes, A. R. and Tobias, P. V. (1977). A fossil skull probably of the genus Homo from , Sterkfontein, Transvaal. Nature, Lond. 265, 310–12.Google Scholar
Hurford, A. J., Gleadow, A. J. W. and Naeser, C. W., (1976). Fission-track dating of pumice from the KBS tuff, East Rudolf, Kenya. Nature, Lond. 263, 738–40.Google Scholar
Isaac, G. LI. (1972b). Chronology and tempo of cultural change during the Pleistocene. In Bishop, W. W. and Miller, J. A. (eds.), Calibration of hominoid evolution. Edinburgh and Toronto.Google Scholar
Isaac, G. LI. (1965). The stratigraphy of the Peninj beds and the provenance of the Natron australopithecine mandible. Quaternaria 7, 101–30.Google Scholar
Isaac, G. LI. (1967). The stratigraphy of the Peninj Group – early Middle Pleistocene formations west of Lake Natron, Tanzania. In Bishop, W. W. and Clark, J. D. (eds.), Background to evolution in Africa, 229–57. Chicago.Google Scholar
Isaac, G. LI. (1971). The diet of early man: aspects of archaeological evidence from Lower and Middle Pleistocene sites in Africa. World Archaeol. 2, 278–99.Google Scholar
Isaac, G. LI. (1972a). Early phases of human behaviour: models in lower Palaeolithic archaeology. In Clarke, D. L. (ed.), Models in archaeology, 149–56. London.Google Scholar
Isaac, G. LI. (1972b). Chronology and tempo of cultural change during the Pleistocene. In Bishop, W. W. and Miller, J. A. (eds.), Calibration of hominoid evolution, 381–430. Edinburgh and Toronto.Google Scholar
Isaac, G. LI. (1976). Plio-Pleistocene artifact assemblages from East Rudolf, Kenya. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 552–64. Chicago.Google Scholar
Isaac, G. LI. (1978a). The archaeological evidence for the activities of early African hominids. Jolly, C. (ed.), Early bominids of Africa, 219–54. London.Google Scholar
Isaac, G. LI. (1978b). The food-sharing behavior of protohuman hominids. Sci. Amer. 238, 90–108.Google Scholar
Isaac, G. LI. (1978c). Food-sharing and human evolution: archaeological evidence from the Plio-Pleistocene of east Africa. J. Anthrop. Res. 34, 311–25.Google Scholar
Isaac, G. LI. and Curtis, G. H. (1974). Age of early Acheulian industries from the Peninj Group, Tanzania. Nature, Lond. 249, 624–7.Google Scholar
Isaac, G. LI., Harris, J. W. K. and Crader, D. (1976). Archaeological evidence from the Koobi Fora formation. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin 533–51. Chicago.Google Scholar
Jacob, T. (1972). The absolute date of the Djetis beds at Modjokerto. Antiquity 47, 148.Google Scholar
Jacob, T. (1973). Paleoanthropological discoveries in Indonesia with special reference to the finds of the last two decades. J. bum. Evol. 2, 473–86.Google Scholar
Jacob, T. (1975). The pithecanthropines of Indonesia. Bull. Mém. Soc. Anthrop., Paris 47, 243–56.Google Scholar
Jacob, T. and Curtis, G. H. (1971). Preliminary potassium–argon dating of early man in Java. Contrib. Univ. Calif. Archaeol. Res. Facility 12, 50.Google Scholar
Jaeger, J.-J. (1969). Les rongeurs du Pléistocène moyen de Ternifine (Algérie). C.r. hebd. Séanc. Acad. Sci., Paris 269–D, 1492–5.Google Scholar
Jaeger, J.-J. (1973). Un pithecanthrope évolué. Recherche, 39, 1006–7.Google Scholar
Jaeger, J.-J. (1975a). Découverte d'un crâne d'hominidé dans le Pléistocène moyen du Maroc. In Problèmes Actuels de Paléontologie-Evolution des Vertébrés, (Colloque International, Centre National de la Recherche Scientifique (Paris) 218), 897–902.Google Scholar
Jaeger, J.-J. (1975b). The mammalian faunas and hominid fossils of the Middle Plestocene of the Maghreb. In Butzer, K. W. and Isaac, G. LI. (eds.), After the australopithecines, 399–418. The Hague.Google Scholar
Johanson, D. C. and Taieb, M. (1976). Plio-Pleistocene hominid discoveries in Hadar, Ethiopia. Nature, Lond. 260, 293–7.Google Scholar
Johanson, D. C. and White, T. D. (1979). A systematic assessment of early African hominids. Science, N.Y. 203, 321–30.Google Scholar
Johanson, D. C., White, T. D. and Coppens, Y., (1978). A new species of the genus Australopithecus (Primates: Hominidae) from the Pliocene of Eastern Africa. Kirklandia 28, 1–14.Google Scholar
Johanson, D. C., Taieb, M., Coppens, Y. and Roche, H. (1978). Expédition internationale deI'Afar, Ethiopie (4e et 5e campagnes, 1975–1977): Nouvelles découvertes d'hominidés et découvertes d'industries lithiques pliocènes à Hadar. C.r. hebd. Séanc. Acad. Set., Paris 287-D, 237–40.Google Scholar
Jolly, C. J. (ed.) (1978). Early hominids of Africa. London.
Kaufman, A., Broeker, W. S., Ku, T.-L. and Thurber, D. L. (1971). The status of U-series methods of dating molluscs. Geochim. cosmochim. Acta 35, 1155–84.Google Scholar
Keith, A. (1931). New discoveries relating to the antiquity of Man. London.
