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I.1 - Dietary Reconstruction and Nutritional Assessment of Past Peoples: The Bioanthropological Record

from Part I - Determining What Our Ancestors Ate

Published online by Cambridge University Press:  28 March 2008

Kenneth F. Kiple
Affiliation:
Bowling Green State University, Ohio
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Summary

The topics of diet (the foods that are eaten) and nutrition (the way that these foods are used by the body) are central to an understanding of the evolutionary journey of humankind. Virtually every major anatomical change wrought by that journey can be related in one way or another to how foods are acquired and processed by the human body. Indeed, the very fact that our humanlike ancestors had acquired a bipedal manner of walking by some five to eight million years ago is almost certainly related to how they acquired food. Although the role of diet and nutrition in human evolution has generally come under the purview of anthropology, the subject has also been of great interest to scholars in many other disciplines, including the medical and biological sciences, chemistry, economics, history, sociology, psychology, primatology, paleontology, and numerous applied fields (e. g., public health, food technology, government services). Consideration of nutriture, defined as “the state resulting from the balance between supply of nutrition on the one hand and the expenditure of the organism on the other,” can be traced back to the writings of Hippocrates and Celsus and represents an important heritage of earlier human cultures in both the Old and New Worlds (McLaren 1976, quoted in Himes 1987: 86).

The purpose of this chapter is threefold: (1) to present a brief overview of the basic characteristics of human nutriture and the history of human diet; (2) to examine specific means for reconstructing diet from analysis of human skeletal remains; and (3) to review how the quality of nutrition has been assessed in past populations using evidence garnered by many researchers from paleopathological and skeletal studies and from observations of living human beings. (See also Wing and Brown 1979; Huss-Ashmore, Goodman, and Armelagos 1982; Goodman, Martin, et al. 1984; Martin, Goodman, and Armelagos 1985; Ortner and Putschar 1985; Larsen 1987; Cohen 1989; Stuart-Macadam 1989. For a review of experimental evidence and its implications for humans, see Stewart 1975.) Important developments regarding nutrition in living humans are presented in a number of monographic series, including World Review of Nutrition and Dietetics, Annual Review of Nutrition, Nutrition Reviews, and Current Topics in Nutrition and Disease.

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Publisher: Cambridge University Press
Print publication year: 2000

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References

Alvarez, J. O., Eguren, J. C., Caceda, J., and Navia, J. M.. 1990. The effect of nutritional status on the age distribution of dental caries in the primary teeth. Journal of Dental Research 69.CrossRefGoogle ScholarPubMed
Alvarez, J. O., Lewis, Charles A., Saman, Carlos, et al. 1988. Chronic malnutrition, dental caries, and tooth exfoliation in Peruvians aged 3–9 years. American Journal of Clinical Nutrition 48.CrossRefGoogle Scholar
Alvarez, J. O., and Navia, Juan M.. 1989. Nutritional status, tooth eruption, and dental caries: A review. American Journal of Clinical Nutrition 49.CrossRefGoogle ScholarPubMed
Ambrose, Stanley H. 1987. Chemical and isotopic techniques of diet reconstruction in eastern North America. In Emergent horticultural economies of the eastern Woodlands, ed. Keegan, William F.. Center for Archaeological Investigations, Southern Illinois University Occasional Paper No. 7. Carbondale, Ill.Google Scholar
Anderson, James E. 1965. Human skeletons of Tehuacan. Science 148.CrossRefGoogle Scholar
Anderson, James E. 1967. The human skeletons. In The prehistory of the Tehuacan Valley: Vol. 1. Environment and subsistence, ed. Byers, Douglas S.. Austin, Texas.Google Scholar
Angel, J. Lawrence. 1966. Porotic hyperostosis, anemias, malarias, and marshes in the prehistoric eastern Mediterranean. Science 153.CrossRefGoogle ScholarPubMed
Angel, J. Lawrence. 1971. The people of Lerna. Washington, D.C.Google Scholar
Angel, J. Lawrence. 1978. Porotic hyperostosis in the eastern Mediterranean. Medical College of Virginia Quarterly 14.Google Scholar
Angel, J. Lawrence. 1984. Health as a crucial factor in the changes from hunting to developed farming in the eastern Mediterranean. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Armelagos, George J., Carlson, David S., and Gerven, Dennis P.. 1982. The theoretical foundations and development of skeletal biology. In A history of American physical anthropology: 1930–1980, ed. Spencer, Frank. New York.Google Scholar
Arnaud, C. D., Sanchez, S. D.. 1990. The role of calcium in osteoporosis. Annual Review of Nutrition 10.CrossRefGoogle ScholarPubMed
Atkinson, P. J. 1964. Quantitative analysis of cortical bone. Nature 201.CrossRefGoogle ScholarPubMed
Aufderheide, Arthur C. 1989. Chemical analysis of skeletal remains. In Reconstruction of life from the skeleton, ed. Iscan, Mehmet Yasar and Kennedy, Kenneth A. R.. New York.Google Scholar
Bada, J. L., Schoeninger, M. J., and Schimmelmann, A.. 1989. Isotopic fractionation during peptide bond hydrolysis. Geochimica et Cosmochimica Acta 53.CrossRefGoogle Scholar
Barrett, M. J., and Brown, T.. 1966. Eruption of deciduous teeth in Australian aborigines. Australian Dental Journal 11.CrossRefGoogle ScholarPubMed
