Hostname: page-component-cd9895bd7-dzt6s Total loading time: 0 Render date: 2024-12-23T22:39:24.217Z Has data issue: false hasContentIssue false

Maya Diets of the Rich and Poor: Paleoethnobotanical Evidence from Copan

Published online by Cambridge University Press:  20 January 2017

David L. Lentz*
Affiliation:
Electron Microscopy Laboratory, University of Mississippi Medical Center, Jackson, MS 39216

Abstract

Analysis of plant remains recovered from excavations at Copán in western Honduras has provided substantive data regarding agroeconomic systems of the prehistoric inhabitants. The time span of the deposits ranges from the Gordon/Uir phase (900-400 B. C.), which may have been non-Maya, to the Coner phase (A. D. 700-900+), which encompasses the collapse of the Classic Maya cultural manifestation in the valley. Several traditionally recognized mesoamerican cultigens were identified including corn, beans, and several species of Cucurbitaceae. In addition, remains of a number of economic tree species were discovered, suggesting a reliance on arboriculture as part of the subsistence strategy. Pine charcoal predominated in all deposits and may have been the preferred wood for fuel and construction. Analysis of edible-plant-species distributions from low- and high-status Late Classic dwellings using the Shannon-Weaver index revealed that elite individuals had a higher diversity of available foods, a situation that may have led to nutritional stress among lower-status individuals and, ultimately, social unrest.

En las excavaciones del sitio de Copán, en el occidente de Honduras, se encontraron muchos restos de plantas. El análisis de los mismos ha proporcionado una cantidad de datos muy grande sobre los sistemas agroeconómicos de sus habitantes prehistóricos. El lapso de los depósitos oscila entre las fases Gordon/Uir (900-400 A. C.), las cuales pueden corresponder a grupos no-mayas, hasta la fase Coner (700-900+ D. C.) la cual abarca el colapso de la manifestación cultural maya Clásica en el valle. Se identificaron varios cultivos tradicionales mesoamericanos incluyendo maíz, frijol, y varias especies de Cucurbitaceae. Además se descubrieron restos de varias especies económicos de árboles, indicando una dependencia en la arboricultura como parte de la estrategia de subsistencia. Restos de carbón de pino fueron predominantes en todos los depósitos y es posible que el mismo haya sido la madera preferida para combustible y construcción. Se utilizó el indice de Shannon-Weaver para determinar la distribución de especias de plantas comestibles en casas de estratos bajos y altos del Clásico Tardío. El resultado reveló que los individuos de la élite dispusieron de una mayor diversidad de comida. Esta situación pudo haber conducido a una presión nutricional entre los individuos de estratos inferiores provocando, en último caso, desorden social.