Kent, P. E. (1942). The recent history and the Pleistocene deposits north of Lake Eyasi, Tanganyika. Geol. Mag. 78, 173–84.Google Scholar
Klein, R. G. (1973). Geological antiquity of Rhodesian man. Nature, Lond. 244, 311–12.Google Scholar
Koenigswald, G. H. R. von (1936). Ein fossiler Hominide aus dem Altpleistozän Ostjavas. Ing. Ned.-Indië 8.Google Scholar
Koenigswald, G. H. R. von (1960). Remarks on a fossil human molar from Olduvai, East Africa. Proc. K. ned. Akad. Wet. 63.Google Scholar
Koenigswald, G. H. R. von (1969). Java: Prae-Trinil man. Proc. VIII Int. Congr. antbrop. ethnol. Sci. (Tokyo–Kyoto) 1.Google Scholar
Koenigswald, G. H. R. (1936). Ein fossiler Hominide aus dem Altpleistozän Ostjavas. Ing. Ned.-Indië 8, 149–57.Google Scholar
Koenigswald, G. H. R. (1940). Neue Pithecanthropus-Funde 1936–1938. Ein Beitrag zur Kenntnis der Praehominiden. Wet. Meded. Dienst Mijnb. Ned.-Oost-Indië 28, 1–232.Google Scholar
Koenigswald, G. H. R. (1950). Fossil hominids from the Lower Pleistocene of Java. Proc. Int. Geol. Congress (Great Britain, 1949), 9, 59–66.Google Scholar
Koenigswald, G. H. R. (1960). Remarks on a fossil human molar from Olduvai, East Africa. Proc. K. ned. Akad. Wet. 63, 20–5.Google Scholar
Koenigswald, G. H. R. (1969). Java: Prae-Trinil man. Proc. VIII Int. Congr. antbrop. ethnol. Sci. (Tokyo–Kyoto) 1, 104–5.Google Scholar
Koenigswald, G. H. R. (1973). Australopithecus, Meganthropus and Ramapithecus. J. hum. Evol., 2, 487–91.Google Scholar
Kohl-Larsen, L. (1943). Auf den Spuren des Vormenschen. Forschungen, Fahrten und Ergebnisse in Deutsch-Ostafrika, 2 vols. Stuttgart.
Le Gros Clark, W. E. (1940). Palaeontological evidence bearing on human evolution. Biol. Rev. 15, 202–30.Google Scholar
Le Gros Clark, W. E. (1947). Observations on the anatomy of the fossil Australopithecinae. J. Anat. 81, 300–33.Google Scholar
Le Gros Clark, W. E. (1952). Hominid characters of the australopithecine dentition. JIR. Anthrop. Inst. 80, 37–54.Google Scholar
Le Gros Clark, W. E. (1964). The fossil evidence for human evolution, 2nd ed. Chicago.
Le Gros Clark, W. E. (1967). Man-apes or ape-men? New York.
Leakey, L. S. B. (1931). Stone Age cultures of Kenya Colony. Cambridge.
Leakey, L. S. B. (1935). The Stone Age races of Kenya. Oxford.
Leakey, L. S. B. (1936a). Fossil human remains from Kanam and Kanjera, Kenya Colony. Nature, Lond. 138, 643.Google Scholar
Leakey, L. S. B. (1936b). A new fossil skull from Eyasi, East Africa. Nature, Lond. 138, 1082–3.Google Scholar
Leakey, L. S. B. (1951). Olduvai Gorge. Cambridge.
Leakey, L. S. B. (1958). Recent discoveries at Olduvai Gorge, Tanganyika. Nature, Lond. 181, 1099–1103.Google Scholar
Leakey, L. S. B. (1959). A new fossil skull from Olduvai. Nature, Lond. 184, 491–3.Google Scholar
Leakey, L. S. B. (1960). Recent discoveries at Olduvai Gorge. Nature, Lond. 188, 1050–2.Google Scholar
Leakey, L. S. B. (1965). Olduvai Gorge, vol. I: A preliminary report on the geology and fauna. Cambridge.
Leakey, L. S. B. and Leakey, M. D. (1964). Recent discoveries of fossil hominids in Tanganyika: at Olduvai and near Lake Natron. Nature, Lond. 202, 5–7.Google Scholar
Leakey, L. S. B. and Reeve, W. H. (1946). I. Report on a visit to the site of the Eyasi skull found by Dr Kohl-Larsen. II. Geological report on the site of Dr Kohl-Larsen's discovery of a fossil human skull, Lake Eyasi, Tanganyika Territory. J. E. Afr. not. Hist. Soc. 19, 40–50.Google Scholar
Leakey, L. S. B., Tobias, P. V. and Napier, J. R. (1964). A new species of the genus Homo from Olduvai Gorge. Nature, Lond. 202, 7–9.Google Scholar
Leakey, M. D. (1970). Stone artefacts from Swartkrans. Nature, Load. 225, 1221–5.Google Scholar
Leakey, M. D. (1971). Olduvai Gorge, vol. III: Excavations in Beds I and II, 1960–1963. Cambridge.
Leakey, M. D. (1975). Cultural patterns in the Olduvai sequence. In Butzer, K. W. and Isaac, G. LI. (eds.), After the australopithecines, 477–94. The Hague.Google Scholar
Leakey, M. D. (1978). Olduvai fossil hominids: their stratigraphic positions and associations. In Jolly, C. J. (ed.), Early hominids of Africa, 3–16. London.Google Scholar
Leakey, M. D., Clarke, R. J. and Leakey, L. S. B. (1971). New hominid skull from Bed I, Olduvai Gorge, Tanzania. Nature, Lond. 232, 308–12.Google Scholar
Leakey, M. D. and Hay, R. L. (1979). Pliocene footprints in the Laetolil Beds at Laetoli, northern Tanzania. Nature, Lond. 278, 317–23.Google Scholar
Leakey, M. D., Hay, R. L., Curtis, G. H., Drake, R. E., Jackes, M. K. and , T. D. White (1976). Fossil hominids from the Laetolil Beds. Nature, Lond. 262, 460–6.Google Scholar
Leakey, M. G. and Leakey, R. E. F. (1978). Koobi Fora Research Project, Volume 1, 1968–1974: The fossil hominids and an introduction to their context. Oxford.