Baynes, R. D., and Bothwell, T. H.. 1990. Iron deficiency. Annual Review of Nutrition 10.CrossRefGoogle ScholarPubMed
Benfer, Robert A., and Edwards, Daniel S.. 1991. The principal axis method for measuring rate and amount of dental attrition: Estimating juvenile or adult tooth wear from unaged adult teeth. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Bennike, Pia. 1985. Palaeopathology of Danish skeletons. Copenhagen.Google Scholar
Blakely, Robert L., and Mathews, David S.. 1990. Bioarchaeological evidence for a Spanish-Native American conflict in the sixteenth-century Southeast. American Antiquity 55.CrossRefGoogle Scholar
Bogin, Barry. 1988. Patterns of human growth. New York.Google Scholar
Bray, Francesca. 1989. The rice economies: Technology and development in Asian societies. Cambridge, Mass.Google Scholar
Brothwell, Don R. 1963. The macroscopic dental pathology of some earlier human populations. In Dental anthropology, ed. Brothwell, D. R.. New York.Google Scholar
Brown, Antoinette B. 1988. Diet and nutritional stress. In The King site: Continuity and contact in sixteenth century Georgia, ed. Blakely, Robert L.. Athens, Ga.Google Scholar
Buikstra, Jane E. 1976. Hopewell in the lower Illinois River Valley: A regional approach to the study of biological variability and mortuary activity. Northwestern University Archaeological Program, Scientific Papers No. 2.Google Scholar
Buikstra, Jane E., Konigsberg, Lyle W., and Bullington, Jill. 1986. Fertility and the development of agriculture in the prehistoric Midwest. American Antiquity 51.CrossRefGoogle Scholar
Buikstra, Jane E., and Mielke, James H.. 1985. Demography, diet, and health. In The analysis of prehistoric diets, ed. Gilbert, Robert I. Jr., and Mielke, James H.. Orlando, Fla.Google Scholar
Bumsted, M. Pamela. 1985. Past human behavior from bone chemical analysis: Respects and prospects. Journal of Human Evolution 14.CrossRefGoogle Scholar
Burr, D. B., Martin, R. B.. 1983. The effects of composition, structure and age on the torsional properties of the human radius. Journal of Biomechanics 16.CrossRefGoogle ScholarPubMed
Burr, D. B., Ruff, Christopher B., and Thompson, David D.. 1990. Patterns of skeletal histologic change through time: Comparison of an archaic Native American population with modern populations. The Anatomical Record 226.CrossRefGoogle ScholarPubMed
Burton, J. H., Price, T. D.. 1990. The ratio of barium to strontium as a paleodietary indicator of consumption of marine resources. Journal of Archaeological Science 17.CrossRefGoogle Scholar
Calcagno, James M., and Gibson, Kathleen R.. 1991. Selective compromise: Evolutionary trends and mechanisms in hominid tooth size. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Carlson, D. S., Armelagos, George J., and Gerven, Dennis P.. 1974. Factors influencing the etiology of cribra orbitalia in prehistoric Nubia. Journal of Human Evolution 3.CrossRefGoogle Scholar
Carlson, D. S., and Gerven, Dennis P.. 1977. Masticatory function and post-Pleistocene evolution in Nubia. American Journal of Physical Anthropology 46.CrossRefGoogle ScholarPubMed
Carlson, D. S., and Gerven, Dennis P.. 1979. Diffusion, biological determinism, and biocultural adaptation in the Nubian Corridor. American Anthropologist 81.CrossRefGoogle Scholar
Cassidy, Clair. Monod. 1984. Skeletal evidence for prehistoric subsistence adaptation in the central Ohio River Valley. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Cohen, Mark Nathan. 1989. Health and the rise of civilization. New Haven, Conn.Google Scholar
Cohen, Mark Nathan, and Armelagos, George J.. 1984. Paleopathology at the origins of agriculture: Editors' summation. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Condon, K. W. 1981. The correspondence of developmental enamel defects between the mandibular canine and first premolar. American Journal of Physical Anthropology 54.Google Scholar
Cook, Della Collins. 1984. Subsistence and health in the lower Illinois Valley: Osteological evidence. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Cook, Della Collins. 1990. Epidemiology of circular caries: A perspective from prehistoric skeletons. In A life in science: Papers in honor of J. Lawrence Angel, ed. Buikstra, Jane E.. Center for American Archeology, Scientific Papers No. 6. Kampsville, Ill.Google Scholar
Corruccini, Robert S. 1991. Anthropological aspects of orofacial and occlusal variations and anomalies. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Corruccini, Robert S., Handler, Jerome S., and Jacobi, Keith P.. 1985. Chronological distribution of enamel hypoplasias and weaning in a Caribbean slave population. Human Biology 57.Google Scholar
Cutress, T. W., Suckling, G. W.. 1982. The assessment of non-carious defects of the enamel. International Dental Journal 32.Google ScholarPubMed
Cybulski, Jerome S. 1977. Cribra orbitalia, a possible sign of anemia in early historic native populations of the British Columbia coast. American Journal of Physical Anthropology 47.CrossRefGoogle ScholarPubMed
El-Najjar, Mahmoud Y. 1977. Maize, malaria and the anemias in the pre-Columbian New World. Yearbook of Physical Anthropology 20.Google Scholar
Eveleth, Phyllis B., and Tanner, James M.. 1976. World-wide variation in human growth. Cambridge.Google Scholar
Evers, Susan E., Orchard, John W., and Haddad, Richard G.. 1985. Bone density in postmenopausal North American Indian and Caucasian females. Human Biology 57.Google ScholarPubMed
,FAO (Food and Agricultural Organization). 1970. Amino-acid content of foods and biological data on proteins. Rome.
