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White-Tailed Deer Meat and Marrow Return Rates and Their Application to Eastern Woodlands Archaeology

Published online by Cambridge University Press:  20 January 2017

T. Cregg Madrigal  and
Julie Zimmermann Holt
T. Cregg Madrigal
Affiliation:
New Jersey Dept. of Environmental Protection, Division of Water Quality, P.O. Box 425, Trenton, NJ 08625-0425
Julie Zimmermann Holt
Affiliation:
Southern Illinois University Edwardsville, Department of Anthropology, Edwardsville, IL 62026-1451
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Abstract

Zooarchaeological hypotheses concerning prehistoric transport, processing decisions, and social stratification are often tested by correlating archaeological element frequencies with indices of the economic utility of carcass parts. Such indices have not been developed for one of the largest and most important mammals in Eastern Woodlands prehistory, the white-tailed deer (Odocoileus virginianus). We present kilocalorie (Kcal) yields and return rates of meat and marrow from a sample of several white-tailed deer. We then compare the meat and marrow data with skeletal element abundance in two Late Archaic assemblages from New York and a Middle Woodland/early Late Woodland assemblage from Illinois. In both examples, archaeological element abundance is positively correlated with marrow yield and return rate, but negatively correlated or uncorrelated with meat yield and return rate. These results do not provide evidence for differential transport of higher meat-yield carcass parts, but instead may indicate differential processing of high-yield marrow bones after entire deer carcasses were transported to the sites.

Résumé

Résumé

A menudo las hipótesis zooarqueológicas sobre transporte prehistórico, decisiones de procesamiento y estratificación social son contrastadas correlacionando las frecuencias de los elementos arqueológicos con los índices de utilidad económica de las partes de una carcasa. Estos índices no han sido desarrollados para el ciervo de cola blanca (Odocoileus virginianus), uno de los más grandes y el más importante mamífero de la prehistoria de las Woodlands Orientales. Aquí presentamos rendimientos kilocalóricos y tasas de retorno de carne y médula para una muestra de varios ciervos de cola blanca. Luego, comparamos los datos sobre carne y médula con la abundancia de elementos esqueletarios en dos conjuntos Arcaico Tardíos de New York y uno Woodland Medio /Woodland Tardío inicial de Illinois. En ambos ejemplos, la abundancia de elementos arqueológicos se correlaciona positivamente con el rendimiento y la tasa de retorno de médula, pero negativamente, o no se correlaciona, con el rendimiento y tasa de retorno de carne. Estos resultados no suministran evidencia a favor del transporte diferencial de partes de mayor rendimiento de carne pero, en cambio, pueden indicar el procesamiento diferencial de huesos de alto rendimiento de médula después que las carcasas enteras de ciervos fueron transportadas a los sitios.

Type
Reports
Information
American Antiquity , Volume 67 , Issue 4 , October 2002 , pp. 745 - 759
Copyright
Copyright © The Society for American Archaeology 2002