Leakey, Margaret, Tobias, P. V., Martyn, J. E. and Leakey, R. E. F. (1969). An Acheulean industry with prepared core technique and the discovery of a contemporary hominid mandible at Lake Baringo, Kenya. Proc. prehist. Soc. 35, 48–76.Google Scholar
Leakey, R. E. F. (1970). ew hominid remains and early artefacts from northern Kenya. Nature, Lond. 226, 223–4.Google Scholar
Leakey, R. E. F. (1971). Further evidence of lower Pleistocene hominids from East Rudolf, north Kenya, 1970. Nature, Lond. 231, 241–5.Google Scholar
Leakey, R. E. F. (1972). Further evidence of lower Pleistocene hominids from East Rudolfm, north Kenya, 1971. Nature, Lond. 237, 264–9.Google Scholar
Leakey, R. E. F. (1973). Further evidence of lower Pleistocene hominids from East Rudolf, north Kenya, 1972. Nature, Lond. 242, 170–3.Google Scholar
Leakey, R. E. F. (1974). Further evidence of lower Pleistocene hominids from East Rudolf, north Kenya, 1973. Nature, Lond. 248, 653–6.Google Scholar
Leakey, R. E. F. (1976a). An overview of the East Rudolf Hominidae. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 476–83. Chicago.Google Scholar
Leakey, R. E. F. (1976b). New hominid fossils from the Koobi Fora formation in northern Kenya. Nature, Lond. 261, 574–6.Google Scholar
Leakey, R. E. F., Butzer, K. W. and Day, M. H. (1969). Early Homo sapiens remains from the Omo river regions of south-west Ethiopia. Nature, Lond. 222, 1132–8.Google Scholar
Leakey, R. E. F., Mungai, J. M. and Walker, A. C., (1971). New australopithecines from East Rudolf, Kenya, I. Am. J. phys. Anthrop. 35, 175–86.Google Scholar
Leakey, R. E. F., Mungai, J. M. and Walker, A. C., (1972). New australopithecines from East Rudolf, Kenya, II. Am. J. phys. anthrop. 36, 205–22.Google Scholar
Leakey, R. E. F. and Walker, A. C. (1973). New australopithecines from East Rudolf, Kenya, III. Am. J. phys. Anthrop. 39, 205–22.Google Scholar
Leakey, R. E. F. and Walker, A. C. (1976). Australopithecus, Homo erectus, and the single species hypothesis. Nature, Lond. 261, 572–4.Google Scholar
Lecointre, G. (1960). Le gisement de l'homme de Rabat. Bull. Archéol. Maroc. 3, 55–85.Google Scholar
Lisowski, F. P., Albrecht, G. H. and Oxnard, C. E. (1974). The form of the talus in some higher primates: a multivariate study. Am. J. phys. Anthrop. 41, 191–215.Google Scholar
Lovejoy, C. O. (1974). The gait of australopithecines. Yearh. phys. Anthrop. 17, 147–61.Google Scholar
Mabbutt, J. A. (1956). The physiography and surface geology of the Hopefield fossil site. Trans. R. Soc. S. Afr. 35, 21–58.Google Scholar
MacDougall, C. and Price, P. B. (1974). Attempt to date early South African hominids using fission tracks in calcite. Science, N.Y. 185, 943–4.Google Scholar
Maglio, V. J. (1970). Early Elephantidae of Africa and a tentative correlation of African Plio-Pleistocene deposits. Nature, Lond. 225, 328–32.Google Scholar
Maglio, V. J. (1973). Origin and evolution of the Elephantidae. Trans. Am. phil. Soc. N.S. 63, 1–149.Google Scholar
Mann, A. E. (1975). Some paleodemographic aspects of the South African australopithecines. Univ. Pennsylvania Publs anthrop. 1.Google Scholar
Marçais, J. (1934). Découverte de restes humains fossiles dans les grès quaternaires de Rabat (Maroc). Anthropologie, Paris 44, 579–83.Google Scholar
Marks, P. (1953). Preliminary note on the discovery of a new jaw of Meganthropus. Indones. J. nat. Sci. 109, 26–33.
Martyn, J. and Tobias, P. V. (1967). Pleistocene deposits and new fossil localities in Kenya. Nature, Lond. 215, 476–80.Google Scholar
McBurney, C. B. M. (1967). The Haua Fteah (Cyrenaica) and the Stone Age of the south east Mediterranean. Cambridge.
McBurney, C. B. M. (1961). Absolute age of Pleistocene and Holocene deposits in the Haua Fteah. Nature, Lond. 192, 685–6.Google Scholar
McBurney, C. B. M. (1962). Absolute chronology of the Palaeolithic in eastern Libya and the problem of Upper Palaeolithic origins. Advmt Sci., Lond. 18, 494–7.Google Scholar
McBurney, C. B. M., Trevor, J. C. and Wells, L. H. (1953). The Haua Fteah fossil jaw. JI R. Anthrop. Inst. 83, 71–85.Google Scholar
McDougall, I., Maier, R., Sutherland-Hawkes, P. and Gleadow, A. J. W. (1980). K-Ar age estimate for the KBS tuff, east Turkana, Kenya. Nature, Lond. 284, 230–4.Google Scholar
McFadden, P. L., Brock, A. and Partridge, T. C. (1979). Palaeomagnetism and the age of the Makapansgat hominid site. Earth and Planet. Sci. letters 44, 373–82.Google Scholar
McHenry, H. M. (1973). Early hominid humerus from East Rudolf, Kenya. Science, N.Y. 180, 739–41.Google Scholar
McHenry, H. M. (1975a). The ischium and hip extensor mechanism in human evolution. Am. J. phys. Anthrop. 43, 39–46.Google Scholar
McHenry, H. M. (1975b). Fossils and the mosaic nature of human evolution. Science, N. Y. 190, 425–31.Google Scholar
McHenry, H. M. (1978). Fore- and hind limb proportions in Plio-Pleistocene hominids. Am. J. Phys. Anthrop. 49, 15–22.Google Scholar
McHenry, H. M. and Corruccini, R. S. (1975). Distal humerus in hominoid evolution. Folia primatol. 13, 227–44.Google Scholar
McHenry, H. M. and Corruccini, R. S. (1978). The femur in early human evolution. Am. J. Phys. Anthrop. 49, 473–88.Google Scholar
McHenry, H. M. and Temerin, A. L. (1979). The evidence of hominid bipedalism: evidence from the fossil record. Yrbk of Phys. Anthrop. 22, 105–31.Google Scholar