Foley, Robert, and Cruwys, Elizabeth. 1986. Dental anthropology: Problems and perspectives. In Teeth and anthropology, ed. Cruwys, E. and Foley, R. A.. BAR International Series 291. Oxford.Google Scholar
Fomon, S. J., Haschke, F., Ziegler, E. E., and Nelson, S. E.. 1982. Body composition of children from birth to age 10 years. American Journal of Clinical Nutrition 35.CrossRefGoogle ScholarPubMed
Frayer, David W. 1988. Caries and oral pathologies at the Mesolithic sites of Muge: Cabeço da Arruda and Moita do Sebastiao. Trabalhos de Antropologia e Etnologia (Portugal) 27.Google Scholar
Freeman, Leslie G. 1981. The fat of the land: Notes on Paleolithic diet in Iberia. In Omnivorous primates: Gathering and hunting in human evolution, ed. Harding, Robert S. O. and Teleki, Geza. New York.Google Scholar
Frisancho, A. Roberto. 1978. Nutritional influences on human growth and maturation. Yearbook of Physical Anthropology 21.Google Scholar
Frisancho, A. Roberto. 1979. Human adaptation: A functional interpretation. St. Louis, Mo.Google Scholar
Gabr, Mamdouh. 1987. Undernutrition and quality of life. In Nutrition and the quality of life, ed. Bourne, G. H.. World Review of Nutrition and Dietetics 49.CrossRefGoogle ScholarPubMed
Galinat, Walton C. 1985. Domestication and diffusion of maize. In Prehistoric food production in North America, ed. Ford, Richard I.. University of Michigan, Museum of Anthropology, Anthropological Papers No. 75. Ann Arbor.Google Scholar
Garn, Stanley M., and Burdi, Alponse R.. 1971. Prenatal ordering and postnatal sequence in dental development. Journal of Dental Research 50.CrossRefGoogle ScholarPubMed
Garn, Stanley M., and Clark, D. C.. 1975. Nutrition, growth, development, and maturation: Findings from the Ten State Nutrition Survey of 1968–1970. Pediatrics 56.Google ScholarPubMed
Garn, Stanley, Lewis, A. B., and Polacheck, D. L.. 1960. Interrelations in dental development. I. Interrelationships within the dentition. Journal of Dental Research 39.CrossRefGoogle ScholarPubMed
Garn, Stanley, Osborne, R. H., and McCabe, K. D.. 1979. The effect of prenatal factors on crown dimensions. American Journal of Physical Anthropology 51.CrossRefGoogle ScholarPubMed
Garn, Stanley, Owen, G. M., and Clark, D. C.. 1974. Ascorbic acid: The vitamin of affluence. Ecology of Food and Nutrition 3.CrossRefGoogle Scholar
Garn, Stanley, Rohmann, C. G., Behar, M., et al. 1964. Compact bone deficiency in protein-calorie malnutrition. Science 145.CrossRefGoogle ScholarPubMed
Garn, Stanley, Silverman, Frederic N., Hertzog, Keith P., and Rohmann, Christabel G.. 1968. Lines and bands of increased density. Medical Radiography and Photography 44.Google ScholarPubMed
Goodman, Alan H. 1988. The chronology of enamel hypoplasias in an industrial population: A reappraisal of Sarnat and Schour (1941, 1942). Human Biology 60.Google Scholar
Goodman, Alan H., Armelagos, George J., and Rose, Jerome C.. 1980. Enamel hypoplasias as indicators of stress in three prehistoric populations from Illinois. Human Biology 52.Google ScholarPubMed
Goodman, Alan H., and Clark, George A.. 1981. Harris lines as indicators of stress in prehistoric Illinois populations. In Biocultural adaption: Comprehensive approaches to skeletal analysis, ed. Martin, Debra L. and Bumsted, M. Pamela. University of Massachusetts, Department of Anthropology, Research Report No. 20. Amherst, Mass.Google Scholar
Goodman, Alan H., Lallo, John, Armelagos, George J., and Rose, Jerome C.. 1984. Health changes at Dickson Mounds, Illinois (A.D. 950–1300). In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Goodman, Alan H., Martin, Debra L., Armelagos, George J., and Clark, George. 1984. Indications of stress from bones and teeth. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Goodman, Alan H., and Rose, Jerome C.. 1990. Assessment of systemic physiological perturbations from dental enamel hypoplasias and associated histological structures. Yearbook of Physical Anthropology 33.CrossRefGoogle Scholar
Goodman, Alan H., and Rose, Jerome C.. 1991. Dental enamel hypoplasias as indicators of nutritional status. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Gordon, Kathleen D. 1987. Evolutionary perspectives on human diet. In Nutritional anthropology, ed. Johnston, Francis E.. New York.Google Scholar
Gracey, Michael. 1987. Normal growth and nutrition. In Nutrition and the quality of life, ed. Bourne, G. H.. World Review of Nutrition and Dietetics 49.CrossRefGoogle ScholarPubMed
Grine, F. E., Gwinnett, A. J., and Oaks, J. H.. 1990. Early hominid dental pathology: Interproximal caries in 1.5 million-year-old Paranthropus robustus from Swartkrans. Archives of Oral Biology 35.CrossRefGoogle ScholarPubMed
Grupe, Gisela, Piepenbrink, Hermann, and Schoeninger, Margaret J.. 1989. Note on microbial influence on stable carbon and nitrogen isotopes in bone. Applied Geochemistry 4.CrossRefGoogle Scholar
Guagliardo, Mark F. 1982. Tooth crown size differences between age groups: A possible new indicator of stress in skeletal samples. American Journal of Physical Anthropology 58.CrossRefGoogle ScholarPubMed
Hallberg, Leif. 1981. Bioavailability of dietary iron in man. Annual Review of Nutrition 1.CrossRefGoogle ScholarPubMed
Harrison, G. A., Tanner, J. M., Pilbeam, D. R., and Baker, P. T.. 1988. Human biology: An introduction to human evolution, variation, growth, and adaptability. Third edition. New York.Google Scholar
