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Land Evaluation and Ancient Maya Land Use in the Upper Belize River Area, Belize, Central America

Published online by Cambridge University Press:  20 January 2017

Scott L. Fedick
Scott L. Fedick*
Affiliation:
Department of Anthropology, University of California, Riverside, CA 92521
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Abstract

In this study I examine local-scale associations between land resources and the density distribution of Maya residential sites for the prehistoric population maxima of the Late Classic period (ca. A. D. 600-900). Methods involve agricultural land evaluation following USDA guidelines, under assumptions of hand-cultivation technology. I give specific attention to the issue of concordance between the geographic scale of household agricultural production and the scale at which agricultural land evaluation is conducted. The focus is the upper Belize River area of Belize, Central America, where intensive archaeological survey and local-scale land-resource mapping provide the data necessary for a detailed analysis of ancient land-use patterns. The analysis reveals a strong and consistent relationship between prehistoric Maya settlement density and the agricultural productive capability of local soil types. For each land type, I discuss the amount of land available for each residential locus and probable cultivation methods used. I argue that the ability to identify clearly and quantitatively the association (or lack of association) between household settlement pattern and agricultural land capability is a necessary component of regional studies that seek to test models of Maya political economy and social change.

En este estudio examino las asociaciones a escala local entre los recursos de la tierra y la densidad de distribución de sitios residenciales mayas para la máxima población del período Clásico Tardío (ca. 600-900 D. C.). Los métodos incluyen la evaluación de la tierra cultivada según los lineamientos del USDA (Departamento de Agricultura de los Estados Unidos), bajo el régimen de la tecnología de cultivo manual. Doy atención específica al problema de la concordancia entre la escala geográfica de producción a nivel de cada casa-habitación y la escala a la que se conduce la evaluación de la tierra. El foco es el área en la parte superior del Río Belice en América Central donde el mapeo del reconocimiento arqueológico intensivo y los recursos de la tierra a escala local proporcionan los datos necesarios para un análisis detallado de los antiguos patrones del uso del suelo. El análisis revela una relación fuerte y consistente entre la densidad de asentamiento maya y la capacidad de productividad agrícola de los tipos locales de suelo. Discuto la cantidad de tierra disponible para cada localidad residencial y los métodos sugeridos de cultivo para cada tipo de suelo. Propongo que la habilidad para identificar clara y cuantitativamente la asociación (o falta de ella) entre el patrón de asentamiento por casa y la capacidad de la tierra agrícola es un componente necesario de los estudios regionales que buscan probar modelos de la economía política maya o el cambio social.

Type
Articles
Information
Latin American Antiquity , Volume 6 , Issue 1 , March 1995 , pp. 16 - 34
Copyright
Copyright © Society for American Archaeology 1995

