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Prehistoric Diet in the Northern Southwest: Macroplant Remains from Four Corners Feces

Published online by Cambridge University Press:  20 January 2017

Paul E. Minnis*
Affiliation:
Department of Anthropology, University of Oklahoma, Norman, OK 73019

Abstract

A large corpus of data on plant remains from prehistoric feces yields patterns of prehistoric Four Corners Anasazi diet. A general stability of plant-food consumption continues from at least the Basketmaker III through Pueblo III periods, with corn being the one consistently common fecal remain. Other agricultural plants—both crops and weeds—are important throughout the region. There is temporal and spatial variation in the types and abundance of macroplant remains recovered from these feces. Temporally distinct assemblages from the same study area are more similar than contemporary assemblages from different areas. This indicates the importance of the local resource structure (both natural and human maintained) as a major factor influencing dietary composition, even within a relatively small region such as the Four Corners of the northern Southwest.

Résumé

Résumé

Un cuerpo grande de datos que tratan de los restos de plantas que se encuentran en las heces dan muestras de la dieta prehistórica de los Anasazi de Four Corners. Una estabilidad general del consumo de plantas continua desde las etapas Basketmaker III hasta Pueblo III. El maiz es el resto fecal que las etapas tienen en común. Otras plantas agrícolas tanto cultivas como hierba, tienen importancia por toda la región. Hay una variación temporal y espacial en los tipos y la abundancia de los restos macroplantas que se han recubierto de estas heces. Asemblajes distintas temporalmente de la misma area de estudios son más similares que los asemblajes contemporáneos que vienen de areas distintas. Esto muestra la importancia de la estructura de los recursos locales (o bien naturales o los mantenidos por los seres) como factor principal que influye la composición dietética aunque dentro de una región relativamente pequeña como la de Four Corners en la parte norte del sudoeste de los Estados Unidos.