Merrick, H. V. (1976). Recent archaeological research in the Plio-Pleistocene deposit of the lower Omo valley, southwestern Ethiopia. In Isaac, G. LI. and McCown, E. R. (eds.), Human origins. Louis Leakey and the East African evidence, 461–82. Menlo Park.Google Scholar
Merrick, H. V. and Merrick, J. P. S. (1976). Archaeological occurrences of earlier Pleistocene age from the Shungura formation. In Coppens, Y. et al. (eds.), Earliest man and environments in the Lake Rudolf basin, 574–84. Chicago.Google Scholar
Mturi, A. A. (1976). New hominid from Lake Ndutu, Tanzania. Nature Lond. 262, 484–5.Google Scholar
Neuville, R. and Ruhlmann, A. (1942). L'âge de l'homme fossile de Rabat. Bull. Mém. Soc. Anthrop. Paris series 9, 3, 74–88.Google Scholar
Oakley, K. P. (1954). Study tour of early hominid sites in southern Africa, 1953. S. Afr. archeol. Bull. 9, 75–87.Google Scholar
Oakley, K. P. (1957). The dating of the Broken Hill, Florisbad and Saldanha skulls In Proceedings of the Third Pan-African Congress on Prehistory (Livingstone, 1955), 76–9.Google Scholar
Oakley, K. P. (1958). The dating of Broken Hill (Rhodesian Man). In Koenigswald, G. H. R. (ed.), Hundert jahre Neanderthaler. Neanderthal Centenary, 1856–1956, 265–6. Utrecht.Google Scholar
Oakley, K. P. (1960). The Kanam jaw. Nature,Lond. 185, 945.Google Scholar
Ohel, M. Y. (1977). Patterned concentrations on living floors at Olduvai, Beds I and II: experimental study. J. Field Archaeol. 4, 423–33.Google Scholar
Olson, T. R. (1978). Hominid phylogenetics and the existence of Homo in Member I of the Swartkrans Formation, South Africa. J. Hum. Evolut. 7, 159–78.Google Scholar
Oppenworth, W. F. F. (1932). Homo (Javanthropus) soloensis, eem Pleistocene mensch van Java. Wet. Meded. Dienst Mijnb. Ned.-Oost-Indië 20, 49–63.Google Scholar
Oxnard, C. E. (1972). Some African fossil foot bones: a note on the interpolation of fossils into a matrix of extant species. Am. J.phys. Anthrop. 37, 3–12.Google Scholar
Oxnard, C. E. (1973). Functional inferences from morphometrics: Problems posed by diversity and uniqueness among the primates. Syst. Zool. 22, 409–24.Google Scholar
Oxnard, C. E. (1975). The place of the australopithecines in human evolution: grounds for doubt? Nature, Lond. 258, 389–95.Google Scholar
Oxnard, C. E. (1979). Relationship of Australopithecus and Homo: another view. J. Hum. Evolut. 8, 427–32.
Partridge, T. C. (1973). Geomorphological dating of cave opening at Makapansgat, Sterkfontein, Swartkrans and Taung. Nature, Lond. 240, 75–9.Google Scholar
Partridge, T. C. (1978). Re-appraisal of lithostratigraphy of Sterkfontein hominid sites. Nature, Lond. 275, 282–7.Google Scholar
Patterson, B. (1966). A new locality for early Pleistocene fossils in northwestern Kenya. Nature, Lond. 212, 577–8.Google Scholar
Patterson, B., Behrensmeyer, A. K. and , W. D. Sill (1970). Geology and fauna of a new Pliocene locality in northwestern Kenya. Nature, Lond. 226, 918–21.Google Scholar
Patterson, B. and Howells, W. W. (1967). Hominid humeral fragment from early Pleistocene of northwestern Kenya. Science, N. Y. 156, 64–6.Google Scholar
Peabody, F. E. (1954). Travertines and cave deposits of the Kaap escarpment of South Africa, and the type locality of Australopithecus africanus. Bull. geol. Soc. Am. 65, 671–706.
Petit-Maire, N. and Charon, M. (1972). Tendances évolutives de la denture inférieure permanente des hominidés du Quaternaire. C.r. bebd. Séanc. Acad. Sci., Paris 274-D, 365–8.Google Scholar
Pickford, M. (1975). Late Miocene sediments and fossils from the northern Kenya Rift Valley. Nature, Lond. 256, 279–84.Google Scholar
Pickford, M. (1978a). Geology, palaeoenvironments and vertebrate faunas of the mid-Miocene Ngorora Formation, Kenya. In Bishop, W. W. (ed.), Geological background to fossil man, 237–62. Edinburgh.Google Scholar
Pickford, M. (1978b). Stratigraphy and mammalian palaeontology of the late Miocene Lukeino Formation, Kenya. In Bishop, W. W. (ed.), Geological background to fossil man, 263–78. Edin1burgh.Google Scholar
Pilbeam, D. (1972). The ascent of Man. An introduction to human evolution. New York.
Pilbeam, D. (1975). Middle Pleistocene hominids. In Butzer, K. W. and Isaac, G. LI. (eds.), After the australopithecines, 809–56. The Hague.Google Scholar
Pilbeam, D. and Gould, S. J. (1974). Size and scaling in human evolution, Science, N. Y. 186, 892–901.Google Scholar
Protsch, R. (1974). Florisbad: its paleoanthropology, chronology and archaeology. Homo 25, 68–78.Google Scholar
Protsch, R. (1975). The absolute dating of Upper Pleistocene sub-Saharan fossil hominids and their place in human evolution. J. hum. Evol. 4, 297–322.Google Scholar
Protsch, R. and Villiers, H. (1974). Bushman Rock Shelter, Origstad, Eastern Transvaal, South Africa. J. hum. Evol. 3, 387–96.Google Scholar
Reck, H. and Kohl-Larsen, L. (1936). Erster Überblick über die jungdiluvialen Tier und Menschenfunds Dr Kohl-Larsen's im nordöstlichen Teil des Njarasa-Grabens (Ostafrika), und die geologischen Verhältnisse des Fundgebietes. Geol. Rdsch. 27, 401–41.Google Scholar
Remane, A. (1951a). (In Weinert, H. R.) Über die neuen Vor- und Fruhmen-schenfunde aus Afrika, Java, China und Frankreich. Z. Morph. Anthrop. 43, 113–48.Google Scholar
Remane, A. (1951b). Die Zähne des Meganthropus africanus. Z. Morph. Anthrop. 42, 311–29.
