Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-18T07:20:15.248Z Has data issue: false hasContentIssue false
  • English
  • Français

The environment of Ramapithecus in Africa

Published online by Cambridge University Press:  08 February 2016

Peter Andrews  and
Elizabeth Nesbit Evans
Peter Andrews
Affiliation:
British Museum (Natural History), Cromwell Road, London SW7, England
Elizabeth Nesbit Evans
Affiliation:
Department of Zoology, University of Cambridge, Cambridge, England
Get access Rights & Permissions [Opens in a new window]

Abstract

The faunas of three fossil sites in Africa that contain time successive groups of fossil Hominoidea have been analyzed to determine their paleoenvironments. The basis for the analysis is an assessment of the ecological diversity of the fauna, which is expressed in terms of four categories: taxonomic composition, body size, feeding habits and locomotor zonal adaptation. This method has shown that the community structures of the three fossil faunas are significantly different, and comparisons with the community structure of modern habitats suggest that the environment of the early Miocene fauna of Songhor, and the primitive apes associated with it, was probably a type of lowland forest; the habitat of Ramapithecus and the Fort Ternan middle Miocene fauna compares best with modern woodland-bushland habitats; and the habitat of Homo habilis at Olduvai appears to have been intermediate between grassland and woodland-bushland. If man evolved from one of the early forest living apes, as seems likely on present evidence, an adaptive shift from forest to non-forest habitats must have occurred at some stage in his evolution. The evidence from Fort Ternan shows that in Africa Ramapithecus made this adaptive shift, and it is also now becoming clear that several genera of Eurasian apes, including Ramapithecus, made a similar environmental change at the same time.

Type
Research Article
Information
Paleobiology , Volume 5 , Issue 1 , Winter 1979 , pp. 22 - 30
Copyright
Copyright © The Paleontological Society 