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References

References Cited

Adams, R. E. W. 1980 Swamps, Canals, and the Location of Ancient Maya Cities. Antiquity 54:206237.Google Scholar
Ashmore, W. 1981 Some Issues of Method and Theory in Lowland Maya Settlement Archaeology. In Lowland Maya Settlement Patterns, edited by W. Ashmore, pp. 3769. University of New Mexico Press, Albuquerque.Google Scholar
Ashmore, W., and Wilk, R. R. 1988 Household and Community in the Mesoamerican Past. In Household and Community in the Mesoamerican Past, edited by R. R. Wilk and W. Ashmore, pp. 127. University of New Mexico Press, Albuquerque.Google Scholar
Baillie, I. C., Wright, A. C. S., Holder, M. A., and FitzPatrick, E. A. 1992 Revised Classification of the Soils of Belize. Bulletin No. 59. Natural Resources Institute, Overseas Development Administration, Chatham Maritime, Kent, United Kingdom.Google Scholar
Ball, J. W., and Kelsay, R. G. 1992 Prehistoric Intrasettlement Land Use and Residual Soil Phosphate Levels in the Upper Belize Valley, Central America. In Gardens of Prehistory: The Archaeology of Settlement Agriculture in Greater Mesoamerica, edited by T. W. Killion, pp. 234262. University of Alabama Press, Tuscaloosa.Google Scholar
Ball, J. W., and Taschek, J. T. 1991 Late Classic Lowland Maya Political Organization and Central-Place Analysis: New Insights from the Upper Belize Valley. Ancient Mesoamerica 2:149165.Google Scholar
Bennett, J. W., and Kanel, D. 1983 Agricultural Economics and Economic Anthropology: Confrontation and Accommodation. In Economic Anthropology: Topics and Theories, edited by S. Ortiz, pp. 201247. Monographs in Economic Anthropology No. 1. University Press of America, Lanham, Maryland.Google Scholar
Birchall, C. J., and Jenkin, R. N. 1979 The Soils of the Belize Valley, Belize. Supplementary Report No. 15. Overseas Development Administration, Land Resources Development Centre, Surbiton, England.Google Scholar
Blanton, R. E., Kowalewski, S., Feinman, G., and Appel, J. 1982 Monte Alban’s Hinterland, Part 1: The Prehispanic Settlement Patterns of the Central and Southern Parts of the Valley of Oaxaca, Mexico. Memoirs No. 15. Museum of Anthropology, University of Michigan, Ann Arbor.Google Scholar
Bronson, B. 1966 Roots and the Subsistence of the Ancient Maya. Southwestern Journal of Anthropology 22:251279.Google Scholar
Carter, W. E. 1969 New Lands and Old Traditions: Kekchi Cultivators in the Guatemalan Lowlands. University of Florida Press, Gainesville.Google Scholar
Chisholm, M. 1979 Rural Settlement and Land Use. 3rd ed. Hutchinson, London.Google Scholar
Gilbert, T. P., Magers, P. C., and Spencer, M. L. 1978 Regional Variability in Maya Lowland Agriculture. In Pre-Hispanic Maya Agriculture, edited by P. D. Harrison and B. L. Turner II, pp. 157161. University of New Mexico Press, Albuquerque.Google Scholar
Darch, J. P., and Furley, P. A. 1983 Observations on the Nature of Sascab and Associated Soils in Cayo and Orange Walk Districts, Belize and in El Peten, Guatemala. In Resources and Development in Belize: An Account of the University of Edinburgh Expedition to Central America, 1981, edited by G. M. Robinson and P. A. Furley, pp. 179221. Department of Geography, University of Edinburgh, Edinburgh.Google Scholar
Davidson, D. A. 1980 Soils and Land Use Planning. Longman, London.Google Scholar
Davidson, D. A. (editor) 1986 Land Evaluation. Van Nostrand Reinhold, New York.Google Scholar
de Montmollin, O. 1988 Settlement Scale and Theory in Maya Archaeology. In Recent Studies in Pre-Columbian Archaeology, edited by N. J. Saunders and O. de Montmollin, pp. 63104. BAR International Series No. 421, Pt. 1. British Archaeological Reports, Oxford.Google Scholar
de Montmollin, O. 1989 The Archaeology of Political Structure: Settlement Analysis in a Classic Maya Polity. Cambridge University Press, Cambridge.Google Scholar
Dent, D., and Young, A. 1981 Soil Survey and Land Evaluation. George Allen and Unwin, London.Google Scholar
Drennan, R. D. 1988 Household Location and Compact Versus Dispersed Settlement in Prehispanic Mesoamerica. In Household and Community in the Mesoamerican Past, edited by R. R. Wilk and W. Ashmore, pp. 273293. University of New Mexico Press, Albuquerque.Google Scholar