Hartnady, Philip, and Rose, Jerome C.. 1991. Abnormal toothloss patterns among Archaic-period inhabitants of the lower Pecos region, Texas. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Hausman, Alice J., and Wilmsen, Edwin N.. 1985. Economic change and secular trends in the growth of San children. Human Biology 57.Google ScholarPubMed
Heaney, Robert P. 1993. Nutritional factors in osteoporosis. Annual Review of Nutrition 13.CrossRefGoogle ScholarPubMed
Hengen, O. P. 1971. Cribra orbitalia: Pathogenesis and probable etiology. Homo 22.Google Scholar
Hill, M. Cassandra, and Armelagos, George J.. 1990. Porotic hyperostosis in past and present perspective. In A life in science: Papers in honor of J. Lawrence Angel, ed. Buikstra, Jane E.. Center for American Archeology, Scientific Papers No. 6. Kampville, Ill.Google Scholar
Hillson, Simon. 1986. Teeth. Cambridge.Google ScholarPubMed
Himes, John H. 1987. Purposeful assessment of nutritional status. In Nutritional anthropology, ed. Johnston, Francis E.. New York.Google Scholar
Himes, John H., Martorell, R., Habicht, J.-P., et al. 1975. Patterns of cortical bone growth in moderately malnourished preschool children. Human Biology 47.Google ScholarPubMed
Hinton, Robert J. 1981. Form and patterning of anterior tooth wear among aboriginal human groups. American Journal of Physical Anthropology 54.CrossRefGoogle ScholarPubMed
Hinton, Robert J., Smith, Maria Ostendorf, and Smith, Fred H.. 1980. Tooth size changes in prehistoric Tennessee Indians. Human Biology 52.Google ScholarPubMed
Howell, F. Clark. 1966. Observations on the earlier phases of the European Lower Paleolithic. American Anthropologist 68.Google Scholar
Howell, F. Clark. 1970. Early Man. New York.Google Scholar
Howell, F. Clark, and Freeman, Leslie G.. 1982. Ambrona: An Early Stone Age site on the Spanish Meseta. L. S. B. Leakey Foundation News No. 32.Google Scholar
Hrdlička, Aleš. 1914. Anthropological work in Peru in 1913, with notes on the pathology of the ancient Peruvians. Smithsonian Miscellaneous Collections 61, No. 18. Washington, D.C.Google Scholar
Hummert, James R., and Gerven, Dennis P.. 1983. Skeletal growth in a medieval population from Sudanese Nubia. American Journal of Physical Anthropology 60.CrossRefGoogle Scholar
Huss-Ashmore, Rebecca, Goodman, Alan H., and Armelagos, George J.. 1982. Nutritional inference from paleopathology. Advances in Archeological Method and Theory 5.Google Scholar
Hutchinson, Dale L., and Larsen, Clark Spencer. 1988. Stress and lifeway change: The evidence from enamel hypoplasias. In The archaeology of mission Santa Catalina de Guale: 2. Biocultural interpretations of a population in transition, ed. Larsen, Clark Spencer. Anthropological Papers of the American Museum of Natural History No. 68. New York.Google Scholar
Inoue, N., Ito, G., and Kamegai, T.. 1986. Dental pathology of hunter-gatherers and early farmers in prehistoric Japan. In Prehistoric hunter gatherers in Japan: New research methods, ed. Akazawa, Takeru and Aikens, C. Melvin. University of Tokyo, University Museum, Bulletin No. 27. Tokyo.Google Scholar
Jantz, Richard L., and Owsley, Douglas W.. 1984. Long bone growth variation among Arikara skeletal populations. American Journal of Physical Anthropology 63.CrossRefGoogle ScholarPubMed
Johnston, Francis E. 1986. Somatic growth of the infant and preschool child. In Human growth, Vol. 2, ed. Falkner, F. and Tanner, J. M.. New York.Google Scholar
Jones, P. R. M., and Dean, R. F. A.. 1959. The effects of kwashiorkor on the development of the bones of the knee. Journal of Pediatrics 54.CrossRefGoogle Scholar
Katz, Solomon H. 1987. Food and biocultural evolution: A model for the investigation of modern nutritional problems. In Nutritional anthropology, ed. Johnston, Francis E.. New York.Google Scholar
Katz, Solomon H., Hediger, M. L., and Valleroy, L. A.. 1974. Traditional maize processing techniques in the New World. Science 184.CrossRefGoogle ScholarPubMed
Katz, Solomon H., Hediger, M. L., and Valleroy, L. A.. 1975. The anthropological and nutritional significance of traditional maize processing techniques in the New World. In Biosocial interrelations in population adaption, ed. Watts, Elizabeth S., Johnston, Francis E., and Lasker, Gabriel. The Hague.Google Scholar
Keegan, William F. 1989. Stable isotope analysis of prehistoric diet. In Reconstruction of life from the skeleton, ed. Iscan, Mehmet Yasar and Kennedy, Kenneth A. R.. New York.Google Scholar
Kelley, Marc A., Levesque, Dianne R., and Weidl, Eric. 1991. Contrasting patterns of dental disease in five early northern Chilean groups. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Kennedy, Kenneth A. R. 1984. Growth, nutrition, and pathology in changing paleodemographic settings in South Asia. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Kent, Susan. 1986. The influence of sedentism and aggregation on porotic hyperostosis and anaemia: A case study. Man 21.CrossRefGoogle Scholar
Kimura, Kunihiko. 1984. Studies on growth and development in Japan. Yearbook of Physical Anthropology 27.CrossRefGoogle Scholar
Klein, Richard G. 1987. Problems and prospects in understanding how early people exploited animals. In The evolution of human hunting, ed. Netecki, M. H. and Netecki, D. V.. New York.Google Scholar