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

Literature Cited

Andrews, P. 1971. Ramapithecus wickeri mandible from Fort Ternan, Kenya. Nature. 231:192194.CrossRefGoogle ScholarPubMed
Andrews, P. 1978. A revision of the Miocene Hominoidea of East Africa. Bull. Br. Mus. Nat. Hist. (Geol.) 30(2):85224.Google Scholar
Andrews, P., Groves, C. P., and Horne, J. F. M. 1975. Ecology of the Lower Tana River floodplain (Kenya). J. E. Afr. Nat. Hist. Soc. Natn. Mus. 151:131.Google Scholar
Andrews, P., Lord, J., and Nesbit Evans, E. M. N. 1979. Patterns of ecological diversity in fossil and modern mammalian faunas. Biol. J. Linn. Soc.CrossRefGoogle Scholar
Andrews, P. and Simons, E. L. 1977. A new African Miocene gibbon-like genus, Dendropithecus (Hominoidea, Primates) with distinctive postcranial adaptations: its significance to origin of Hylobatidae. Folia Primatol. 28:161169.CrossRefGoogle ScholarPubMed
Andrews, P. and Tobien, H. 1977. New Miocene locality in Turkey with evidence on the origin of Ramapithecus and Sivapithecus. Nature. 268:699701.CrossRefGoogle ScholarPubMed
Andrews, P. and Van Couvering, J. H. 1975. Palaeoenvironments in the East African Miocene. Pp. 62103. In: Szalay, F. S., ed. Approaches to Primate Paleobiology. Karger, Basel.Google Scholar
Behrensmeyer, A. K. 1975. The taphonomy and paleoecology of Plio-Pleistocene vertebrate assemblages East of Lake Rudolf. Bull. Mus. Comp. Zool. Harv. 146:473578.Google Scholar
Chesters, K. I. M. 1957. The Miocene flora of Rusinga Island, Lake Victoria, Kenya. Palaeontographica, Stuttgart. 101(B):3067.Google Scholar
Clark, W. E. Le Gros and Thomas, D. P. 1951. Associated jaws and limb bones of Limnopithecus macinnesi. Fossil Mammals of Africa (Brit. Mus. Nat. Hist. London). 3:127.Google Scholar
Colbert, E. H. 1935. Siwalik mammals in the American Museum of Natural History. Trans. Am. Philos. Soc. 26:1401.CrossRefGoogle Scholar
Fleagle, J. G., Simons, E. L., and Conroy, G. C. 1975. Ape limb bone from the Oligocene of Egypt. Science. 189:135137.CrossRefGoogle ScholarPubMed
Fleming, T. H. 1973. Numbers of mammal species in north and central American forest communities. Ecology. 54:555563.CrossRefGoogle Scholar
Gentry, A. W. 1970. The Bovidae (Mammalia) of the Fort Ternan Fossil Fauna. Pp. 243323. In: Leakey, L. S. B. and Savage, R. J. G., ed. Fossil Vertebrates of Africa, 2. Academic Press; London.Google Scholar
Goodman, M. and Tashian, R. E. 1976. Molecular Anthropology. 466 pp. Plenum Press; New York.CrossRefGoogle Scholar
Harrison, J. L. 1962. The distribution of feeding habits among animals in a tropical rain forest. J. Anim. Ecol. 31:5364.CrossRefGoogle Scholar
Hofmann, R. R. 1973. The ruminant stomach. E. Afr. Monogr. Biol. (Nairobi, Kenya). 2:1354.Google Scholar
Johanson, D. C. and Taieb, M. 1976. Plio-Pleistocene hominid discoveries in Hadar, Ethiopia. Nature. 260:293297.CrossRefGoogle ScholarPubMed
Kennedy, G. E. 1978. Hominoid habitat shifts in the Miocene. Nature. 271:1112.CrossRefGoogle Scholar
Kingdon, J. 1971. East African Mammals I. X + 446 pp. Academic Press; London.Google Scholar
Kretzoi, M. 1975. New ramapithecines and Pliopithecus from the lower Pliocene of Rudabanya in north-eastern Hungary. Nature. 257:578581.CrossRefGoogle Scholar
Leakey, L. S. B. 1969. Ecology of North Indian Ramapithecus. Nature. 223:10751076.CrossRefGoogle Scholar
Leakey, M. D. 1971. Olduvai Gorge. 3, Excavations in Beds I and II, 1960-1963. 306 pp., 41 pls., maps. Cambridge.Google Scholar
Leakey, M. D., Hay, R. L., Curtis, G. H., Drake, R. E., Jackes, M. K., and White, T. D. 1976. Fossil hominids from the Laetolil Beds. Nature. 262:460466.CrossRefGoogle ScholarPubMed
Napier, J. R. and Davis, P. R. 1959. The fore-limb skeleton and associated remains of Proconsul africanus. Fossil Mammals of Africa (Brit. Mus. Nat. Hist., London). 16:169.Google Scholar
Olson, E. C. 1966. Community evolution and the origin of mammals. Ecology. 47:291302.CrossRefGoogle Scholar
Pilbeam, D. R. 1969. Tertiary Pongidae of East Africa. Peabody Mus. Bull. 31:1185.Google Scholar
Pilbeam, D. R., Meyer, G. E., Badgley, C., Rose, M. D., Pickford, M. H. L., Behrensmeyer, A. K., and Shah, S. M. I. 1977. New hominoid primates from the Siwaliks of Pakistan and their bearing on hominoid evolution. Nature. 270:689695.CrossRefGoogle ScholarPubMed
Reynolds, V. 1967. The Apes. 296 pp. Dutton; New York.Google Scholar
Simons, E. L. 1968. A source for dental comparison of Ramapithecus with Australopithecus and Homo. S. Afr. J. Sci. 64:92112.Google Scholar
Simons, E. L. 1976. Relationships between Dryopithecus, Sivapithecus and Ramapithecus and their bearing on hominid origins. In: Les plus anciens hominidés. Union Int. Sci. Prehist. Protohist. 9:6067.Google Scholar
Simons, E. L. and Pilbeam, D. R. 1965. Preliminary revision of the Dryopithecinae. Folia Primatol. 3:81152.CrossRefGoogle ScholarPubMed
Simons, E. L. and Wood, A. E. 1968. Early Cenozoic mammalian faunas, Fayum Province, Egypt. Peabody Mus. Bull. 28:1105.Google Scholar
Schaller, G. B. 1963. The Mountain Gorilla. 431 pp. Univ. Chicago Press; Chicago, Illinois.Google Scholar
Simpson, G. G. 1964. Species diversity of North American recent mammals. Syst. Zool. 13:5773.CrossRefGoogle Scholar
Tattersall, I. 1969. Ecology of North Indian Ramapithecus. Nature. 221:451.CrossRefGoogle ScholarPubMed
Tekkaya, I. 1974. A new species of anthropoid (Primates, Mammalia) from Anatolia. Bull. Miner. Res. Expl. Inst. Ankara. 83:148165.Google Scholar
Van Couvering, J. H.In press. Community Evolution and succession in East Africa during the late Cenozoic.Google Scholar
Verdcourt, B. 1963. The Miocene non-marine mollusca of Rusinga Island, Lake Victoria and other localities in Kenya. Palaeontographica, Stuttgart. 121(A):137.Google Scholar
Walker, A. C. and Andrews, P. 1973. Reconstruction of the dental arcades of Ramapithecus wickeri. Nature. 244:313314.CrossRefGoogle ScholarPubMed