Type
Reports
Copyright
Copyright © Society for American Archaeology 1989

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References

References Cited

Adams, K. R. 1980 Pollen, Parched Seeds, and Prehistory : A Pilot Investigation of Prehistoric Plant Remains from Salmon Ruin, A Chacoan Pueblo in Northwestern New Mexico. Contributions in Anthropology No. 9. Eastern New Mexico University, Portales.Google Scholar
Adams, K. R. 1986 A Model to Assess New World Hordeum pusillum (Barley) Characteristics in Natural and Human Habitats. Paper presented at the Ninth Annual Ethnobiological Conference, Albuquerque.Google Scholar
Bartlett, K. 1933 Pueblo Milling Stones of the Flagstaff Region and Their Relation to Others in the Southwest : A Study of Progressive Efficiency. Bulletin No. 3. Museum of Northern Arizona, Flagstaff.Google Scholar
Bayham, F. 1980 Animal Exploitation and Seasonality : Inference from Faunal Data. In Prehistory in Dead Valley, East-Central Arizona : The T. G. & E. Springerville Project, edited by Doyel, D. and Debowski, S., pp. 389399. Archaeological Series No. 144. Arizona State Museum, Tucson.Google Scholar
Bretting, P. 1982 Morphological Differentiation of Proboscidea parviflora subsp. parviflora (Martynaceae) Under Domestication. American Journal of Botany 69 : 1531—1537.CrossRefGoogle Scholar
Brown, D. E. 1982 Biotic Communities of the American Southwest— United States and Mexico. Desert Plants 4(14).Google Scholar
Bryant, V. M. Jr., 1974 The Role of Coprolite Analysis in Archaeology. Bulletin of the Texas Archaeological Society 46 : 87107.Google Scholar
Buskirk, W. 1986 The Western Apache : Living on the Land Before 1950. University of Oklahoma Press, Norman.Google Scholar
Callen, E. O. 1963 Diet as Revealed by Coprolites. In Science in Archaeology, edited by Brothwell, D. and Higgs, E., pp. 186194. Basic Books, New York.Google Scholar
Callen, E. O. 1973 Dietary Patterns in Mexico Between 6500 B. C. and A. D. 1580. In Man and His Foods, edited by Smith, C. E., pp. 2950. University of Alabama Press, University.Google Scholar
Callen, E. O., and Cameron, T. W. M. 1960 A Prehistoric Diet Revealed in Coprolites. The New Scientist 8 : 3537.Google Scholar
Callen, E. O., and Martin, P. S. 1969 Plant Remains in Some Coprolites from Utah. American Antiquity 34 : 329331.Google Scholar
Castetter, E. F., and Bell, W. H. 1951 Yuman Indian Agriculture : Primitive Subsistence on the Lower Colorado and Gila Rivers. University of New Mexico Press, Albuquerque.Google Scholar
Clary, K. H. 1984 Anasazi Diet and Subsistence as Revealed by Coprolites from Chaco Canyon. In Recent Research on Chaco Prehistory, edited by Judge, W. J. and Schelberg, J., pp. 265279.Google Scholar
Clary, K. H. 1984 Reports of the Chaco Center No. 8. National Park Service, Albuquerque. Google Scholar
Colyer, M. n. d. a Macroscopic Constituents of Human and Bear Feces, Step House. Ms. on file, Mesa Verde National Park, Colorado.Google Scholar
Colyer, M. n. d. b Untitled list of remains in coprolites from Mug House. Ms. on file, Mesa Verde National Park, Colorado.Google Scholar
Colyer, M. n. d. c Untitled list of remains in coprolites from Long House. Ms. on file, Mesa Verde National Park, Colorado.Google Scholar
Cordell, S. L. 1984 Prehistory of the Southwest. Academic Press, Orlando.Google Scholar
Cordell, L. S., and Plog, F. 1979 Escaping the Confines of Normative Thought : A Reevaluation of Puebloan Prehistory. American Antiquity 44 : 405429.CrossRefGoogle Scholar
Dean, J. S., Euler, R. C., Gumerman, G. J., Plog, F., Hevley, R., and Karlstrom, T. N. V. 1985 Human Behavior, Demography, and Paleoenvironment on the Colorado Plateaus. American Antiquity 50 : 537554.Google Scholar
Ebeling, W. 1986 Handbook of Indian Foods and Fibers of Arid America. University of California Press, Berkeley.Google Scholar