Klein, Richard G. 1989. The human career: Human biological and cultural origins. Chicago.Google Scholar
Klepinger, Linda L. 1984. Nutritional assessment from bone. Annual Review of Anthropology 13.CrossRefGoogle Scholar
Krouse, R. H. 1987. Sulphur and carbon isotope studies of food chains. In Diet and subsistence: Current archaeological perspectives, ed. Kennedy, B. V. and LeMoine, G. M.. University of Calgary Archaeological Association, Proceedings of the 19th Annual Conference. Calgary, Alberta.Google Scholar
Larsen, Clark Spencer. 1982. The anthropology of St. Catherines Island: 1. Prehistoric human biological adaptation. Anthropological Papers of the American Museum of Natural History No. 57 (part 3). New York.Google Scholar
Larsen, Clark Spencer. 1983. Deciduous tooth size and subsistence change in prehistoric Georgia coast populations. Current Anthropology 24.CrossRefGoogle Scholar
Larsen, Clark Spencer. 1987. Bioarchaeological interpretations of subsistence economy and behavior from human skeletal remains. Advances in Archaeological Method and Theory 10.CrossRefGoogle Scholar
Larsen, Clark Spencer, Ruff, Christopher B., Schoeninger, Margaret J., and Hutchinson, Dale L.. 1992. Population decline and extinction in La Florida. In Disease and demography in the Americas: Changing patterns before and after 1492, ed. Ubelaker, Douglas H. and Verano, John W.. Washington, D.C.Google Scholar
Larsen, Clark Spencer, Schoeninger, Margaret J., Hutchinson, Dale L., et al. 1990. Beyond demographic collapse: Biological adaptation and change in native populations of La Florida. In Columbian consequences, Vol 2: Archaeological and historical perspectives on the Spanish borderlands east, ed. Thomas, David Hurst. Washington, D.C.Google Scholar
Larsen, Clark Spencer, Shavit, Rebecca, and Griffin, Mark C.. 1991. Dental caries evidence for dietary change: An archaeological context. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Layrisse, Miguel, Martinez-Torres, Carlos, and Roche, Marcel. 1968. Effect of interaction of various foods on iron absorption. American Journal of Clinical Nutrition 21.CrossRefGoogle ScholarPubMed
Lindsay, Robert, and Cosman, Felicia. 1992. Primary osteoporosis. In Disorders of bone and primary metabolism, ed. Coe, Frederic L. and Favus, Murray J.. New York.Google Scholar
Lovejoy, C. Owen, Russell, Katherine F., and Harrison, Mary L.. 1990. Long bone growth velocity in the Libben population. American Journal of Human Biology 2.CrossRefGoogle ScholarPubMed
Maat, G. J. R. 1982. Scurvy in Dutch whalers buried at Spitsbergen. Paleopathology Association, Papers on Paleopathology, Fourth European Members Meeting, ed. Cockburn, Eve, 8. Detroit, Mich.Google Scholar
Malina, Robert M. 1987. Nutrition and growth. In Nutritional anthropology, ed. Johnston, Francis E.. New York.Google Scholar
Mann, Alan E. 1981. Diet and human evolution. In Omnivorous primates: Gathering and hunting in human evolution, ed. Harding, Robert S. O. and Teleki, Geza. New York.Google Scholar
Martin, Debra L., and Armelagos, George J.. 1985. Skeletal remodeling and mineralization as indicators of health: An example from prehistoric Sudanese Nubia. Journal of Human Evolution 14.CrossRefGoogle Scholar
Martin, Debra L., Goodman, Alan H., and Armelagos, George J.. 1985. Skeletal pathologies as indicators of quality and quantity of diet. In The analysis of prehistoric diets, ed. Gilbert, Robert I. Jr., and Mielke, James H.. Orlando, Fla.Google Scholar
McElroy, Ann, and Townsend, Patricia K.. 1979. Medical Anthropology. Belmont, Calif.Google Scholar
McGregor, I. A., Thomson, A. M., and Billewicz, W. Z.. 1968. The development of primary teeth in children from a group of Gambian villages and critical examination of its use for estimating age. British Journal of Nutrition 22.CrossRefGoogle ScholarPubMed
McHenry, Henry. 1968. Transverse lines in long bones of prehistoric California Indians. American Journal of Physical Anthropology 29.CrossRefGoogle ScholarPubMed
McLaren, Donald S. 1976. Nutrition in the community. New York.Google Scholar
Meiklejohn, Christopher, , Catherine Schentag, Venema, Alexandra, and Key, Patrick. 1984. Socioeconomic change and patterns of pathology and variation in the Mesolithic and Neolithic of western Europe: Some suggestions. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Mensforth, Robert P., Lovejoy, C. Owen, Lallo, John W., and Armelagos, George J.. 1978. The role of constitutional factors, diet, and infectious disease in the etiology of porotic hyperostosis and periosteal reactions in prehistoric infants and children. Medical Anthropology 2.CrossRefGoogle ScholarPubMed
Merchant, Virginia L., and Ubelaker, Douglas H.. 1977. Skeletal growth of the protohistoric Arikara. American Journal of Physical Anthropology 46.CrossRefGoogle ScholarPubMed
Milner, George R. 1984. Dental caries in the permanent dentition of a Mississippian period population from the American Midwest. Collegium Antropologicum 8.Google Scholar
Milner, George R., Humpf, Dorothy A., and Harpending, Henry C.. 1989. Pattern matching of age-at-death distributions in paleodemographic analysis. American Journal of Physical Anthropology 80.CrossRefGoogle ScholarPubMed
Moller-Christiansen, V. 1958. Bogen om Aebelholt Kloster. Copenhagen.Google Scholar
