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The Children of Copan: Issues in paleopathology and paleodemography

Published online by Cambridge University Press:  18 October 2010

Rebecca Storey
Affiliation:
Department of Anthropology, University of Houston, Houston, TX 77204-5882, USA

Abstract

The estimated 600 individuals in the Copan skeletal sample make it one of the largest and most important collections from Precolumbian Mesoamerica. The sample is analyzed using a bioarchaeological approach. An overview of the goals of the osteological study and its progress are presented. As an illustration of the results obtainable from osteological analysis, mortality patterns and the incidence of enamel defects in the deciduous dentition of the children of an elite compound, 9N-8, are discussed. Even at an early stage of analysis, children commonly have evidence of health stress that is relevant to understanding the collapse of the Classic Maya society at Copan.

Resumen

Copan posee la mayor muestra de restos óseos precolombinos recuperada a la fecha en el area Maya, estimada en más de 600 iedividuos. El análisis osteológico es un componente integral del estudio general del sltio, y se está llevando a cabo con ue enfoque bioarqueológico. En este artículo se presenta una revisión de los objetivos del estudio bioarqueológico y sus avances a la fecha. Para ilustrar las clases de informatión que pueden obtenerse de tal estudio, se discuten los patrones de mortalidad y salud entre los subaduitos (individuos fallecidos antes de los quince años de edad) recuperados en el complejo palaciego 9N-8, en la zona de las Sepulturas de este sitio.

El principal problema para el estudio osteológico es buscar evidencia de problemas en la vida de la población en el clásico tardío, que puedan explicar el colapso de la civilizatión maya clásica en Copan. Los niños del 9N-8 se aproximae el patrón general de mortalidad humana, pues la mayoría murieroe antes de los cinco años, pero hay proporcionalmente mas muertes de las que podría esperarse entre las edades de 1 y 9 años. La presencia común de defectos dentales indica que la vida en este conjunto no daba protectión adecuada a los niños mas pequeños en contra de las presiones a que estabae sujetos. Estas presiones, afrontadas al inicio de la vida, causaban una elevada mortalidad en los primeros nueve años, posiblemente por infecciones asociadas con la caries dental. Aunque el análisis se encuentra en una fase temprana, la informatión obtenidad en los niños indica problemas de salud que podrían explicar el colapso.

Type
Special Section: The Archaeology of Ancient Copan
Copyright
Copyright © Cambridge University Press 1992

