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Taphonomic and ecologic information from bone weathering

Published online by Cambridge University Press:  08 April 2016

Anna K. Behrensmeyer
Anna K. Behrensmeyer*
Affiliation:
Peabody Museum, Yale University; New Haven, Connecticut 06520
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Abstract

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Bones of recent mammals in the Amboseli Basin, southern Kenya, exhibit distinctive weathering characteristics that can be related to the time since death and to the local conditions of temperature, humidity and soil chemistry. A categorization of weathering characteristics into six stages, recognizable on descriptive criteria, provides a basis for investigation of weathering rates and processes. The time necessary to achieve each successive weathering stage has been calibrated using known-age carcasses. Most bones decompose beyond recognition in 10 to 15 yr. Bones of animals under 100 kg and juveniles appear to weather more rapidly than bones of large animals or adults. Small-scale rather than widespread environmental factors seem to have greatest influence on weathering characteristics and rates. Bone weathering is potentially valuable as evidence for the period of time represented in recent or fossil bone assemblages, including those on archeological sites, and may also be an important tool in censusing populations of animals in modern ecosystems.

Type
Research Article
Information
Paleobiology , Volume 4 , Issue 2 , Spring 1978 , pp. 150 - 162
Copyright
Copyright © The Paleontological Society 

References

Literature Cited

Behrensmeyer, A. K. 1975. The Taphonomy and paleoecology of Plio-Pleistocene vertebrate assemblages of Lake Rudolf, Kenya. Bull. Mus. Comp. Zool. 146:473578.Google Scholar
Behrensmeyer, A. K. and Dechant, D. E.In prep. The recent bones of Amboseli Park, Kenya in relation to East African Paleoecology. To be in: Behrensmeyer, A. K. and Hill, A., eds. Fossils in the Making. In Prep. (Wenner-Gren Foundation for Anthropological research symposium 69.)Google Scholar
Binford, L. R. and Bertram, J. B. 1977. Bone frequencies—and attritional processes. Pp. 77153. In: Binford, L. R., ed. For Theory Building in Archeology. Academic Press; New York.Google Scholar
Brain, C. K. 1967. Bone weathering and the problem of bone pseudotools. South Afr. J. Sci. 63(3):9799.Google Scholar
Gifford, D. P. and Behrensmeyer, A. K. 1977. Observed formation and burial of a recent human occupation site in Kenya. Quaternary Res. 8:245266.CrossRefGoogle Scholar
Hare, E. P. 1974. Amino acid dating of bone—the influence of water. Carnegie Inst. of Washington Year Book. 73:576581.Google Scholar
Hill, A. 1975. Taphonomy of contemporary and late Cenozoic East African vertebrates. 331 pp. Unpubl. Ph.D. thesis; Univ. of London, London.Google Scholar
Isaac, G. I. 1967. Towards the interpretation of occupation debris: some experiments and observations. The Kroeber Anthropol. Soc. Pap. 37:3157.Google Scholar
Rickleffs, R. E. 1973. Ecology 861 pp. Chiron Press; Portland, Oregon.Google Scholar
Shipman, P. 1977. Paleoecology, taphonomic history, and population dynamics of the vertebrate fossil assemblage from middle Miocene deposits exposed at Fort Ternan, Kenya. Unpubl. Ph.D. thesis; New York Univ. (Anthropology), New York.Google Scholar
Tappen, N. C. and Peske, G. R. 1970. Weathering cracks and split-line patterns in archeological bone. Am. Antiq. 35:383386.CrossRefGoogle Scholar
Toots, H. 1965. Sequence of disarticulation in mammalian skeletons. Contrib. Geol. 4:3739.Google Scholar
Voorhies, M. 1969. Taphonomy and population dynamics of an early Pliocene vertebrate fauna, Knox County, Nebraska. 69 pp. Contrib. Geol., Spec. Pap. No. 1. Univ. Wyo. Press; Laramie, Wyoming.Google Scholar
Western, D. 1973. The structure, dynamics and changes of the Amboseli ecosystem. 385 pp. Unpubl. Ph.D. thesis; Univ. of Nairobi (Zoology), Nairobi.Google Scholar
Western, D. and van Praet, C. 1973. Cyclical changes in the habitat and climate of an East African ecosystem. Nature. 241:104106.CrossRefGoogle Scholar