Dunning, N. P. 1990 Prehispanic Maya Settlement Patterns of the Puuc Region, Yucatan, Mexico. Unpublished Ph.D. dissertation, Department of Anthropology, University of Minnesota, Minneapolis.Google Scholar
Environmental Systems Research Institute (ESRI) 1990 Understanding GIS: The ARC/INFO Method. ESRI, Redlands, California.Google Scholar
Food and Agriculture Organization 1974 Approaches to Land Classification. Soils Bulletin No. 22. Food and Agriculture Organization of the United Nations, Rome.Google Scholar
Food and Agriculture Organization 1976 A Framework for Land Evaluation. Soils Bulletin No. 32. Food and Agriculture Organization of the United Nations, Rome.Google Scholar
Food and Agriculture Organization 1981 Methodology and Results for South and Central America. Report on the Agro-Ecological Zones Project, vol. 3. World Soil Resources Report, vol. 48, No. 3. Food and Agriculture Organization of the United Nations, Rome.Google Scholar
Fedick, S. L. 1988 Prehistoric Maya Settlement and Land Use Patterns in the Upper Belize River Area, Belize, Central America. Ph.D. dissertation, Arizona State University, Tempe. University Microfilms, Ann Arbor.Google Scholar
Fedick, S. L. 1989 The Economics of Agricultural Land Use and Settlement in the Upper Belize Valley. In Prehistoric Maya Economies of Belize, edited by P. A. Mc-Anany and B. L. Isaac, pp. 215253. Research in Economic Anthropology, Supplement 4. JAI Press, Greenwich, Connecticut.Google Scholar
Fedick, S. L. 1994 Ancient Maya Agricultural Terracing in the Upper Belize River Area: Computer-Aided Modeling and the Results of Initial Field Investigations. Ancient Mesoamerica 5:107127.Google Scholar
Fedick, S. L., and Ford, A. 1990 The Prehistoric Agricultural Landscape of the Central Maya Lowlands: An Examination of Local Variability in a Regional Context. World Archaeology 22:1833.CrossRefGoogle Scholar
Fletcher, L. A. 1983 Coba and Mayapan: A Comparison of Solares, Household Variation, Sociopolitical Organization, and Land Tenure. In Coba: A Classic Maya Metropolis, by W. J. Folan, E. R. Kintz, and L. A. Fletcher, pp. 121131. Academic Press, New York.CrossRefGoogle Scholar
Floyd, B. 1969 Eastern Nigeria. Praeger, New York.Google Scholar
Folan, W. J., Fletcher, L. A., and Kintz, E. R. 1979 Fruit, Fiber, Bark, and Resin: Social Organization of a Maya Urban Center. Science 204:679701.Google Scholar
Ford, A. 1990 Maya Settlement in the Belize River Area: Variations in Residence Patterns of the Central Maya Lowlands. In Precolumbian Population History in the Mava Lowlands, edited by T. P. Culbert and D. S. Rice, pp. 167181. University of New Mexico Press, Albuquerque.Google Scholar
Ford, A. 1991 Economic Variation of Ancient Maya Residential Settlement in the Upper Belize River Area. Ancient Mesoamerica 2:3546.Google Scholar
Ford, A., and Fedick, S. L. 1992 Prehistoric Maya Settlement Patterns in the Upper Belize River Area: Initial Results of the Belize River Archaeological Settlement Survey. Journal of Field Archaeology 19:3549.Google Scholar
Gliessman, S. R. 1990 Understanding the Basis of Sustainability for Agriculture in the Tropics: Experiences in Latin America. In Sustainable Agricultural Systems, edited by C. A. Edwards, R. Lal, P. Madden, R. H. Miller, and G. House, pp. 378390. Soil and Water Conservation Society, Ankeny, Iowa.Google Scholar
Gray, D. 1989 A Geographical Information System for Land Resource Management in Belize. In Advances in Environmental and Biogeographical Research in Belize, edited by P. A. Furley, pp. 119129. Biogeographical Monographs No. 3. Department of Geography, University of Edinburgh, Edinburgh.Google Scholar
Hammond, N., and Miksicek, C. H. 1981 Ecology and Economy of a Formative Maya Site at Cuello, Belize. Journal of Field Archaeology 8:259269.Google Scholar
Hartshorn, G., Nicolait, L., Hartshorn, L., Bevier, G., Brightman, R., Cal, J., Cawich, A., Davidson, W., DuBois, R., Dyer, C., Gibson, J., Hawley, W., Leonard, J., Nicolait, R., Weyer, D., White, H., and Wright, C. 1984 Belize Country Environmental Profile: A Field Study. Robert Nicolait & Associates, Belize City, Belize.Google Scholar
Hellmuth, N. 1974 Cholti-Lacandon (Chiapas) and Peten-Ytza Agriculture, Settlement Pattern, and Population. In Social Process in Maya Prehistory: Studies in Honour of Sir Eric Thompson, edited by N. Hammond, pp. 421448. Academic Press, London.Google Scholar
