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Disentangling hominin and carnivore activities near a spring at FLK North (Olduvai Gorge, Tanzania)

Published online by Cambridge University Press:  20 January 2017

M. Domínguez-Rodrigo*
Affiliation:
IDEA (Instituto de Evolución en África), Museo de los Orígenes, Plaza de San Andrés 2, 28005 Madrid, Spain Department of Prehistory, Complutense University, Prof. Aranguren s/n, 28040 Madrid, Spain
A.Z.P. Mabulla
Affiliation:
Archaeology Unit, University of Dar es Salaam, Dar es Salaam, P.O. Box 35050, Tanzania
H.T. Bunn
Affiliation:
Department of Anthropology, University of Wisconsin-Madison, 1180 Observatory Drive, Madison, WI 53706, USA
F. Diez-Martin
Affiliation:
Department of Prehistory and Archaeology, University of Valladolid, Plaza del Campus s/n, 47011 Valladolid, Spain
E. Baquedano
Affiliation:
IDEA (Instituto de Evolución en África), Museo de los Orígenes, Plaza de San Andrés 2, 28005 Madrid, Spain Museo Arqueológico Regional, Plaza de las Bernardas s/n, 28801 Alcalá de Henares, Madrid, Spain
D. Barboni
Affiliation:
CEREGE (UMR6635 CNRS/Université Aix-Marseille), BP80, F-13545 Aix-en-Provence cedex 4, France
R. Barba
Affiliation:
IDEA (Instituto de Evolución en África), Museo de los Orígenes, Plaza de San Andrés 2, 28005 Madrid, Spain
S. Domínguez-Solera
Affiliation:
IDEA (Instituto de Evolución en África), Museo de los Orígenes, Plaza de San Andrés 2, 28005 Madrid, Spain
P. Sánchez
Affiliation:
Department of Prehistory and Archaeology, University of Valladolid, Plaza del Campus s/n, 47011 Valladolid, Spain
G.M. Ashley
Affiliation:
Department of Earth and Planetary Sciences, Rutgers University, 610 Taylor Road, Piscataway, NJ 08854, USA
J. Yravedra
Affiliation:
Department of Prehistory, Complutense University, Prof. Aranguren s/n, 28040 Madrid, Spain
*
*Corresponding author. IDEA (Instituto de Evolución en África), Museo de los Orígenes, Plaza de San Andrés 2, 28005 Madrid, Spain. E-mail address:manueldr@ghis.ucm.es (M. Domínguez-Rodrigo).

Abstract

FLK North is one of the densest concentrations of fossils found in Olduvai Gorge. A recent taphonomic re-evaluation of the collection excavated by Leakey at the site suggests that it was a palimpsest in which most of the animals were accumulated and modified by carnivores. The lithic tools therefore seem to have an independent depositional history from most of the fauna. The present study, based on new excavations, expands the evidence supporting this interpretation and demonstrates a thicker deposit than was reported by Leakey, including new archaeological levels. It also shows that in the few instances where hominins butchered carcasses, meat, not marrow, was their main target. This argues against passive scavenging hypotheses, which emphasize the dietary role of marrow, and instead underscores the importance of meat in the diet of early Pleistocene hominins.