Type
Reports
Copyright
Copyright © Society for American Archaeology 1991

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References Cited

Abrams, E., and Rue, D. 1988 The Causes and Consequences of Deforestation Among the Prehistoric Maya. Human Ecology 16:377395.Google Scholar
Alcorn, J. 1984 Huastec Mayan Ethnobotany. University of Texas Press, Austin.Google Scholar
Balick, M. 1990 Production of Coyol Wine from Acrocomia mexicana (Arecaceae) in Honduras. Economic Botany 44:8493.CrossRefGoogle Scholar
Berglund-Brücher, O., and Brücher, H. 1976 The South American Wild Bean (Phaseolus aborigineus Burk.) as Ancestor of the Common Bean. Economic Botany 30:257272.CrossRefGoogle Scholar
Berlin, B., Breedlove, D., and Raven, P. 1974 Principles of Tzeltal Plant Classification: An Introduction to the Botanical Ethnography of a Maya-Speaking People of Highland Chiapas. Academic Press, New York.Google Scholar
Bronson, B. 1966 Roots and the Subsistence of the Ancient Maya. Southwestern Journal of Anthropology 22:251279.CrossRefGoogle Scholar
Caldwell, J. 1980 Archaeobotanical Aspects of the 1980 Field Season. In The Colha Project: 1980 Interim Report, edited by T. R. Hester, J. D. Eaton, and H. J. Shafer, pp. 257268. Center for Archaeological Research, University of Texas, San Antonio.Google Scholar
Cliff, M., and Crane, C. 1989 Changing Subsistence Economy at a Late Preclassic Maya Community. Research in Economic Anthropology Supplement 4:295324.Google Scholar
Crane, C. 1986 Late Preclassic Maya Archaeobotanical Remains: Problems in Identification, Quantification and Interpretation. Paper presented at the 51st Annual Meeting of the Society for American Archaeology, New Orleans.Google Scholar
Cutler, H., and Whitaker, T. 1961 History and Distribution of the Cultivated Cucurbits in the Americas. American Antiquity 26:469485.CrossRefGoogle Scholar
Dahlin, B., and Litzinger, W. 1986 Old Bottle, New Wine: The Functions of Chultuns in the Maya Lowlands. American Antiquity 51:721736.CrossRefGoogle Scholar
Fash, W. 1983 Deducing Social Organization from Classic Maya Settlement Patterns: A Case Study from the Copan Valley. In Civilizations in the Ancient Americas, edited by R. M. Leventhal and A. L. Kolata, pp. 261287. University of New Mexico Press, Albuquerque.Google Scholar
Freter, A. 1988 The Classic Maya Collapse at Copan. Honduras: A Regional Settlement Perspective. Ph.D. dissertation, Pennsylvania State University. University Microfilms, Ann Arbor.Google Scholar
Galinat, W. 1980 The Archaeological Maize Remains from Volcan Panama: A Comparative Perspective. In Adaptive Radiations in Prehistoric Panama, edited by O. F. Linares and A. J. Ranere, pp. 175180. Monograph No. 5. Peabody Museum of Archaeology and Ethnology, Harvard University, Cambridge.Google Scholar
Joyce, R. 1985 Cerro Palenque, Valle de Ulua, Honduras: Terminal Classic Interaction on the Southern Mesoamerican Periphery. Ph.D. dissertation, University of Illinois. University Microfilms, Ann Arbor.Google Scholar
Kaplan, L. 1965 Archaeology and Domestication in American Phaseolus (Beans). Economic Botany 19:358368.CrossRefGoogle Scholar
Kaplan, L. 1967 Archaeological Phaseolus from Tehuacan. In Environment and Subsistence, edited by D. S. Byers, pp. 201211. The Prehistory of the Tehuacan Valley, vol. 1. University of Texas Press, Austin.Google Scholar
Kaplan, L. 1973 Ethnobotanical and Nutritional Factors in the Domestication of American Beans. In Man and His Foods, edited by C. E. Smith, pp. 7526. University of Alabama Press, Tuscaloosa.Google Scholar
Kaplan, L. 1980 Variation in the Cultivated Beans. In Guitarrero Cave: Early Man in the Andes, edited by T. F. Lynch, pp. 145148. Academic Press, New York.Google Scholar
Kaplan, L., and MacNeish, R. 1960 Prehistoric Bean Remains from Caves in the Ocampo Region of Tamaulipas, Mexico. Harvard University Botanical Museum Leaflets 19:3356.CrossRefGoogle Scholar