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References

References Cited

Binford, L. R. 1978 Nunamiut Ethnoarchaeology. Academic Press, New York.Google Scholar
Binford, L. R. 1981 Bones: Ancient Men and Modem Myths. Academic Press, Orlando, Florida.Google Scholar
Binford, L. R., and Bertram, J. B. 1977 Bone Frequencies—and Attritional Processes. In For Theory Building in Archaeology, edited by Binford, L. R., pp. 77-153. Academic Press, New York.Google Scholar
Blumenschine, R. J. 1988 An Experimental Model of the Timing of Hominid and Carnivore Influence on Archaeological Bone Assemblages. Journal of Archaeological Science 15:483-502.Google Scholar
Blumenschine, R. J., and Caro, T. M. 1986 Unit Flesh Weights of Some East African Bovids. African Journal of Ecology 24:273-286.CrossRefGoogle Scholar
Blumenschine, R. J., and Madrigal, T. C. 1993 Variability in Long Bone Marrow Yields of East African Ungulates and its Zooarchaeological Implications. Journal of Archaeological Science 20:555-587.Google Scholar
Blumenschine, R. J., and Marean, C. W. 1993 A Carnivore's View of Archaeological Bone Assemblages. In From Bones to Behavior: Ethnoarchaeological and Experimental Contributions to the Interpretation of Faunal Remains, edited by Hudson, J., pp. 273-300. Center for Archaeological Investigations, Carbondale, Illinois.Google Scholar
Bogan, A. 1983 Evidence for Faunal Resource Partitioning in an Eastern North American Chiefdom. In Animals and Archaeology. Vol. I, Hunters and Their Prey, edited by Grigson, C. and Clutton-Brock, J., pp. 305-324. British Archaeological Reports, International Series 163, Oxford.Google Scholar
Brain, C. 1981 The Hunters or the Hunted? An Introduction to African Cave Taphonomy. University of Chicago Press, Chicago.Google Scholar
Brooks, P. M., Hanks, J., and Ludbrook, J. 1977 Bone Marrow as an Index of Condition in African Ungulates. South African Journal of Wildlife Research 7:61-66.Google Scholar
Brown, C, Kelley, J., Penman, J., and Sparling, J. 1973 Faunal Analysis of the Cole Quarry Archaic Site. Bulletin of the New York State Archeological Association 58:2540.Google Scholar
Bunn, H.T., and Kroll, E.M. 1986 Systematic Butchery by Plio/Pleistocene Hominids at Olduvai Gorge, Tanzania. Current Anthropology 27:431452.Google Scholar
Emerson, A. 1990 Archaeological Implications of Variability in the Economic Anatomy of Bison bison. Ph.D. dissertation, Department of Anthropology, Washington State University. University Microfilms, Ann Arbor.Google Scholar
Emerson, T. E. 1980 A Stable White-tailed Deer Population Model and its Implications for Interpreting Prehistoric Hunting Patterns. Mid-Continental Journal of Archaeology 5( 1): 117-132.Google Scholar
Gramly, R. M. 1983 Below-the-Watertable Archaeology at Lamoka Lake. North American Archaeologist 4(2): 127-139.Google Scholar
Grayson, D. K. 1989 Bone Transport, Bone Destruction, and Reverse Utility Curves. Journal of Archaeological Science 16:643-652.CrossRefGoogle Scholar
Hayes, C. E III, and Bergs, L. 1969 A Progress Report on an Archaic site on the Farrell Farm: The Cole Gravel Pit 1966-1968. Bulletin of the New York State Archeological Association 47:1-11.Google Scholar
Hickerson, H. 1965 The Virginia Deer and Intertribal Buffer Zones in the Upper Mississippi Valley. Publication 78. In Man, Culture, and Animals, edited by Leeds, A., and Vayda, A., pp. 43-65. American Association for the Advancement of Science, Washington, D.C. Google Scholar
Hill, A. 1979 Butchery and Natural Disarticulation: An Investigatory Technique. American Antiquity 44:739-744.Google Scholar
Holt, J. Z. 1996 AG Church Site Subsistence Remains: The Procurement and Exchange of Plant and Animal Products during the Mississippian Emergence. Illinois Archaeology 8(1-2): 146-180.Google Scholar
Holt, J. Z. 2000 Animal Exploitation and the Middle to Late Woodland Transition: A Comparison of Animal Use at Mound Centers and Hamlets in the Lower and Central Illinois Valleys. Ph.D. dissertation, Department of Anthropology, New York University. University Microfilms, Ann Arbor.Google Scholar