Rightmire, G. P. (1974). The later Pleistocene and recent evolution of man in Africa. New York.
Rightmire, G. P. (1975). Problems in the study of Later Pleistocene man in Africa. Am. Anthrop. 77, 28–52.Google Scholar
Rightmire, G. P. (1979). Cranial remains of Homo erectus from Beds II and IV, Olduvai Gorge, Tanzania. Am. J. Phys. Anthrop. 51, 99–116.
Robinson, J. T. and Mason, R. J. (1962). Australopithecines and artefacts at Sterkfontein. S. Afr. archaeol. Bull. 17.Google Scholar
Robinson, J. T. (1953a). Meganthropus, australopithecines and hominids. Am. J. Phys. Anthrop. II, 1–38.
Robinson, J. T. (1953b). Telanthropus and its phylogenetic significance. Am. J. Phys. Anthrop. II, 445–502.
Robinson, J. T. (1954). The genera and species of the Australopithecinae. Am. J. Phys. Anthrop. 12, 181–200.
Robinson, J. T. (1955). Further remarks on the relationship between Meganthropus and australopithecines. Am. J. Phys. Anthrop. 13, 429–46.
Robinson, J. T. (1956). The dentition of the Australopithecinae. Transv. Mus. Mem. 9.Google Scholar
Robinson, J. T. (1958). The Sterkfontein tool-maker. Leech, Johannesh. 28, 94–100.
Robinson, J. T. (1960). An alternstive interpretation of the supposed giant deciduous hominid tooth from Olduvsi. Nature, Lond. 185, 407–8.Google Scholar
Robinson, J. T. (1961). The australopithecines and their bearing on the origin of man and of stone tool-making. S. Afr. J. Sci. 57, 3–13.Google Scholar
Robinson, J. T. (1962). The origin and adaptive radiation of the australopithecines. In Kurth, G. (ed.), Evolution and hominisation, 120–40. Stuttgart.Google Scholar
Robinson, J. T. (1963). Adaptive radiation in the australopithecines and the origin of man. In Howell, F. C. and Bourlière, F. (eds.), African ecology and human evolution, 385–416. Chicago.Google Scholar
Robinson, J. T. (1965). Homo habilis and the australopithecines. Nature, Lond. 205, 121–4.Google Scholar
Robinson, J. T. (1967). Variation and the taxonomy of early hominids. Evolutionary Biology, 1, 69–100.Google Scholar
Robinson, J. T. (1968). The origin and adaptive radiation of the australopithecines. In Kurth, G. (ed.), Evolution and hominisation, 2nd edn, 150–75. Stuttgart.Google Scholar
Robinson, J. T. (1969). Dentition and adaptation in early hominids. VIII Int. Congr. Anthrop. Ethnol. Sci. (Kyoto–Tokyo, 1968), 302–5.Google Scholar
Robinson, J. T. (1972). Early hominid posture and locomotion. Chicago.
Robinson, J. T. and Mason, R. J. (1957). Occurrence of stone artefacts with Australopithecus at Sterkfontein. Nature, Lond. 180, 521–4.Google Scholar
Robinson, J. T. and Mason, R. J. (1962). Australopithecines and artefacts at Sterkfontein. S. Afr. archaeol. Bull. 17, 87–125.Google Scholar
Robinson, J. T. and Steudel, K. (1973). Multivariate discriminant analysis of dental data bearing on early hominid affinities. J. hum. Evol. 2, 509–27.Google Scholar
Roche, H. and , J.-J. Tiercelin (1977). Découverte d'une industrie lithique ancienne in situ dans la formation d'Hadar, Afar central, Ethiopie. C. r. Acad. Sci., Paris 284–D, 1871–4.Google Scholar
Roche, J. (1953). La grotte de Taforalt. Anthropologie, Paris 57, 375–80.
Roche, J. and Texier, J.-P. (1976). Découverte de restes humains dans un niveau atérien supérieur de la grotte des Contrebandiers — à Témara (Maroc). C.r. hebd. Séanc. Acad. Sci., Paris 282–D, 45–7.Google Scholar
Ruhlmann, A. (1951). La grotte Préhistorique de Dar es Soltane. Collection Hesperis, Institut des Hautes Études Marocaines II, Rabat.
Saban, R. (1975). Les restes humains de Rabat (Kébibat). Ann. Paléont. (Vértébres) 61, 151–207.Google Scholar
Saban, R. (1977). The place of Rabat man (Kébibat, Morocco) in human evolution. Curr. Anthrop. 18, 518–24.Google Scholar
Sampson, C. G. (1974). The Stone Age archaeology of southern Africa. London and New York.
Sartono, S. (1971). Observations on a new skull of Pithecanthropus erectus (Pithecanthropus VIII) from Sangiran, central Java. Proc. K. ned. Akad. Wet. 74, 185–94.Google Scholar
Sartono, S. (1975). Implications arising from Pithecanthropus VIII. In Tuttle, R. H. (ed.), Paleoanthropology: morphology and paleoecology, 327–60. The Hague.Google Scholar
Sausse, F. (1975). La mandibule atlanthropienne de la carriàre Thomas I (Casablanca). Anthropologie, Paris 79, 81–112.Google Scholar
Schepers, G. W. H. (1941). The mandible of the Transvaal fossil human skeleton from Springbok Flats. Ann. Transv. Mus. 20, 253–71.Google Scholar
Senyurek, M. S. (1940). Fossil man in Tangier. Pap. Peabody Mus. 16.Google Scholar
Senyurek, M. S. (1955). A note on the teeth of Meganthropus africanus Weinert from Tanganyika Territory. Belleten, Ankara 19, 1–55.Google Scholar
Shuey, R. T., Brown, F. H. and Croes, M. K. (1974). Magnetostratigraphy of the Shungura Formation, south-western Ethiopia: Fine structure of the lower Matuyama Polarity epoch. Earth Planet. Sci. Lett. 23, 249–60.Google Scholar
Shuey, R. T., Brown, F. H., Eck, G. G. and Howell, F. C. (1978). A statistical approach to temporal biostratigraphy. In Bishop, W. W. (ed.), Geological background to fossil man in Africa. 103–24. Edinburgh and Toronto.Google Scholar
Siedner, G. and Horowitz, A. (1974). Radio-metric ages of late Cainozoic basalts from northern Israel: chronostratigraphic implications. Nature, Lond. 250, 23–6.Google Scholar
Simons, E. L. (1977). Ramapithecus. Scient. Am. 236, 28–35.