Lentz, D. 1989 Botanical Remains from the El Cajón Area: Insights into a Prehistoric Dietary Pattern. In Prehistoric Cultural Ecology, edited by K. G. Hirth, G. Lara Pinto, and G. Hasemann, pp. 187206. Archaeological Research in the El Cajón Region, vol. 1. Memoirs in Latin American Archaeology No. 1. University of Pittsburgh, Pittsburgh.Google Scholar
Lentz, D. 1990 Acrocomia mexicana: Palm of the Ancient Mesoamericans. Journal of Ethnobiology 10:183194.Google Scholar
Longyear, J. 1952 Copán Ceramics: A Case Study of Southeastern Maya Pottery. Publication No. 597. Carnegie Institution of Washington, Washington, D.C.Google Scholar
Magurran, A. 1988 Ecological Diversity and Its Measurement. Princeton University Press, Princeton, New Jersey.Google Scholar
Mandeville, L. 1987 The Ethnological Significance of the Copan Archaic. UCLA Latin American Center Publications, University of California, Los Angeles.Google Scholar
Manglesdorf, P. 1967 Report on Mineralized Corncobs and other Prehistoric Specimens from Salinas La Blanca. In Early Cultures and Human Ecology in South Coastal Guatemala, edited by M. Coe and K. Flannery, pp. 127128. Smithsonian Institution Press, Washington, D.C.Google Scholar
Manglesdorf, P. 1974 Corn: Its Origin, Evolution, and Improvement. The Belknap Press of Harvard University, Cambridge.CrossRefGoogle Scholar
Manglesdorf, P., MacNeish, R., and Galinat, W. 1967 Prehistoric Wild and Cultivated Maize. In Environment and Subsistence, edited by D. Beyers, pp. 178200. The Prehistory of the Tehuacan Valley, vol. 1. University of Texas Press, Austin.Google Scholar
Marcus, J. 1982 The Plant World of the Sixteenth- and Seventeenth-Century Lowland Maya. In Maya Subsistence, edited by K. Flannery, pp. 239273. Academic Press, New York.CrossRefGoogle Scholar
Miksicek, C., Elsesser, K. J., Wuebber, I. A., Bruhns, K. O., and Hammond, N. 1981 Rethinking Ramon: A Comment on Reina and Hill’s Lowland Maya Subsistence. American Antiquity 46:916919.Google Scholar
Millon, R. 1955 When Money Grew on Trees: A Study of Cacao in Ancient Mesoamerica. Ph.D. dissertation, Columbia University. University Microfilms, Ann Arbor.Google Scholar
Nations, J., and Nigh, R. 1980 The Evolutionary Potential of Lacandon Maya Sustained-Yield Tropical Forest Agriculture. Journal of Anthropological Research 36:130.Google Scholar
Pearsall, D. 1989 Paleoethnobotany, A Handbook of Procedures. Academic Press, San Diego.Google Scholar
Peters, C. 1983 Observations on Maya Subsistence and the Ecology of a Tropical Tree. American Antiquity 48:610615.CrossRefGoogle Scholar
Popper, V. 1988 Selective Quantitative Measurements in Paleoethnobotany. In Current Paleoethnobotany, edited by C. Hastorf and V. Popper, pp. 5371. University of Chicago Press, Chicago.Google Scholar
Puleston, D. 1982 The Role of Ramon in Maya Subsistence. In Maya Subsistence, edited by K. Flannery, pp. 353366. Academic Press, New York.Google Scholar
Roys, R. 1931 The Ethno-Botany of the Maya. Institute for the Study of Human Issues, Philadelphia.Google Scholar
Rue, D. 1987 Early Agriculture and Early Postclassic Maya Occupation in Western Honduras. Nature 326:285286.Google Scholar
Sanders, W. 1989 Ecological Succession in the Copan Valley 1000 BC- 1200 AD. Ms. on file, Department of Anthropology, Pennsylvania State University, University Park.Google Scholar
Sanders, W., and Webster, D. 1988 The Mesoamerican Urban Tradition. American Anthropologist 80:521546.Google Scholar
Santley, R., Killion, T., and Lycett, M. 1985 On the Maya Collapse. Journal of Anthropological Research 41:443452.Google Scholar
Schumann de Baudez, I. 1983 Agriculture y agricultores en la región de Copán. In Introduccion a la arqueología de Copán, Honduras, edited by C. F. Baudez, pp. 195229. Secretaria de Estado en el Despacho de Cultura y Turismo, Tegucigalpa, Honduras.Google Scholar