Molnar, Stephen, and Molnar, I. M.. 1985. The incidence of enamel hypoplasia among the Krapina Neanderthals. American Anthropologist 87.CrossRefGoogle Scholar
Molnar, Stephen. 1972. Tooth wear and culture: A survey of tooth functions among some prehistoric populations. Current Anthropology 13.CrossRefGoogle Scholar
Moore, K. P., Thorp, S., and Gerven, D. P.. 1986. Pattern of dental eruption, skeletal maturation and stress in a medieval population from Sudanese Nubia. Human Evolution 1.CrossRefGoogle Scholar
Mottram, R. F. 1979. Human nutrition. Third edition. Westport, Conn.Google Scholar
Newbrun, Ernest. 1982. Sugar and dental caries: A review of human studies. Science 217.CrossRefGoogle ScholarPubMed
Nordin, B. E. C. 1973. Metabolic bone and stone disease. Baltimore, Md.Google Scholar
Ogilvie, Marsha D., Curran, Bryan K., and Trinkaus, Erik. 1989. Incidence and patterning of dental enamel hypoplasia among the Neanderthals. American Journal of Physical Anthropology 79.CrossRefGoogle Scholar
Ortner, Donald J., and Putschar, Walter G. J.. 1985. Identification of pathological conditions in the human skeletal remains. Washington, D.C.Google Scholar
Owsley, Douglas W., and Jantz, Richard L.. 1985. Long bone lengths and gestational age distributions of post-contact period Arikara Indian perinatal infant skeletons. American Journal of Physical Anthropology 68.CrossRefGoogle ScholarPubMed
Patterson, David Kingsnorth Jr. 1984. A diochronic study of dental palaeopathology and attritional status of prehistoric Ontario pre-Iroquois and Iroquois populations. Archaeological Survey of Canada, Paper No. 122. Ottawa.CrossRefGoogle Scholar
Powell, Mary Lucas. 1985. The analysis of dental wear and caries for dietary reconstruction. In The analysis of prehistoric diets, ed. Gilbert, Robert I. Jr., and Mielke, James H.. Orlando, Fla.Google Scholar
Powell, Mary Lucas. 1990. On the eve of the conquest: Life and death at Irene Mound, Georgia. In The archaeology of mission Santa Catalina de Guale: 2. Biocultural interpretations of a population in transition, ed. Larsen, Clark Spencer. Anthropological Papers of the American Museum of Natural History No. 68. New York.Google Scholar
Price, T. Douglas. 1985. Late archaic subsistence in the midwestern United States. Journal of Human Evolution 14.CrossRefGoogle Scholar
Roe, Daphne A. 1973. A plague of corn: The social history of pellagra. Ithaca, N.Y.Google Scholar
Rose, Jerome C., Armelagos, George J., and Lallo, John W.. 1978. Histological enamel indicator of childhood stress in prehistoric skeletal samples. American Journal of Physical Anthropology 49.CrossRefGoogle ScholarPubMed
Rose, Jerome C., Burnett, Barbara A., Nassaney, Michael S., and Blaeuer, Mark W.. 1984. Paleopathology and the origins of maize agriculture in the lower Mississippi Valley and Caddoan areas. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Rose, Jerome C., Condon, Keith W., and Goodman, Alan H.. 1985. Diet and dentition: Developmental disturbances. In The analysis of prehistoric diets, ed. Gilbert, Robert I. Jr., and Mielke, J. H.. Orlando, Fla.Google Scholar
Rose, Jerome C., Marks, Murray K., and Tieszen, Larry L.. 1991. Bioarchaeology and subsistence in the central and lower portions of the Mississippi Valley. In What mean these bones? Integrated studies in southeastern bioarchaeology, ed. Powell, Mary Lucas, Bridges, Patricia S., and Mires, Ann Marie. Tuscaloosa, Ala.Google Scholar
Ross, Harold M. 1976. Bush fallow farming, diet and nutrition: A Melanesian example of successful adaptation. In The measures of man: Methodologies in biological anthropology, ed. Giles, Eugene and Friedlaender, Jonathan S.. Cambridge, Mass.Google Scholar
Ruff, Christopher, and Hayes, Wilson C.. 1982. Subperiosteal expansion and cortical remodeling of the human femur and tibia with aging. Science 217.CrossRefGoogle ScholarPubMed
Ruff, Christopher, and Larsen, Clark Spencer. 1990. Postcranial biomechanical adaptations to subsistence strategy changes on the Georgia coast. In The archaeology of mission Santa Catalina de Guale: 2. Biocultural interpretations of a population in transition, ed. Larsen, Clark Spencer. Anthropological Papers of the American Museum of Natural History No. 68. New York.Google Scholar
Ruff, Christopher. 1991. Biomechanical analyses of archaeological human skeletal samples. In The skeletal biology of past peoples: Advances in research methods, ed. Saunders, Shelley R. and Katzenberg, Mary A.. New York.Google Scholar
Russell, Katherine F., Choi, Inui, and Larsen, Clark Spencer. 1990. The paleodemography of Santa Catalina de Guale. In The archaeology of mission Santa Catalina de Guale: 2. Biocultural interpretations of a population in transition, ed. Larsen, Clark Spencer. Anthropological Papers of the American Museum of Natural History No. 68. New York.Google Scholar
Sandford, Mary K., ed. 1993. Investigations of ancient human tissue: Chemical analyses in anthropology. Langhorne, Pa.Google Scholar
Sarnat, B. G., and Schour, I.. 1941. Enamel hypoplasias (chronic enamel aplasia) in relationship to systemic diseases: A chronologic, morphologic, and etiologic classification. Journal of the American Dental Association 28.CrossRefGoogle Scholar