Holt, J. Z. 2002 The Havana Social Structure: Testing Winters’ Model with Faunal Remains from the Baehr-Gust Site. In Papers in Memory of Howard Dalton Winters, edited by Cantwell, A.-M. and Conrad, L. A.. Center for American Archaeology, Kampsville, IL, in press.Google Scholar
Hudson, C. 1976 The Southeastern Indians. The University of Tennessee Press, Knoxville.Google Scholar
Jackson, H. E., and Scott, S. L. 1995 Mississippian Homestead and Village Subsistence Organization: Contrasts in Large Mammal Remains from Two Sites in the Tombigbee Valley. In Mississippian Communities and Households, edited by Rogers, J. D. and Smith, B. D., pp. 181-200. The University of Alabama Press, Tuscaloosa.Google Scholar
Jones, K.T., and Metcalfe, D. 1988 Bare Bones Archaeology: Bone Marrow Indices and Efficiency. Journal of Archaeological Science 15:415423.Google Scholar
Klippel, W E., Snyder, L., and Parmalee, P. W. 1987 Taphonomy and Archaeologically Recovered Mammal Bone from Southeast Missouri. Journal of Ethnobiology 7:155-169.Google Scholar
Kelly, L. S. 1997 Patterns of Faunal Exploitation at Cahokia. In Cahokia: Domination and Ideology in the Mississippian World, edited by Pauketat, T. R. and Emerson, T. E., pp. 69-88. University of Nebraska Press, Lincoln.Google Scholar
Lupo, K. D. 1998 Experimentally Derived Extraction Rates for Marrow: Implications for Body Part Exploitation Strategies of Plio- Pleistocene Hominid Scavengers. Journal of Archaeological Science 25:657-675.Google Scholar
Lyman, R. L. 1984 Bone Density and Differential Survivorship of Fossil Classes. Journal of Anthropological Archaeology 3:259-299.Google Scholar
Lyman, R. L. 1985 Bone Frequencies: Differential Transport, in Situ Destruction, and the MGUI. Journal of Archaeological Science 12:221-236.Google Scholar
Lyman, R. L. 1992 Anatomical Considerations of Utility Curves in Zooarchaeology. Journal of Archaeological Science 19:7-22.Google Scholar
Lyman, R. L. 1994 Vertebrate Taphonomy. Cambridge University Press, Cambridge, U.K. Google Scholar
McCabe, R. E., and McCabe, T. R. 1984 Of Slings and Arrows: An Historical Retrospection. In White-tailed Deer: Ecology and Management, edited by Lowell, K. Halls, pp. 19-72. Stackpole Books, Harrisburg, Pennsylvania.Google Scholar
McCullough, D. R., and Ullrey, D. E. 1983 Proximate Mineral and Gross Energy Composition of White-Tailed Deer. Journal of Wildlife Management 47:430-441.Google Scholar
Madrigal, T. C. 1999 Taphonomy and Zooarchaeology of Late Archaic Hunter-Gatherer Complexity in New York. Ph.D. dissertation, Department of Anthropology, Rutgers University. University Microfilms, Ann Arbor.Google Scholar
Madrigal, T. C, and Capaldo, S. D. 1999 White-Tailed Deer Marrow Yields and Late Archaic Hunter-Gatherers. Journal of Archaeological Science 26:241-249.Google Scholar
Marean, C. W., and Frey, C. J. 1997 Animal Bones from Caves to Cities: Reverse Utility Curves as Methodological Artifacts. American Antiquity 62:698-712.Google Scholar
Marean, C. W, and Spencer, L. M. 1991 Impact of Carnivore Ravaging on Zooarchaeological Measures of Element Abundance. American Antiquity 56:645-658.CrossRefGoogle Scholar
Marean, C. W., Spencer, L. M., Blumenschine, R. J., and Capaldo, S. D. 1992 Captive Hyaena Bone Choice and Destruction, the Schlepp Effect and Olduvai Archaeofaunas. Journal of Archaeological Science 19:101-121.CrossRefGoogle Scholar
Marshall, R, and Pilgram, T. 1991 Meat Versus Within-Bone Nutrients: Another Look at the Meaning of Body Part Representation in Archaeological Sites. Journal of Archaeological Science 18:149-163.Google Scholar
Metcalfe, D., and Barlow, K. R. 1992 A Model for Exploring the Optimal Trade-Off between Field Processing and Transport. American Anthropologist 94:340-356.CrossRefGoogle Scholar
Metcalfe, D., and Jones, K. T. 1987 A Reconsideration of Animal Body Part Utility Indices. American Antiquity 53:486-504.Google Scholar
Moen, A. M., and Severinghaus, C. W. 1981 The Annual Weight Cycle and Survival of White-Tailed Deer in New York. New York Fish and Game Journal 28:162-177.Google Scholar
Morey, D. F., and Klippel, W. E. 1991 Canid Scavenging and Deer Bone Survivorship at an Archaic Period Site in Tennessee. Archaeozoologia 4:11-28.Google Scholar