Simons, E. L. and Pilbeam, D. R. (1978). Ramapithecus (Hominidae, Hominoidea). In Maglio, V. J. and Cooke, H. B. S. (eds.), Evolution of African mammals, 147–53. Cambridge, Mass.Google Scholar
Singer, R. (1954). The Saldanha skull from Hopefield, South Africa. Am. J. phys. Anthrop. 12, 345–62.Google Scholar
Singer, R. (1958). The Rhodesian, Florisbad and Saldanha skulls. In Koenigswald, G. H. R. (ed.), Hundert Jabre Neanderthaler. Neanderthal Centenary, 1856–1956, 52–62. Utrecht.Google Scholar
Singer, R. and Smith, P. (1969). Some human remains associated with the Middle Stone Age at Klasies River, South Africa. Am. J. phys. Anthrop. 31, 256 (abstract).Google Scholar
Singer, R. and Wymer, J. (1968). Archaeological investigations at the Saldanha skull site in South Africa. S. Afr. archaeol. Bull. 25, 63–74.Google Scholar
Sollas, W. J. (1926). A sagittal section of the skull of Australopithecus africanus. Q. Jl geol. Soc. Lond. 82, 1–11.
Speth, J. D. and Davis, D. D. (1976). Seasonal variability in early hominid predation. Science, N. Y. 192, 441–5.
Stearns, C. E. and Thurber, D. L. (1965). Th/U dates of late Pleistocene marine fossils from the Mediterranean and Moroccan littorals. Quaternaria 7.Google Scholar
Stearns, C. E. and Thurber, D. L. (1965). Th230/U234 dates of late Pleistocene marine fossils from the Mediterranean and Moroccan littorals. Quaternaria 7, 29–42.Google Scholar
Stiles, D. N. (1979). Recent archaeological findings at the Sterkfontein site. Nature, Lond. 277, 381–2.Google Scholar
Stiles, D. N. and Partridge, T. C. (1979). Results of recent archaeological and palaeo-environmental studies at the Sterkfontein Extension site. S. Afr. J. Sci. 75, 346–52.Google Scholar
Stringer, C. B. (1974). Population relationships of later Pleistocene hominids: a multivariate study of available crania. J. archaeol. Sci. 1, 317–42.Google Scholar
Susman, R. L. and Creel, N. (1979). Functional and morphological affinities of the subadult hand (O.H.7) from Olduvai Gorge. Am. J. Phys. Anthrop. 51, 311–32.Google Scholar
Szalay, F. S. (1971). Biological level of organization of the Chesowanja robust australopithecine. Nature, Lond. 234, 229–30.Google Scholar
Taieb, M., Johanson, D. C., Coppens, Y. and Aronson, J. L. (1976). Geological and palaeontological background of Hadar hominid site, Afar, Ethiopia. Nature, Lond. 260, 280–93.Google Scholar
Taieb, M., Coppens, Y., Johanson, D. C. and Kalb, J. (1972). Dépots sédimentaires et faunes du Plio-Pléistocéne de Basse vallée de l'Awash (Afar central, Éthiopie). C.r. hebd. Séanc. Acad. Sci., Paris 275–D, 819–22.Google Scholar
Taieb, M., Johanson, D. C., Coppens, Y., Bonnefille, R. and Kalb, J. (1974). Découverte d'hominidés dans le série Plio-Pléistocène d'Hadar (bassin de l'Awash, Afar, Éthiopie). C.r. hebd. Séanc. Acad. Sci., Paris 279–D, 735–8.Google Scholar
Taieb, M., Johanson, D. C., Coppens, Y. and Tiercelin, J.-J. (1978). Expédition internationale de l'Afar, Ethiopie (4e et 5e campagnes, 1975–1977): Chrono-stratigraphie des gisements à hominidés pliocènes d'Hadar et correlations avec les sites préhistoriques du Kada Gona. C.r. hebd. Séanc. Acad. Sci., Paris 287–D, 459–61.Google Scholar
Taieb, M. and Tiercelin, J.-J. (1979). Sédimentation pliocène et paléoenvironnements de rift: exemple de la formation à hominidés d'Hadar (Afar, Ethiopie). Bull. Soc. Geol. France (7), 21, 243–53.Google Scholar
Thomas, A. and Vallois, H. V. (1977). Les dents de l'homme de Rabat. Bull. Mem. Soc. d'Anthrop., Paris (13) 4, 31–58.Google Scholar
Tobias, P. V. (1978b). The South African australopithecines in time and hominid phylogeny, with special reference to the dating and affinities of the Taung skull. In Jolly, C. J. (ed.), Early hominids of Africa. London.Google Scholar
Tobias, P. V. (1960). The Kanam jaw. Nature, Lond. 185, 946–7.Google Scholar
Tobias, P. V. (1961). New evidence and new views on the evolution of man in Africa. S. Afr. J. Sci. 57, 25–38.Google Scholar
Tobias, P. V. (1962). A reexamination of the Kanam mandible. In Actes du IVe Congrès Panafricain de Préhistoire et de l' Etude du Quatérnaire (Tervuren), 341–60.Google Scholar
Tobias, P. V. (1965). Homo habilis. In Encyclopaedia Britannica Book of the Year, 1965, 252–5.Google Scholar
Tobias, P. V. (1966). A re-examination of the Kedung Brubus mandible. Zoö. Meded., Leiden 41, 307–20.Google Scholar
Tobias, P. V. (1967a). Olduvai Gorge, vol. II: The cranium and maxillary dentition of Australopithecus (Zinjanthropus) boisei. Cambridge.