Type
Special Issue Articles
Copyright
University of Washington

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References

Ashley, G.M., Barboni, D., Dominguez-Rodrigo, M., Bunn, H.T., Mabulla, A.Z.P., Diez-Martin, F., Barba, R., and Baquedano, E. Paleoenvironmental and paleoecological reconstruction of a freshwater oasis in savannah grassland at FLK North, Olduvai Gorge, Tanzania. Quaternary Research 74, (2010). 333343.Google Scholar
Ashley, G.M., Dominguez-Rodrigo, M., Mabulla, A.Z.P., Bunn, H.T., Diez-Martin, F., and Baquedano, E. A spring and wooded habitat at FLK Zinj and their relevance to origins of human behavior. Quaternary Research 174, (2010). 304314.Google Scholar
Barboni, D., Ashley, G.A., Dominguez-Rodrigo, M., Mabulla, A.Z.P., Bunn, H.T., and Baquedano, E. Phytoliths infer locally dense and heterogeneous paleo-vegetation at FLK North and surrounding localities during upper Bed I time, Olduvai Gorge, Tanzania. Quaternary Research (2010). (submitted) CrossRefGoogle Scholar
Barba, R., and Domínguez-Rodrigo, M. The taphonomic relevance of the analysis of bovid long limb bone shaft features and their application to element identification: study of bone thickness and morphology of the medullary cavity. Journal of Taphonomy 3, (2005). 1742.Google Scholar
Behrensmeyer, A.K. Patterns of natural bone distribution on recent land surfaces: implications for archaeological site formation. Clutton- Brock, J., and Grigson, C. Animals and archaeology: hunters and their prey. B.A.R. International Series 163, (1983). 93106.Google Scholar
Behrensmeyer, A.K., and Boaz, D. The recent bones of Amboseli Park, Kenya, in relation to East African paleoecology. Behrensmeyer, K., and Hill, A. Fossils in the making. (1980). University of Chicago Press, Chicago. 7292.Google Scholar
Blumenschine, R.J. An experimental model of the timing of hominin and carnivore influence on archaeological bone assemblages. Journal of Archaeological Science 15, (1988). 483502.Google Scholar
Blumenschine, R.J. Percussion marks, tooth marks and the experimental determinations of the timing of hominin and carnivore access to long bones at FLK Zinjanthropus, Olduvai Gorge, Tanzania. Journal of Human Evolution 29, (1995). 2151.Google Scholar
Blumenschine, R.J., and Selvaggio, M.M. Percussion marks on bone surfaces as a new diagnostic of hominin behavior. Nature 333, (1988). 763765.Google Scholar
Blumenschine, R.J., and Selvaggio, M.M. On the marks of marrow bone processing by hammerstones and hyenas: their anatomical patterning and archaeological implications. Clark, J.D. Cultural beginnings: approaches to understanding early hominin life ways in the African savanna. (1991). R. Habelt. Bonn, GMBH. 1732.Google Scholar
Bonnefille, R. Palynological research at Olduvai Gorge. Research Reports n. 17. (1984). National Geographic Society, 227243.Google Scholar
Braun, D.R., Pobiner, B.L., and Thompson, J.C. An experimental investigation of cut mark production and stone tool attrition. Journal of Archaeological Science 5, (2008). 12161223.CrossRefGoogle Scholar
Bunn, H.T. Archaeological evidence for meat-eating by Plio-Pleistocene hominins from Koobi Fora, Kenya. Nature 291, (1981). 574577.CrossRefGoogle Scholar
Bunn, H. T. (1982). Meat-eating and human evolution: studies on the diet and subsistence patterns of Plio-Pleistocene hominids in East Africa. Ph. Dissertation. University of California, Berkeley.Google Scholar
Bunn, H.T. Evidence on the diet and subsistence patterns of Plio-Pleistocene hominids at Koobi Fora, Kenya, and at Olduvai Gorge, Tanzania. Clutton-Brock, J., and Grigson, C. Animals and archaeology: hunters and their prey. B.A.R. International Series 163, (1983). 2130.Google Scholar
Bunn, H.T. Early Pleistocene hominid foraging strategies along the ancestral Omo river at Koobi Fora, Kenya. Journal of Human Evolution 27, (1994). 247266.Google Scholar
Bunn, H.T., Mabulla, A.Z.P., Domínguez-Rodrigo, M., Ashley, G.M., Barba, R., Diez-Martin, F., Remer, K., Yravedra, J., and Baquedano, E. The challenge of FLK North levels 1–2: a classic “living floor” of Oldowan hominins or a taphonomically complex palimpsest dominated by large carnivore feeding behavior?. Quaternary Research (2010). (submitted) Google Scholar
Copeland, S.R. Vegetation and plant food reconstruction of lowermost Bed II, Olduvai Gorgr, using modern analogs. Journal of Human Evolution 53, (2007). 146175.Google Scholar
Delpech, F., and Villa, P. Activités de chasse et boucherie dans la grotte des Eglises. Desse, J., and Audoin-Rouzeau, F. Exploitation des animaux sauvages a travers le Temps. IV, Colloque International de l'Homme et l'Animal. Editions APDCA. (1993). 79102.Google Scholar
