Using dental caries as a nutritional indicator, in order to explore potential dietary differences between sexes in an ancient Greek population

Part of : Mediterranean archaeology & archaeometry : international journal ; Vol.14, No.2, 2014, pages 237-248

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Pages:
237-248
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Abstract:
Dental caries is commonly used to provide information about the diet of populations, both archaeological and modern. A skeletal sample of 32 adults from the site of Almyros in Corfu, dating from the late Archaic (7th century B.C.) to the 2nd century A.D., was studied for caries and ante-mortem tooth loss (AMTL) with a special interest in sex differences. According to archaeological information the population of Almyros had a poor economy with a minimal consumption of proteins and vegetables. Literary sources suggest sex discrimination in ancient Greek diet but no such difference was known until now in the population of Almyros. Therefore, the goal of this study is to explore possible dietary differences between sexes in the Corfu population using caries frequency, locations and degree as nutritional factors. According to our results females present a higher percentage of caries than males (13.6% females, 4.3% males) and a difference is noted on location and degree as well. However, the same difference is not noted in AMTL where males present slightly higher frequency than females. This study provides valuable data for the population of Almyros and highlights the significance of caries degree and caries locations in reconstructing diets of ancient populations.
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Subject (LC):
Keywords:
dental caries, AMTL, paleodiet, sex differences, Almyros, Corfu
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Περιέχει 6 πίνακες.
References (1):
  1. Angel, J.L. (1944) Greek teeth: Ancient and Modern. Human biology, Vol 16, 283-297.Bass, W.M. (1987) Human Osteology: A laboratory and Field Manual of the Human Skeleton, (3rd ed). Special publication No 2. Missouri Archaeological Society, Columbia.Becker, M.J. (1975) Human skeletal remains from Kato Zakro. American Journal of Archaeology, vol 79, 271-276.Brown, A.B. (1973) Bone Strontium as a Dietary Indicator in Human Skeletal Populations, PhD Dissertation, University of Michigan, Ann Arbor, Michigan.Buikstra, J.E. and Ubelaker, D. (1994) Standards for Data Collection from Human Skeletal Remains, Arkansas. Archaeological Survey Research Series No 44 Arkansas Archaeological Survey: Fayetteville, ArkansasByers, S.N. (2005) Introduction to Forensic Anthropology: A Textbook. London: Pearson.Carr, H.G. (1960) Some dental characteristics of the Middle Minoans. Man, vol 60, 119-122.Cucina, A. and Tiesler, V. (2003) Dental Caries and Antemortem Tooth Loss in the Northern Peten Area, Mexico: A Biocultural Perspective on Social Status Differences Among the Classic Maya. American Journal of Physical Anthropology, vol 122, 1-10.Detienne, M. and Vernant, J.P. (1989) The Cuisine of Sacrifice among the Greeks. University Chicago Press.Frostell, G., Keyes, P.H., Larson, A. (1967) Effect of various sugars and sugar substitutes on dental caries in hamsters and rats. Journal of Nutrition, vol 93, 65-73.Garnsey, P. (1999) Food and Society in Classical Antiquity. Cambridge University Press: Cambridge.Gibbons, R.J., Depaola, P.F., Spinell, D.M., Skobe, Z. (1974) Interdental localization of streptococcus mutants as related to dental caries experience. Infection and Immunity, vol 9, 481-488.Hadjimarkos, D.M., Bonhorst, C.W. (1962) Fluoride and selenium-levels in contemporary and ancient Greek teeth in relation to dental caries. Nature, vol 193, 177-178.Henneberg, M., Henneberg, R.J. (1998) Biological characteristics of the population based on analysis of skeletal remains. In The Chora of Metaponto: The Necropoleis Vol. II, J.C. Carter (ed.), University of Texas Press, Austin, TX, pp. 503-562.Henneberg, M., Henneberg, R.J. (2003) The diet of the Metapontine population as reconstructed from the physical remains. In Living Off The Chora: Diet and Nutrition at Metaponto, J.C. Carter (ed.), University of Texas Press: Austin, TX, pp. 29-36.Hillson, S.W. (1996) Dental Anthropology. Cambridge University Press: Cambridge.Hillson S.W. (2000) Dental pathology. In Biological Anthropology of the Human Skeleton, M.A. Katzenberg, S.R. Saunders (eds) Wiley-Liss: New York, pp. 249-286.Hillson, S.W. (2001) Recording dental caries in archaeological human remains. International Journal of Osteoarchaeology, vol 11, 249-289.Keenleyside, A. (2008) Dental Pathology and Diet at Apollonia, a Greek Colony on the Black Sea. International Journal of Osteoarchaeology, vol 18, 262-279.Kyle, J.H. (1986) Effect of Post-burial Contamination on the Concentration of Major and Minor Elements in Human Bones and Teeth, the implications