Tobias, P. V. (1967b). Cultural hominisation among the earliest African Pleistocene hominids. Proc. prehist. Soc. 13, 367–76.Google Scholar
Tobias, P. V. (1967c). The hominid skeletal remains of Haua Fteah. In McBurney, C. B. M., The Haua Fteah (Cyrenaica), Appendix 1B, 338–52. Cambridge.Google Scholar
Tobias, P. V. (1971a). The brain in hominid evolution. New York.
Tobias, P. V. (1971b). Does the form of the inner contour of the mandible distinguish between Australopithecus and Homo? In Gosh, A. K. (ed.), Perspectives in palaeoanthropology: D. Sen festschrift volume 9–17. Calcutta.Google Scholar
Tobias, P. V. (1974). Homo erectus. Encyc. Brit. 8, 1031–6.
Tobias, P. V. (1978a). The place of Australopithecus africanus in hominid evolution. In Chivers, D. J. and Joysey, K. A. (eds.), Recent advances in primatology, vol. 3 (Evolution), 373–94. London.Google Scholar
Tobias, P. V. (1978b). The South African australopithecines in time and hominid phylogeny, with special reference to the dating and affinities of the Taung skull. In Jolly, C. J. (ed.), Early hominids of Africa, 45–84. London.Google Scholar
Tobias, P. V. (1978c). Position et rôle des australopithécines dans la phylogenèse humaine, avec étude particulière de Homo habilis et des théories controversées avancées à propos des premiers hominides fossiles de Hadar et de Laetolil. In Les origines humaines et les Epoques de l'intelligence, Fondation Singer-Polignac, 38–77. Paris.Google Scholar
Tobias, P. V. (1978d). The earliest Transvaal members of the genus Homo with another look at some problems of hominid taxonomy and systematics. Z. Morph. Anthrop 69, 225–65.Google Scholar
Tobias, P. V. and Hughes, A. R. (1969). The new Witwatersrand University excavation at Sterkfontein. S. Afr. archaeol. Bull. 24, 158–69.Google Scholar
Tobias, P. V. and Koenigswald, G. H. R. (1964). A comparison between the Olduvai hominines and those of Java and some implications for hominid phylogeny. Nature, Lond. 204, 515–18.Google Scholar
Tobias, P. V. and Robinson, J. T. (1966). The distinctiveness of Homo habilis. Nature, Lond. 209, 953–60.Google Scholar
Toerien, M. J. and Hughes, A. R. (1955). The limb bones of Springbok Flats man. S. Afr. J. Sci. 52, 125–8.Google Scholar
Trevor, J. C. and Wells, L. H. (1967). Preliminary report on the second mandibular fragment from Haua Fteah, Cyrenaica. In McBurney, C. B. M., The Haua Fteah (Cyrenaica), Appendix 1A, 336–7. Cambridge.Google Scholar
Vallois, H. V. (1945). L'Homme fossile de Rabat. C.r. hebd. Séanc. Acad. Sci. Paris 221, 669–71.Google Scholar
Vallois, H. V. (1951). La mandibule humaine fossile de la grotte du Porc-Épic près Diré-Daoua (Abyssinie). Anthropologie, Paris 55, 231–8.Google Scholar
Vallois, H. V. (1960). L'homme de Rabat. Bull. Archéol. Maroc. 3, 87–91.Google Scholar
Vallois, H. V. and Roche, J. (1958). La mandibule acheuléenne de Témara, Maroc. C.r. hebd. Séanc. Acad. Sci., Paris 246, 3113–6.Google Scholar
Villiers, H. (1973). Human skeletal remains from Border Cave, Ingwavuma district, Kwazulu, South Africa. Ann. Transv. Mus. 28, 229–56.Google Scholar
Villiers, H. (1976). A second adult human mandible from Border Cave, Ingwavuma district, Kwazulu, South Africa. S. Afr. J. Sci. 72, 212–15.Google Scholar
Vogel, J. C. and Beaumont, P. B. (1972). Revised radiocarbon chronology for the Stone Age in South Africa. Nature, Lond. 237, 50–1.Google Scholar
Vrba, E. S. (1976). The fossil Bovidae of Sterkfontein, Swartkrans and Kromdraai. Transv. Mus. Mem. 21.Google Scholar
Vrba, E. S. (1974). Chronological and ecological implications of the fossil Bovidae at the Sterkfontein australopithecine site. Nature, Lond. 250, 19–23.Google Scholar
Vrba, E. S. (1975). Some evidence of chronology and palaeoecology of Sterkfontein, Swartkrans and Kromdraai from the fossil Bovidae. Nature, Lond. 254, 301–4.Google Scholar
Vrba, E. S. (1979). A new study of the scapula of Australopithecus africanus from Sterkfontein. Am. J. Phys. Anthrop. 51, 117–30.Google Scholar
Walker, A. C. (1972a). Chesowanja australopithecine. Nature, Lond. 238, 108–9.Google Scholar
Walker, A. C. (1972b). New Australopithecus femora from East Rudolf, Kenya. J. hum. Evol. 2, 245–55.Google Scholar
Walker, A. and Leakey, R. E. F. (1978). The hominids of East Turkana. Sci. Am. 239(2), 54–66.Google Scholar
Weidenreich, F. (1947). The trend of human evolution. Evolution, Lancaster, Pa. I.Google Scholar
Weidenreich, F. (1936). The mandible of Sinanthropus pekinensis: a comparative study. Palaeont. sin., series D, 7, 1–162.Google Scholar
Weidenreich, F. (1937). The dentition of Sinanthropus pekinensis: a comparative odontography of hominids. Atlas and text, 2 vols. Palaeont. sin., N.S. D, I.Google Scholar
Weidenreich, F. (1941a). The extremity bones of Sinanthropus pekinensis. Palaeontol. sin., N.S. D, 5, 1–150.Google Scholar
Weidenreich, F. (1941b). The brain and its role in the phylogenetic transformation of the human skull. Trans. Am. phil. Soc. 31, 321–442.Google Scholar