Schaafsma, G., Beresteyn, E. C. H., Raymakers, J. A., and Duursma, S. A.. 1987. Nutritional aspects of osteoporosis. In Nutrition and the quality of life, ed. Bourne, G. H.. World Review of Nutrition and Dietetics 49.CrossRefGoogle Scholar
Schoeninger, Margaret J. 1989. Reconstructing prehistoric human diet. In Chemistry of prehistoric human bone, ed. Price, T. Douglas. New York.Google Scholar
Schoeninger, Margaret J., and DeNiro, Michael J.. 1984. Nitrogen and carbon isotopic composition of bone collagen from marine and terrestrial animals. Geochimica et Cosmochimica Acta 48.CrossRefGoogle Scholar
Schoeninger, Margaret J., Moore, Katherine M., Murray, Matthew L., and Kingston, John D.. 1989. Detection of bone preservation in archaeological and fossil samples. Applied Geochemistry 4.CrossRefGoogle Scholar
Schoeninger, Margaret J., and Peebles, C. S.. 1981. Effects of mollusk eating on human bone strontium levels. Journal of Archaeological Science 8.CrossRefGoogle Scholar
Schoeninger, Margaret J., Merwe, Nikolaas J., and Moore, Katherine. 1990. Decrease in diet quality between the prehistoric and contact periods. In The archaeology of mission Santa Catalina de Guale: 2. Biocultural interpretations of a population in transition, ed. Larsen, Clark Spencer. Anthropological Papers of the American Museum of Natural History No. 68. New York.Google Scholar
Sciulli, Paul W. 1978. Developmental abnormalities of the permanent dentition in prehistoric Ohio Valley Amerindians. American Journal of Physical Anthropology 48.CrossRefGoogle Scholar
Scott, G. Richard, and Turner, Christy G. II. 1988. Dental anthropology. Annual Review of Anthropology 17.CrossRefGoogle Scholar
Scrimshaw, N. S., Taylor, C. E., and Gordon, J. E.. 1968. Interaction of nutrition and infection. World Health Organization Monograph 57. Geneva.Google Scholar
Sealy, Judith. 1986. Stable carbon isotopes and prehistoric diets in the south-western Cape Province, South Africa. Cambridge Monographs in African Archaeology 15, BAR International Series 293. Oxford.Google Scholar
Shipman, Pat, Bosler, Wendy, and Davis, Karen Lee. 1981. Butchering of giant geladas at an Acheulian site. Current Anthropology 22.CrossRefGoogle Scholar
Shipman, Pat. 1986a. Scavenging or hunting in early hominids: Theoretical framework and tests. American Anthropologist 88.CrossRefGoogle Scholar
Shipman, Pat. 1986b. Studies of hominid-faunal interactions at Olduvai Gorge. Journal of Human Evolution 15.CrossRefGoogle Scholar
Sillen, Andrew, and Kavanaugh, Maureen. 1982. Strontium and paleodietary research: A review. Yearbook of Physical Anthropology 25.CrossRefGoogle Scholar
Simpson, Scott W., Hutchinson, Dale L., and Larsen, Clark Spencer. 1990. Coping with stress: Tooth size, dental defects, and age-at-death. In The archaeology of the mission Santa Catalina de Guale: 2. Biocultural interpretations of a population in transition, ed. Larsen, Clark Spencer. Anthropological Papers of the American Museum of Natural History No. 68. New York.Google Scholar
Smith, B. Holly. 1984. Patterns of molar wear in hunter-gatherers and agriculturalists. American Journal of Physical Anthropology 63.CrossRefGoogle Scholar
Smith, B. Holly. 1985. Development and evolution of the helicoidal plane of dental occlusion. American Journal of Physical Anthropology 69.Google Scholar
Smith, B. Holly. 1991. Standards of human tooth formation and dental age assessment. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Smith, Bruce D. 1989. Origins of agriculture in eastern North America. Science 246.CrossRefGoogle ScholarPubMed
Smith, Fred H., Smith, Maria Ostendorf, and Hinton, Robert J.. 1980. Evolution of tooth size in the prehistoric inhabitants of the Tennessee Valley. In The skeletal biology of aboriginal populations in the southeastern United States, ed. Willey, P. and Smith, F. H.. Tennessee Anthropological Association Miscellaneous Paper No. 5. Knoxville, Tenn.Google Scholar
Smith, Patricia, Bar-Yosef, Ofer, and Sillen, Andrew. 1984. Archaeological and skeletal evidence for dietary change during the late Pleistocene/early Holocene in the Levant. In Paleopathology at the origins of agriculture, ed. Cohen, Mark Nathan and Armelagos, George J.. Orlando, Fla.Google Scholar
Speth, John D. 1990. Seasonality, resource stress, and food sharing in so-called ‘egalitarian’ foraging societies. Journal of Anthropological Archaeology 9.CrossRefGoogle Scholar
Spielmann, Katherine A. 1989. A review: Dietary restrictions on hunter-gatherer women and the implications for fertility and infant mortality. Human Ecology 17.CrossRefGoogle ScholarPubMed
Stafford, Thomas W., Brendel, Klaus, and Duhamel, Raymond C.. 1988. Radiocarbon, 13C and 15N analysis of fossil bone: Removal of humates with XAD-2 resin. Geochimica et Cosmochimica Acta 52.CrossRefGoogle Scholar
Steinbock, R. Ted. 1976. Paleopathological diagnosis and interpretation. Springfield, Ill.Google Scholar
Stewart, R. J. C. 1975. Bone pathology in experimental malnutrition. World Review of Nutrition and Dietetics 21.CrossRefGoogle ScholarPubMed
Stewart, R. J. C., and Platt, B. S.. 1958. Arrested growth lines in the bones of pigs on low-protein diets. Proceedings of the Nutrition Society 17.Google Scholar
Stini, William A. 1971. Evolutionary implications of changing nutritional patterns in human populations. American Anthropologist 73.CrossRefGoogle Scholar