Munson, P. J. 1991 Mortality Profiles of White-tailed Deer from Archaeological Sites in Eastern North America: Selective Hunting or Taphonomy? In Beamers, Bobwhites, and Blue-Points: Tributes to the Career of Paul W. Parmalee, edited by Purdue, J. R., Klippel, W. E., and Styles, B. W., pp. 139-152. Illinois State Museum Scientific Papers, Vol. 23, Springfield.Google Scholar
Neiland, K. 1970 Weight of Dried Marrow as an Indicator of Fat in Caribou Femurs. Journal of Wildlife Management 34:904907.Google Scholar
New Jersey Department of Environmental Protection 2001 Guidelines for rating deer range and condition in N.J. Electronic document, www.state.nj.us/dep/fgw/dercndthb.htm Google Scholar
O’Connell, J., and Marshall, B. 1989 Analysis of Kangaroo Body Part Transport among the Alyawara of Central Australia. Journal of Archaeological Science 16:39305.Google Scholar
Outram, A., and Rowley-Conwy, P. 1998 Meat and Marrow Utility Indices for Horse (Equus). Journal of Archaeological Science 25:839-849.Google Scholar
Purdue, J. R. 1983 Methods of Determining Sex and Body Size in Prehistoric Samples of White-Tailed Deer (Odocoileus virgini anus). Transactions of the Illinois State Academy of Science 76:351-357.Google Scholar
Purdue, J. R., Styles, B. W., and Masulis, M. C. 1989 Faunal Remains and White-tailed Deer Exploitation from a Late Woodland Upland Encampment: The Boschert Site (23SC609), St. Charles County, Missouri. Midcontinental Journal of Archaeology 14:146-163.Google Scholar
Ritchie, W. A. 1932 The Lamoka Lake Site: The Type Station of the Archaic Algonkin Period in New York. Researches and Transactions of the New York State Archeological Association, Lewis H. Morgan Chapter, Rochester. Google Scholar
Ritchie, W. A. 1969 The Archaeology of New York State. Revised edition. Natural History Press, Garden City, New York.Google Scholar
Sauer, P. R. 1984 Physical Characteristics. In White-Tailed Deer: Ecology and Management, edited by Halls, L. K., pp. 73-90. Stackpole Books, Harrisburg, Pennsylvania.Google Scholar
Savelle, J. M., and Friesen, T. M. 1996 An Odontocete (Cetacea) Meat Utility Index. Journal of Archaeological Science 23:713-721.Google Scholar
Scott, K. M. 1987 Allometry and Habitat-related Adaptations in the Postcranial Skeleton of Cervidae. In Biology and Management of the Cervidae, edited by Wemmer, C., pp. 65-80. Smithsonian Institution Press, Washington, D.C. Google Scholar
Severinghaus, C. 1949 Tooth Development and Wear as Criteria of Age in White-Tailed Deer. Journal of Wildlife Management 13:195-216.Google Scholar
Snyder, J. F. 1962 A Group of Illinois Mounds. In John Francis Snyder: Selected Writings, edited by Walton, C. C., pp. 193-215. The Illinois State Historical Society, Springfield.Google Scholar
Speth, J. D. 1983 Bison Kills and Bone Counts: Decision Making by Ancient Hunters. University of Chicago Press, Chicago.Google Scholar
Styles, B. W., and Purdue, J. R. 1991 Ritual and Secular Use of Fauna by Middle Woodland Peoples in Western Illinois. In Beamers, Bobwhites, and Blue-Points: Tributes to the Career of Paul W. Parmalee, edited by Purdue, J. R., Klippel, W. E., and Styles, B. W., pp. 421-436. Illinois State Museum Scientific Papers, Vol. 23, Springfield.Google Scholar
Swanton, J. R. 1946 The Indians of the Southeastern United States. Bureau of American Ethnology Bulletin No. 137. Smithsonian Institution Press, Washington, D.C. Google Scholar
Thomas, D. H., and Mayer, D. 1983 Behavioral Faunal Analysis of Selected Horizons. In The Archaeology of Monitor Valley 2: Gatecliff Shelter, edited by Thomas, D. H., pp. 353-391. American Museum of Natural History Anthropological Papers 59(1), New York.Google Scholar
Verme, L. J., and Ullrey, D. E. 1984 Physiology and Nutrition. In White-Tailed Deer: Ecology and Management, edited by Halls, L. K., pp. 91-118. Stackpole Books, Harrisburg, Pennsylvania.Google Scholar
Welch, P. D. 1991 Moundville's Economy. University of Alabama Press, Tuscaloosa.Google Scholar
Whitaker, J. O. Jr. 1980 The Audubon Society Field Guide to North American Mammals. Alfred A. Knopf, New York.Google Scholar