El Najjar, M. Y., Ryan, D. J., Turner, C. G. II, and Lozoff, B. 1976 The Etiology of Porotic Hyperostosis Among the Prehistoric Anasazi Indians of Southwestern United States. American Journal of Physical Anthropology 44 : 477488.CrossRefGoogle ScholarPubMed
Fish, S. K., Fish, P. K., Miksicek, C., and Madsen, J. 1985 Prehistoric Agave Cultivation in Southern Arizona. Desert Plants 7 : 107113.Google Scholar
Ford, R. I. 1979 Paleoethnobotany in American Archaeology. In Advances in Archaeological Method and Theory, vol. 2, edited by Schiffer, M. B., pp. 285336. Academic Press, New York.Google Scholar
Ford, R. I. 1981 Gardening and Farming Before A. D. 1000 : Patterns of Prehistoric Plant Cultivation North of Mexico. Journal of Ethnobiology 1 : 627.Google Scholar
Fry, G. F. 1970 Prehistoric Human Ecology in Utah Based on the Analysis of Coprolites. Unpublished Ph. D. dissertation, Department of Anthropology, University of Utah, Salt Lake City.Google Scholar
Fry, G. F., and Hall, H. J. 1975 Human Coprolites from Antelope House : Preliminary Analysis. The Kiva 41 : 8796.Google Scholar
Fry, G. F., and Hall, H. J. 1986 Human Coprolites. In Archaeological Investigations at Antelope House, edited by Morris, D. P., pp. 165188. National Park Service, Washington, D. C. Google Scholar
Fry, G. F., and Hall, H. J. n. d. The Analysis of Human Coprolites from Inscription House. Ms. on file, National Park Service, Western Archaeological and Conservation Center, Tucson.Google Scholar
Gasser, R. E. 1981 Hohokam Use of Desert Food Plants. Desert Plants 3 : 216234.Google Scholar
Gasser, R. E. 1982 The Coronado Project Archaeological Investigations : The Specialists Volume. Research Papers No. 23. Museum of Northern Arizona, Flagstaff.Google Scholar
Gasser, R. E., and Adams, E. C. 1981 Aspects of Deterioration of Plant Remains in Archaeological Sites : The Walpi Archaeological Project. Journal of Ethnobiology 1 : 182192.Google Scholar
Gasser, R. E., and Miksicek, C. 1985 The Specialists : A Reappraisal of Hohokam Exchange and the Archaeobotanical Record. In Proceedings of the 1983 Hohokam Symposium, edited by Dittert, A. and Dove, D., pp. 483498. Phoenix Chapter of the Arizona Archaeological Society, Phoenix.Google Scholar
Hall, S. A. 1985 Quaternary Pollen Analysis and Vegetational History of the Southwest. In Pollen Records of Late-Quaternary North American Sediments, edited by Bryant, V. and Holloway, R., pp. 95123. American Association of Stratigraphic Palynologists Foundation, Dallas.Google Scholar
Hard, R. J. 1986 Ecological Relationships Affecting the Rise of Farming Economies : A Test from the American Southwest. Unpublished Ph. D. dissertation, Department of Anthropology, University of New Mexico, Albuquerque.Google Scholar
Heizer, R. F. 1967 Analysis of Human Coprolites from a Dry Nevada Cave. University of California Archaeological Survey Report 70 : 120.Google Scholar
Hooten, E. A. 1930 Indians of Pecos Pueblo. Yale University Press, New Haven.Google Scholar
Hough, W. 1898 Environmental Interrelations in Arizona. American Anthropologist 11 : 133155.CrossRefGoogle Scholar
Huckell, L. W. 1986 Botanical Remains. In The 1985 Excavations at the Hodges Site, Pima County, Arizona, edited by Layhe, R., pp. 241269. Archaeological Series No. 170. Arizona State Museum, Tucson.Google Scholar
Katz, S. H., Hediger, M. L., and Valleroy, L. A. 1974 Traditional Maize Processing Techniques in the New World. Science 184 : 765773.Google Scholar
Kearney, T. H., and Peebles, R. H. 1960 Arizona Flora. University of California Press, Berkeley.CrossRefGoogle Scholar
Keepax, C. 1977 Contamination of Archaeological Deposits by Seeds of Modern Origin with Particular Reference to the Use of Flotation Machines. Journal of Archaeological Sciences 4 : 221229.Google Scholar
Kelso, G. K. 1976 Absolute Pollen Frequencies Applied to the Interpretation of Human Activities. Unpublished Ph. D. dissertation, Department of Anthropology, University of Arizona, Tucson.Google Scholar
Kent, S. 1986 The Influence of Sedentism and Aggregation on Porotic Hyperostosis and Anaemia. Man 2 1 : 605636.Google Scholar