Stini, William A. 1990. ‘Osteoporosis’: Etiologies, prevention, and treatment. Yearbook of Physical Anthropology 33.CrossRefGoogle Scholar
Stout, Samuel D. 1978. Histological structure and its preservation in ancient bone. Current Anthropology 19.CrossRefGoogle ScholarPubMed
Stout, Samuel D. 1983. The application of histomorphometric analysis to sancient skeletal remains. Anthropos (Greece) 10.Google Scholar
Stout, Samuel D. 1989. Histomorphometric analysis of human skeletal remains. In Reconstruction of life from the skeleton, ed. Iscan, Mehmet Yasar and Kennedy, Kenneth A. R.. New York.Google Scholar
Stout, Samuel D., and Simmons, David J.. 1979. Use of histology in ancient bone research. Yearbook of Physical Anthropology 22.Google Scholar
Stout, Samuel D., and Teitelbaum, Steven L.. 1976. Histological analysis of undercalcified thin sections of archaeological bone. American Journal of Physical Anthropology 44.CrossRefGoogle Scholar
Stuart-Macadam, Patricia. 1985. Porotic hyperostosis: Representative of a childhood condition. American Journal of Physical Anthropology 66.CrossRefGoogle ScholarPubMed
Stuart-Macadam, Patricia. 1989. Nutritional deficiency diseases: A survey of scurvy, rickets, and iron-deficiency anemia. In Reconstruction of life from the skeleton, ed. Iscan, Mehmet Yasar and Kennedy, Kenneth A. R.. New York.Google Scholar
Sundick, Robert I. 1978. Human skeletal growth and age determination. Homo 29.Google Scholar
Teaford, Mark F. 1991. Dental microwear: What can it tell us about diet and dental function? In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Thompson, D. D. 1980. Age changes in bone mineralization, cortical thickness, and Haversian canal area. Calcified Tissue International 31.CrossRefGoogle ScholarPubMed
Tobias, P. V. 1967. The cranium and maxillary dentition of zinjanthropus (australopithecus) boisei. Cambridge.CrossRefGoogle Scholar
Turner, Christy G. II. 1979. Dental anthropological indications of agriculture among the Jomon people of central Japan. American Journal of Physical Anthropology 51.CrossRefGoogle Scholar
Turner, Christy G. II, and Lilia, M.Machado, Cheuiche. 1983. A new dental wear pattern and evidence for high carbohydrate consumption in a Brazilian Archaic skeletal population. American Journal of Physical Anthropology 61.CrossRefGoogle Scholar
Van der Merwe, Nikolaas J. 1982. Carbon isotopes, photosynthesis and archaeology. American Scientist 70.Google Scholar
Van Gerven, Dennis P., Beck, Rosemary, and Hummert, James R.. 1990. Patterns of enamel hypoplasia in two medieval populations from Nubia’s Batn El Hajar. American Journal of Physical Anthropology 82.CrossRefGoogle ScholarPubMed
Walker, Phillip L. 1978. A quantitative analysis of dental attrition rates in the Santa Barbara Channel area. American Journal of Physical Anthropology 48.CrossRefGoogle ScholarPubMed
Walker, Phillip L. 1986. Porotic hyperostosis in a marine-dependent California Indian population. American Journal of Physical Anthropology 69.CrossRefGoogle Scholar
Walker, Phillip L., Dean, Gregory, and Shapiro, Perry. 1991. Estimating age from tooth wear in archaeological populations. In Advances in dental anthropology, ed. Kelley, Marc A. and Larsen, Clark Spencer. New York.Google Scholar
Walker, Phillip L., and Erlandson, Jon M.. 1986. Dental evidence for prehistoric dietary change on northern Channel Islands, California. American Antiquity 51.CrossRefGoogle ScholarPubMed
Walker, Phillip L., Johnson, John, and Lambert, Patricia. 1988. Age and sex biases in the preservation of human skeletal remains. American Journal of Physical Anthropology 76.CrossRefGoogle ScholarPubMed
Wallace, John A. 1974. Approximal grooving of teeth. American Journal of Physical Anthropology 40.CrossRefGoogle ScholarPubMed
Webb, Stephen. 1989. Prehistoric stress in Australian aborigines: A paleopathological study of a hunter-gatherer population. International Series 490. Oxford.Google Scholar
White, Tim D. 1978. Early hominid enamel hypoplasia. American Journal of Physical Anthropology 49.CrossRefGoogle ScholarPubMed
Wing, Elizabeth S., and Brown, Antoinette B.. 1979. Paleonutrition. New York.Google Scholar
Wolf, George. 1980. Vitamin A. In Human nutrition, ed. Alfin-Slater, R. B. and Kritchevsky, D.. New York.Google Scholar
Wu, Xinzhi and Zhenbiao, Zhang. 1985. Homo sapien remains from late palaeolithic and neolithic China. In Palaeoanthropology and palaeolithic archaeology in the People’s Republic of China, ed. Rukang, Wu and Olsen, John W.. Orlando, Fla.Google Scholar
Yagi, Tamotsu, Takebe, Yoshihide, and Itoh, Minoru. 1989. Secular trends in physique and physical fitness in Japanese students during the last 20 years. American Journal of Human Biology 1.CrossRefGoogle ScholarPubMed
Yarbrough, C., Habicht, J.-P., Martorell, R., and Klein, R. E.. 1974. Anthropometry as an index of nutritional status. In Nutrition and malnutrition: Identification and measurement, ed. Roche, A. F. and Falkner, F.. New York.Google Scholar
y'Edynak, Gloria, and Fleisch, Sylvia. 1983. Microevolution and biological adaptability in the transition from foodcollecting to food-producing in the Iron Gates of Yugoslavia. Journal of Human Evolution 12.CrossRefGoogle Scholar
y'Edynak, Gloria. 1989. Yugoslav Mesolithic dental reduction. American Journal of Physical Anthropology 78.CrossRefGoogle ScholarPubMed

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