Smith, A. C., and Johnson, I. 1945 A Phytogeographic Sketch of Latin America. In Plants and Plant Science in Latin America, edited by F. Verdoorn, pp. 1118. Chronica Botanica, Waltham, Massachusetts.Google Scholar
Smith, C. E. 1967 Plant Remains. In Environment and Subsistence, edited by D. S. Byers, pp. 220260. The Prehistory of the Tehuacan Valley, vol. 1. University of Texas Press, Austin.Google Scholar
Smith, C. E. 1980 Plant Remains from the Chiriqui Sites and Ancient Vegetation Patterns. In Adaptive Radiations in Prehistoric Panama, edited by O. F. Linares and A. J. Ranere, pp. 151174. Monograph No. 5. Peabody Museum of Archaeology and Ethnology, Harvard University, Cambridge.Google Scholar
Smith, C. E., and Cameron, M. L. 1977 Ethnobotany in the Puuc, Yucatan. Economic Botany 31:93110.Google Scholar
Snarskis, M. 1976 Stratigraphic Excavations in the Eastern Lowlands of Costa Rica. American Antiquity 44:125138.CrossRefGoogle Scholar
Spink, M. 1988 Metates as Socioeconomic Indicators During the Classic Period at Copán, Honduras. Ph.D. dissertation, Pennsylvania State University. University Microfilms, Ann Arbor.Google Scholar
Standley, P., and Steyermark, J. 1945 Vegetation of Guatemala. In Plants and Plant Science in Latin America, edited by F. Verdoorn, pp. 275278. Chronica Botanica, Waltham, Massachusetts.Google Scholar
Standley, P., and Steyermark, J. 1946 Flora of Guatemala. Fieldiana: Botany Vol. 24. Field Museum of Natural History, Chicago.CrossRefGoogle Scholar
Tozzer, A. (editor) 1941 Landa’s Relacion de las cosas de Yucatan. Papers of the Peabody Museum of American Archaeology and Ethnology Vol. 18. Harvard University, Cambridge.Google Scholar
Turner, B. L. II, and Johnson, W. C. 1979 A Maya Dam in the Copán Valley, Honduras. American Antiquity 44:299305.Google Scholar
Turner, B. L. II, Johnson, W., Mahood, G., Wiseman, F., Turner, B., and Poole, J. 1983 Habitat y agriculture en la región de Copán. In Introducción a la arqueología de Copán, Honduras, edited by C. Baudez, pp. 37142. Secretaría de Estado en el Despacho de Cultura y Turismo, Tegucigalpa, Honduras.Google Scholar
Vestal, P. 1938 Cucurbita moschata Found in Pre-Columbian Mounds in Guatemala. Harvard University Botanical Leaflets 6:6569.Google Scholar
Webster, D. 1985 Recent Settlement Survey in the Copan Valley, Honduras. Journal of New World Archaeology 4:3951.Google Scholar
Webster, D., and Freter, A. 1990 Settlement History and the Classic Collapse at Copan: A Redefined Chronological Perspective. Latin American Antiquity 1:6685.CrossRefGoogle Scholar
Webster, D., and Gonlin, N. 1988 Household Remains of the Humblest Maya. Journal of Field Archaeology 15:169189.Google Scholar
Wellhausen, E., Roberts, L., and Hernandez X., E. 1952 Races of Maize in Mexico. Bussey Institute, Harvard University, Cambridge.Google Scholar
Whittington, S. 1989 Characteristics of Demography and Disease in Low Status Maya from Classic Period Copán, Honduras. Ph.D. dissertation, Pennsylvania State University, University Microfilms, Ann Arbor.Google Scholar
Willey, G., Leventhal, R., and Fash, W. 1978 Maya Settlement in the Copán Valley. Archaeology 31(4):3243.Google Scholar
Williams, L. 1981 The Useful Plants of Central America. Ceiba 24:1342.Google Scholar
Wing, E., and Brown, A. 1979 Paleonutrition. Academic Press, New York.Google Scholar
Wisdom, C. 1940 The Chorti Indians of Guatemala. University of Chicago Press, Chicago.Google Scholar
Wiseman, F. 1978 Agricultural and Historical Ecology of the Maya Lowlands. In Pre-Hispanic Maya Agriculture, edited by P. D. Harrison and B. L. Turner II, pp. 63115. University of New Mexico Press, Albuquerque.Google Scholar
Zier, C. 1980 A Classic Period Maya Agricultural Field in Western El Salvador. Journal of Field Archaeology 7:6574.Google Scholar