Kirkby, A. V. T. 1973 The Use of Land and Water Resources in the Past and Present Valley of Oaxaca. Memoir No. 5. University of Michigan, Museum of Anthropology, Ann Arbor.Google Scholar
Lancaster, J. W. 1983 An Analysis of Manos and Metates from the Mimbres Valley, New Mexico. Unpublished Masters’ thesis, Department of Anthropology, University of New Mexico.Google Scholar
Lanner, R. M. 1981 The Pihon Pine, A Natural and Cultural History. University of Nevada Press, Reno.Google Scholar
Leonard, R. D. 1986 Patterns ofAnasazi Subsistence : Fauna! Exploitation, Subsistence Diversification, and Site Function in Northeastern Arizona. Unpublished Ph. D. dissertation, Department of Anthropology, University of Washington, Seattle.Google Scholar
Lopinot, N. H., and Brussell, D. E. 1982 Assessing Uncarbonized Seeds from Open-Air Sites in Mesic Environments : An Example from Southern Illinois. Journal of Archaeological Sciences 9 : 95108.CrossRefGoogle Scholar
Marquardt, W. H. 1974 A Statistical Analysis of Constituents in Human Paleofecal Specimens from Mammoth Cave. In Archaeology of Mammoth Cave Area, edited by Watson, P. J., pp. 193202. Academic Press, New York.Google Scholar
Martin, P. S., and Sharrock, F. W. 1964 Pollen Analysis of Prehistoric Human Feces : A New Approach to Ethnobotany. American Antiquity 30 : 168180.Google Scholar
Martin, W. C, and Hutchins, C. R. 1980 A Flora of New Mexico. J. Cramer, Vanduz, New Mexico.Google Scholar
Minnis, P. E. 1978 Paleoethnobotanical Indicators of Prehistoric Environmental Disturbance. In The Nature and State of Ethnobotany, edited by Ford, R., pp. 347366. Anthropological Papers No. 75. University of Michigan, Museum of Anthropology, Ann Arbor.Google Scholar
Minnis, P. E. 1981 Seeds in Archaeological Sites : Sources and Some Interpretive Problems. American Antiquity 46 : 143152.CrossRefGoogle Scholar
Minnis, P. E. 1985 Social Adaptation to Food Stress : A Prehistoric Southwestern Example. University of Chicago Press, Chicago.Google Scholar
Moerman, D. E. 1986 Medicinal Plants of Native America. Technical Reports No. 19. University of Michigan, Museum of Anthropology, Ann Arbor.Google Scholar
Moore, J. F. 1978 Human Coprolites from Standing Fall House, Black Mesa, Arizona. Ms. on file, University of Michigan, Museum of Anthropology, Ethnobotanical Laboratory, Ann Arbor.Google Scholar
Morris, D. P. 1986 Dietary Conclusions. In Archaeological Investigations at Antelope House, edited by Morris, D., pp. 221223. National Park Service, Washington, D. C. Google Scholar
Nabhan, G. P., and Wet, J. M. J. de 1984 Panicum sonorum in Sonoran Desert Agriculture. Economic Botany 38 : 6568.Google Scholar
Nabhan, G. P., and Felger, R. S. 1984 Teparies in Southwestern North America : A Biogeographical and Ethnohistorical Study of Phaseolus acutifolius. Economic Botany 32 : 219.Google Scholar
Nabhan, G. P., Whiting, A., Dobyns, H., Hevly, R., and Euler, R. 1981 Devil's Claw Domestication : Evidence from Southwestern Indian Fields. Journal of Ethnobiology 1 : 135164.Google Scholar
Palkovich, A. M. 1980 Pueblo Population and Society : The Arroyo Hondo Skeleton and Mortuary Remains. School of American Research Press, Santa Fe.Google Scholar
Reinhard, K. J., Ambler, J. R., and McGuffie, M. 1985 Diet and Parasitism at Dust Devil Cave. American Antiquity 50 : 819824.Google Scholar
Sabels, B. E., n. d. Manganese and Phosphorus Abundances in Wetherill Mesa Feces and Soils with Some Implications Concerning the Prehistory of Mesa Verde. Ms. on file, Mesa Verde National Monument, Colorado.Google Scholar
Scott, L. J. 1979 Dietary Inferences from Hoy House Coprolites : A Palynological Interpretation. The Kiva 44 : 257281.Google Scholar
Siegel, S. 1956 Nonparametric Statistics for the Behavioral Sciences. McGraw-Hill, New York.Google Scholar
Sokal, R. R., and Sneath, R. H. A. 1963 Principles of Numerical Taxonomy. W. H. Freeman, San Francisco.Google Scholar