Weidenreich, F. (1943). The skull of Sinanthropus pekinensis: a comparative study on a primitive hominid skull. Palaeont. sin., N.S. D, 10.Google Scholar
Weidenreich, F. (1945). Giant early man from Java and south China. Anthrop. Pap. Am. Mus. nat. Hist. 40.Google Scholar
Weidenreich, F. (1947). The trend of human evolution. Evolution, Lancaster, Pa. I, 221–36.Google Scholar
Weidenreich, F. (1951). Morphology of Solo Man. Anthrop. Pap. Am. Mus. nat. Hist. 43, 201–90.Google Scholar
Weinert, H. (and Bauermeister, H. and Remane, A.) (1939). Africanthropus njarasensis. Beschreibung und phyletische Einordnung des ersten Affen-menschen aus Ostafrika. Z. Morph. Anthrop. 38, 252–308.Google Scholar
Wells, L. H. (1950). The Border Cave Skull, Ingwavuma district, Zululand. Am. J. phys. anthro, 8, 241–3.Google Scholar
Wells, L. H. (1951). The fossil human skull from Sanga. In Arkell, A. J., Bate, D. M. A., Wells, L. H. and Lacaille, A. D. (eds.), The Pleistocene fauna of two Blue Nilesites. Fossil Mammals Afr. 2, 29–42. Br. Mus. Nat. Hist., London.Google Scholar
Wells, L. H. (1952). Fossil man in southern Africa. Man 52, 36–7.Google Scholar
Wells, L. H. (1957). The place of the Broken Hill skull among human types. In Proceedings of the Third Pan-African Congress on Prehistory (Livingstone, 1955). 172–4. London.Google Scholar
Wells, L. H. (1959). The problem of Middle Stone Age man in southern Africa. Man 59, 158–60.Google Scholar
Wells, L. H. (1962). Pleistocene faunas and the distribution of mammals in southern Africa. Ann. Cape. Prov. Mus. 2, 37–40.Google Scholar
Wells, L. H. (1964). The Vaal river ‘Younger Gravels’ faunal assemblage: a revised list. S. Afr. J. Sci. 60, 91–3.Google Scholar
Wells, L. H. (1969). Homo sapiens after Linn. – content and earliest representatives. S. Afr. archaeol. Bull. 24, 172–3.Google Scholar
Wells, L. H. (1972). Late Stone Age and Middle Stone Age tool-makers. S. Afr. archaeol. Bull. 27, 5–9.Google Scholar
White, T. D. (1977). New fossil hominids from Laetolil, Tanzania. Am. J. phys. Anthrop. 46, 197–230.Google Scholar
White, T. D. (1980). Evolutionary implications of Pliocene hominid footprints. Science 208, 175–6.Google Scholar
Wolberg, D. L. (1970). The hypothesized osteodontokeratic culture of the Australopithecinae: a look at the evidence and the opinions. Curr. anthrop. II, 23–37.Google Scholar
Wolpoff, M. H. (1968). ‘Telanthropus’ and the single species hypothesis. Am. Anthrop. 70, 447–93.Google Scholar
Wolpoff, M. H. (1971a). Competetive exclusion among lower Pleistocene hominids: the single species hypothesis. Man 6, 601–14.Google Scholar
Wolpoff, M. H. (1971b). The evidence for multiple hominid taxa at Swartkrans. Am. Anthrop. 72, 576–607.Google Scholar
Wolpoff, M. H. (1974). The evidence for two australopithecine lineages in South Africa. Yearb. phys. Anthrop. 17, 113–39.Google Scholar
Woo, J. K. (1964a). Mandible of the Sinanthropus-type discovered at Lantian, ShansiSinanthropus lantianensis. Vertebr. palasiat. 8, 1–71 (in Chinese).Google Scholar
Woo, J. K. (1964b). Mandible of Sinanthropus lantianensis. Curr. Anthrop. 5, 98–101.
Woo, J. K. (1966). The hominid skull of Lantian, Shansi. Vertebr. palasiat. 10, 1–22.Google Scholar
Woo, J. K. and Chao, L. P. (1954). New discoveries about Sinanthropus pekinensis in Choukoutien. Acta scient. sin. 3, 335–51, and Acta palaeont. sin. 2, 267–88.Google Scholar
Woo, J. K. and Chao, L. P. (1959). New discovery of Sinanthropus mandible from Choukoutien. Vertebr. palasiat. 3, 169–72.Google Scholar
Woo, J. K. and Chao, L. P. (1973). New discovery of Sinanthropus remains and stone artifacts at Choukoutien. Vertebr. palasiat. II, 109–31 (in Chinese).Google Scholar
Wood, B. A. (1974a). Evidence on the locomotor pattern of Homo from the early Pleistocene of Kenya. Nature, Lond. 251, 135–6.Google Scholar
Wood, B. A. (1974b). Olduvai Bed I post-cranial fossils: a reassessment. J. hum. Evol. 3, 373–8.Google Scholar
Wood, B. A. (1978). Classification and phylogeny of east African hominids. In Chivers, D. J. and Joysey, K. A. (eds.), Recent advances in primatology, vol. 3 (Evolution), 351–72. London.Google Scholar
Woodward, A. S. (1938). A fossil skull of an ancestral Bushman from the Anglo-Egyptian Sudan. Antiquity 12, 193–5.Google Scholar
Zihlman, A. L. (1971). The question of locomotor differences in Australopithecus. Proc. III Int. Congr. Primat. (Zurich, 1970), 54–66. Basel.Google Scholar
Zihlman, A. L. and Brunker, L. (1979). Human bipedalism: then and now. Yrbk of Phys. Anthrop. 22, 132–62.Google Scholar
Zihlman, A. L. and Hunter, W. S. (1972). A biomechanical interpretation of the pelvis of Australopithecus. Folia primatol. 18, 1–19.Google Scholar

Save book to Kindle

To save this book to your Kindle, first ensure [email protected] is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

Available formats
×