Diez-Martin, F., Sanchez, P., Domínguez-Rodrigo, M., Mabulla, A.Z.P., Bunn, H.T., Barba, R., and Baquedano, E. (2010). Battering stone tools at FLK North (Bed I, Olduvai Gorge): their technology and behavioral meaning. Quaternary Research (submitted) Google Scholar
Domínguez-Rodrigo, M. Meat eating by early hominids at FLK Zinj 22 site, Olduvai Gorge, Tanzania: an experimental approach using cut-mark data. Journal of Human Evolution 33, (1997). 669690.Google Scholar
Domínguez-Rodrigo, M. Hunting and scavenging by early humans: the state of the debate. Journal of World Prehistory 16, (2002). 154.CrossRefGoogle Scholar
Domínguez-Rodrigo, M., and Barba, R. New estimates of tooth marks and percussion marks from FLK Zinj, Olduvai Gorge (Tanzania): the carnivore-hominin-carnivore hypothesis falsified. Journal of Human Evolution 50, (2006). 170194.CrossRefGoogle Scholar
Domínguez-Rodrigo, M., Barba, R., and Egeland, C.P. Deconstructing Olduvai. (2007). Springer, New York.Google Scholar
Domínguez-Rodrigo, M., Mabulla, A., Bunn, H.T., Diez-Martín, F., Barba, R., Egeland, C.P., Espílez, E., Egeland, A., Yravedra, J., and Sánchez, P. Unravelling hominid behavior at another anthropogenic site from Olduvai Gorge (Tanzania): new archaeological and taphonomic research at BK, Upper Bed II. Journal of Human Evolution 57, (2009). 260283.Google Scholar
Domínguez-Rodrigo, M., Bunn, H.T., Mabulla, A., Ashley, G.M., Diez-Martín, F., Prendergast, M.E., Yravedra, J., Sánchez, A., and Baquedano, E. New excavations at the FLK Zinjanthropus site and its surrounding landscape and their behavioral interpretations. Quaternary Research 74, (2010). 315332.Google Scholar
Domínguez-Solera, S. An experiment on vertical migration of archaeological materials in clay deposits. Journal of Taphonomy 8, (2010). 6974.Google Scholar
Fernández-Jalvo, Y., Denys, C., Andrews, P., Williams, T., Dauphin, Y., and Humphreys, L. Taphonomy and palaeoecology of Olduvai Bed- I (Pleistocene, Tanzania). Journal of Human Evolution 34, (1998). 137172.CrossRefGoogle Scholar
Hill, A. Disarticulation and scattering of mammal skeletons. Paleobiology 5, (1979). 261274.CrossRefGoogle Scholar
Hill, A., and Behrensmeyer, A.K. Dissarticulation patterns of some modern East African mammals. Paleobiology 10, (1984). 366376.Google Scholar
Leakey, M. Olduvai Gorge, vol. 3. Excavations in Bed I and II, 1960-63. (1971). Cambridge University Press, Cambridge.Google Scholar
Lyman, R. Vertebrate Taphonomy. (1994). Cambridge University Press, Cambridge.Google Scholar
Marean, C.W., Abe, Y., Nilssen, P., and Stone, E. Estimating the minimum number of skeletal elements (MNE) in zooarchaeology: a review and a new image-analysis GIS approach. American Antiquity 66, (2001). 333348.CrossRefGoogle Scholar
Münzel, S.C. Quantitative analysis and archaeological site interpretation. Archaeozoologia 2, (1988). 93110.Google Scholar
Nilssen, P. J. (2000). An actualistic butchery study in South Africa and its implications for reconstructing hominid strategies of carcass acquisition and butchery in the Upper Pleistocene and Plio-Pleistocene. Ph.D. Dissertation. University of Cape Town, Cape Town, South Africa.Google Scholar
Patou-Mathis, M.E., (1984). Contribution a l'étude des mammifères des couches supérieures de la Grotte du Lazaret. M. A. Dissertation, Paris. (unpublished), Université de la Sorbonne.Google Scholar
Patou-Mathis, M.E. La fracturation des os longs de grands mammifères: élaboration d'un lexique et d'une fiche type. Outillage peu élabore en os et en bois de cervidés. Artefacts 1, (1985). 1122.Google Scholar
Pickering, T.R., Marean, C., and Domínguez-Rodrigo, M. Importance of limb bone shaft fragments in zooarchaeology: a response to “On in situ attrition and vertebrate body part profiles” (2002), by M.C. Stiner. Journal of Archaeological Science 30, (2003). 14691482.Google Scholar
Plummer, T.W., and Bishop, L.C. Hominid paleocology at Olduvai Gorge, Tanzania, as indicated by antelope remains. Journal of Human Evolution 27, (1994). 4776.CrossRefGoogle Scholar
Plummer, T.W., Bishop, L.C., Ditchfield, P.W., Ferraro, J.V., Kingston, J.D., and Braun, D. Hominin activities at Kanjera South, Kenya. Braun, D., and Hovers, E. Interdisciplinary approaches to the Oldowan. (2008). Springer, New York. 149160.Google Scholar
Potts, R. Early hominid activities at Olduvai. (1988). Aldine, New York.Google Scholar
Shipman, P., and Harris, J.M. Habitat preference and paleoecology of Australopithecus boisei in Eastern Africa. Grine, F.E. Evolutionary history of the “robust” Australopithecines. (1988). Aldine de Gruyter, New York. 343382.Google Scholar
Yravedra, J., and Domínguez-Rodrigo, M. The shaft-based methodological approach to the quantification of long limb bones and its relevance to understanding hominin subsistence in the Pleistocene: application to four Paleolithic sites. Journal of Quaternary Science 24, (2009). 8596.Google Scholar