for Palaeodietary Research. Journal of Archaeological Science, vol 13, 403-416.Laine, M.A. (2002) Effect of pregnancy on periodontal and dental health. Acta Odontologica Scandinavica, vol 60, 257-264.Lanfranco, L.P. and Eggers, S. (2010) The Usefulness of Caries Frequency, Depth, and Location in Determining Cariogenicity and Past Subsistence: A Test on Early and Later Agriculturalists From the Peruvian Coast. American Journal of Physical Anthropology, vol 143, 75-91.Larsen, C.S., Shavit, R., Griffin, M.C. (1991) Dental Caries Evidence for Dietary Change: An Archaeological Context. In Advances in dental anthropology, M.A. Kelley, C.S. Larsen (eds), New York: Wiley-Liss, pp. 179- 202.Larsen, C.S. (1997) Bioarchaeology, Interpreting Behavior from the Human Skeleton. New York: Cambridge University Press.Lillie, M.C. (1996) Mesolithic and Neolithic populations of Ukraine: indications of diet from dental pathology. Current Anthropology, vol 37, 135-142.Love, R.M. and Jenkinson, H.F. (2002) Invasion of Dental Tubules by oral bacteria. Critical Reviews in Oral Biology & Medicine, vol 13, 171-179.Lukacs, J.R. (1996) Sex differences in dental caries rates with the origin of agriculture in South Asia. Current Anthropology, vol 37, 147- 153.Lukacs, J.R. and Largaespada, L.L. (2006) Explaining Sex Differences in Dental Caries Prevalence: Saliva, Hormones, and “Life-History” Etiologies. American Journal of Human Biology, vol 18, 540-555.Magou, H., Panagiaris, G., Manolis, S., Zafeiratos, C. (1997) Identification of Chemical Elements in Excavated Human Bones of Ancient Cemeteries from Greece. P.A.C.T., vol 45, 97-110.Malde, M.K., Maage, A., Macha. E., Julshamn, K., Bjorvant, K. (1997) Fluoride content in selected food items from five areas in East Africa. Journal of Food Consumption and Analysis, vol 10, 233-245.McGeorge, P.J.P. (1992) Part II. The burials. In Late Minoan III Burials at Khania: the Tombs, Finds and Deceased in Odos Palama, Hallager B.P., McGeorge, P.J.P. (eds), Studies in Mediterranean Archaeology, vol. XCIII: Coteborg; pp. 29-44.Metress, J.F. and Conway, T. (1975) Standardized System for Recording Dental Caries in Prehistoric Skeletons. Journal of Dental Research, vol 54, 908.Musgrave, J.H. (1976) Appendix A: the human remains: In An Early Christian Osteotheke at Knossos, Cathing, H.W., Smyth, D. (eds) Cathing, H.W., Smyth, D. (eds), Annual of the British School at Athens, vol 71, 40-46.Musgrave, J.H. and Popham, M.R. (1991). The Late Helladic III C Intramural Burials at Lefkandi, Euboea. Annual of the British School at Athens, vol 86, 273-296.Nikiforouk, G. (1985) Understanding dental caries. Basel New York: Karger.Papathanasiou, A. (2005) Health status of the Neolithic Population of Alepotrypa Cave, Greece. American Journal of Physical Anthropology, vol 126, 377-390.Perez, A., Quenta, E., Cabrera, A. (2005) Caries Dental en dientes deciduos y permanentes jovenes. Diagnostico y tratamiento conservador. Universidad Peruana Cayetano Heredia. Lima.Pingiatoglou, S. (2010) Food and Cooking of ancient Greeks and Romans. From: O Politismos sto trapezi (Culture on the Table). Ministry of Culture and Tourism, Archaeological Museum of Thessaloniki, Thessaloniki.Preka-Alexandri, K. (1988) Anthropologiki Proseggisi Taphikon Evrimaton Kerkiras, Anthropologika Analekta, vol 49, 55-64 (in Greek).Rheingold, A.L., Hues, S., Cohen, M.N. (1983) Strontium and Zinc Content in Bones as an Indication of Diet. Journal of Chemical Education, vol 65, 233-234.Schoeninger, M.J. and Peebles, C.S. (1981) Effect of Mollusc Eating on Human Bone Strontium Levels. Journal of Archaeological Science, vol 8, 391-397.Schollmeyer, K. and Turner, C. (2004) Dental caries, prehistoric diet, and the pithouse to Pueblo transition in Southwestern Colorado. American Antiquity, vol 69, 569-582.Seif, T. (1997) Cariologia: prevencion, diagnostico y tratamiento contemporaneo de la caries dental. Actualidades Medico Odontologicas Latinoamerica, Bogota.Siebert, G. and Trautner, K. (1985) Fluoride content of selected human food, pet food and related materials. Zeitschrift fur Ernahrungswissenschaft, vol 24, 54-66.Toots, H. and Voorhies, M.R. (1965) Strontium in Fossil Bones and the Reconstruction of Food Chains. Science, vol 149, 854-855.Turner, C. (1978) Dental caries and early ecuadorian agriculture. American Antiquity, vol 43, 694- 697.Turner, C. (1979) Dental anthropological indications of agriculture among the Jomon people of central Japan. American Journal of Physical Anthropology, vol 51, 619-636.Vanna, V. (2011) Ancient versus modern health patterns: biological and socioeconomic status differences and similarities between a Hellenistic and a 20th century human burial population from Greece. Unpublished Doctoral thesis, UCL.Walker, P.L. and Hewlett, B.S. (1990) Dental health, diet, and social status among central African foragers and farmers. American Anthropologist, vol 92, 383-398.