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References

REFERENCES

Blakey, Michael L., and Armelagos, George J. 1985 Deciduous Enamel Defects in Prehistoric Americans from Dickson Mounds: Prenatal and Postnatal Stress. American Journal of Physical Anthropology 66:371380.CrossRefGoogle ScholarPubMed
Buikstra, Jane. E. 1977 Biocultural Dimensions of Archaeological Study: A Regional Perspective. In Biocultural Adaptation in Prehistoric America, edited by Blakely, R.L., pp. 6784. Southern Anthropological Society Proceedings No. 11. University of Georgia Press, Athens.Google Scholar
Buikstra, Jane. E. 1991 Out of the Appendix and into the Dirt: Comments on Thirteen Years of Bioarchaeological Research. In What Mean These Bones?, edited by Powell, M.L., Bridges, P.S., and Mires, A.M. Wagner, pp. 172188. University of Alabama Press, Tuscaloosa.Google Scholar
Buikstra, Jane E., and Konigsberg, L.W. 1985 Paleodemography: Critiques and Controversies. American Anthropologist 87:316333.CrossRefGoogle Scholar
Coale, Ansley J., and Demeny, Paul, with Vaughn, B. 1983 Regional Model Life Tables and Stable Populations. 2d ed. Academic Press, Orlando, FL.Google Scholar
Cuibert, T.P. 1988 The Collapse of Classic Maya Civilization. In The Collapse of Ancient States and Civilizations, edited by Yoffee, N. and Cowgill, G.L., pp. 69101. University of Arizona Press, Tucson.CrossRefGoogle Scholar
Duray, S.M. 1990 Deciduous Enamel Defects and Caries Susceptibility in a Pre-historic Ohio Population. American Journal of Physical Anthropology 81:2734.CrossRefGoogle Scholar
Fash, William L. 1986 La fachada esculpida de la estractura 9N-82: Contenido, forma, iconografía. In Excovociones en el area urbana de Copan, edited by Sanders, W.T., pp. 319382. Instituto Hondureño de Antropología e Historia, Tegucigalpa.Google Scholar
Goodman, Alan C., and Armelagos, George J. 1988 Childhood Stress and Decreased Longevity in a Prehistoric Population. American Anthropologist 90:936944.CrossRefGoogle Scholar
Goodman, Alan L., and Rose, Jerome C. 1990 Assessment of Systemic Physiological Perturbations from Dental Enamel Hypoplasias and Associated Histological Structures. Yearbook of Physical Anthropology 33:59110.CrossRefGoogle Scholar
Hodges, Denise C. 1987 Health and Agricultural Intensification in the Prehistoric Valley of Oaxaca, Mexico. American Journal of Physical Anthropology 73:323332.CrossRefGoogle ScholarPubMed
Hooton, Earnest A. 1940 Skeletons from the Cenote of Sacrifice at Chichén Itzá. In The Maya and Their Neighbors, edited by Hay, C.L. et al., pp. 272280. Dover Publications, New York.Google Scholar
Howell, Nancy 1979 Demography of the Dobe iKung. Academic Press, New York.Google Scholar
Johansson, S. Ryan, and Horowitz, S. 1986 Estimating Mortality ie Skeletal Populations: Influence of the Growth Rate on the Interpretation of Levels and Trends During the Transition to Agriculture. American Journal of Physical Anthropology 71:233250.CrossRefGoogle Scholar
Lovejoy, C. Owen, Meindl, Richard S., Meesforth, R.P., and Barton, T.J. 1985 Multifactorial Determination of Skeletal Age at Death: A Method and Blind Tests of Its Accuracy. American Journal of Physical A nthrapology 68:114.CrossRefGoogle Scholar
Ortner, Donald J., and Putschar, W.C.J. 1981 Identification of Pathological Conditions in Human Skeletal Remains. Smithsonian Contributions to Anthropology No. 28. Washington, DC.Google Scholar
Peebles, C.S. 1977 Biocultural Adaptation in Prehistoric America: An Archaeologist's Perspective. In Biocultural Adaptation in Prehistoric America, edited by Blakely, R.L., pp. 115130. Southern Anthropological Society, Proceedings No. 11. University of Georgia Press, Athens.Google Scholar
Saul, Frank P. 1972 The Human Skeletal Remains of Altar de Sacrificios: An Osteobiographic Analysis. Papers of the Peabody Museum of Archaeology and Ethnology, vol. 63, no. 2. Cambridge, MA.Google Scholar
Stewart, T. Dale 1953 Skeletal Remains from Zaculeu, Guatemala. In The Ruins of Zaculeu, Guatemala, edited by Woodbury, R.F. and Trik, A.S., pp. 295311. United Fruit Company, Boston.Google Scholar
Storey, Rebecca 1991 Residential Compound Organization and the Evolution of the Teotihuacan State. Ancient Mesoamerica 2:107118.CrossRefGoogle Scholar
Storey, Rebecca 1992 Life and Death in the Ancient City of Teotihuacan: A Modern Paleodemographic Synthesis. University of Alabama Press, Tuscaloosa.Google Scholar
Ubelaker, Douglas H. 1989 Human Skeletal Remains: Excavation, Analysis, Interpretation. 2d ed. Taraxacum, Washington, DC.Google Scholar
David, Webster (editor) 1989 The House of the Bacabs. Studies in Precolumbian Art and Archaeology No. 29, Dumbarton Oaks, Washington, DC.Google Scholar
Webster, David, and Freter, Ann Corinne 1990 Settlement History and the Classic Collapse at Copan: A Re-defined Chronological Perspective. Latin American Antiquity 1:6685.CrossRefGoogle Scholar
Whittington, Stephen L. 1991 Detection of Significant Demographic Differences Between Subpopulations of Prehispanic Maya from Copan, Honduras, by Survival Analysis. American Journal of Physical Anthropology 85:167184.CrossRefGoogle ScholarPubMed