Holdridge, L. R., Grenke, W. C., Hatheway, W. H., Liang, T., and Tosi, J. A. Jr. 1971 Forest Environments in Tropical Life Zones: A Pilot Study. Pergamon Press, Oxford.Google Scholar
Jenkin, R. N., Rose Innes, R., Dunsmore, J. R., Walker, S. H., Birchall, C. J., and Briggs, J. S. 1976 The Agricultural Development Potential of the Belize Valley. Land Resources Study No. 24. Land Resources Division, Ministry of Overseas Development, Surbiton, England.Google Scholar
Killion, T. W. 1992 The Archaeology of Settlement Agriculture. In Gardens of Prehistory: The Archaeology of Settlement Agriculture in Greater Mesoamerica, edited by T. W. Killion, pp. 113. University of Alabama Press, Tuscaloosa.Google Scholar
Killion, T. W., Sabloff, J. A., Tourtellot, G., and Dunning, N. P. 1989 Intensive Surface Collection of Residential Clusters at Terminal Classic Sayil, Yucatan. Journal of Field Archaeology 16:273294.Google Scholar
Kimber, C. 1966 Dooryard Gardens of Martinique. Yearbook of the Association of Pacific Coast Geographers 28:97118.CrossRefGoogle Scholar
Kimber, C. 1973 Spatial Patterning in the Dooryard Gardens of Puerto Rico. The Geographical Review 63:626.Google Scholar
Klingebiel, A. A., and Montgomery, P. H. 1961 Land Capability Classification. Agriculture Handbook No. 210. United States Department of Agriculture, Washington, D.C. Google Scholar
Lambert, J. D. H., and Arnason, J. T. 1983 Ancient Maya Land Use and Potential Agricultural Productivity at Lamanai, Belize. In Drained Field Agriculture in Central and South America, edited by J. P. Darch, pp. 111122. BAR International Series No. 189. British Archaeological Reports, Oxford.Google Scholar
Lundell, C. L. 1938 Plants Probably Utilized by the Old Empire Maya of Peten and Adjacent Lowlands. Papers of the Michigan Academy of Science, Arts, and Letters 24:3756.Google Scholar
Lundell, C. L. 1942 The Vegetation and Natural Resources of British Honduras. Chronica Botanica VII: 16971.Google Scholar
McAnany, P. A. 1992 Agricultural Tasks and Tools: Patterns of Stone Tool Discard Near Prehistoric Residences Bordering Pulltrouser Swamp, Belize. In Gardens of Prehistory: The Archaeology of Settlement Agriculture in Greater Mesoamerica, edited by T. W. Killion, pp. 184213. University of Alabama Press, Tuscaloosa.Google Scholar
McRae, S. G., and Burnham, C. P. 1981 Land Evaluation. Clarendon Press, Oxford.Google Scholar
Marcus, J. 1983 Lowland Maya Archaeology at the Crossroads. American Antiquity 48:454488.Google Scholar
Miksicek, C. H., 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
Moran, E. F. 1990 Levels of Analysis and Analytical Level Shifting: Examples from Amazonian Ecosystem Research. In The Ecosystem Approach in Anthropology: From Concept to Practice, edited by E. F. Moran, pp. 279308. University of Michigan Press, Ann Arbor.Google Scholar
Morgan, W. B. 1969 The Zoning of Land Use Around Rural Settlements in Tropical Africa. In Environment and Land Use in Africa, edited by M. F. Thomas and G. W. Whittington, pp. 301319. Methuen, London.Google Scholar
Muhs, D. R., Kautz, R. R., and MacKinnon, J. J. 1985 Soils and the Location of Cacao Orchards at a Maya Site in Western Belize. Journal of Archaeological Science 12:121137.Google Scholar
Nations, J. D., and Nigh, R. B. 1980 The Evolutionary Potential of Lacandon Maya Sustained Yield Tropical Forest Agriculture. Journal of Anthropological Research 36:130.Google Scholar
Neave, H. R. 1978 Statistics Tables: For Engineers, Economists and the Behavioural and Management Sciences. George Allen and Unwin, London.Google Scholar
Netting, R. McC. 1977 Maya Subsistence: Mythologies, Analogies, Possibilities. In The Origins of Maya Civilization, edited by R. E. W. Adams, pp. 299333. University of New Mexico Press, Albuquerque.Google Scholar
Pohl, M., and Miksicek, C. H. 1985 Cultivation Techniques and Crops. In Prehistoric Lowland Maya Environment and Subsistence Economy, edited by M. Pohl, pp. 920. Papers of the Peabody Museum of Archaeology and Ethnology Vol. 77. Harvard University, Cambridge, Massachusetts.Google Scholar
Pope, K. O., and Dahlin, B. 1989 Ancient Maya Wetland Agriculture: New Insights from Ecological and Remote Sensing Research. Journal of Field Archaeology 16:87106.Google Scholar
Puleston, D. E. 1982 The Role of Ramon in Maya Subsistence. In Maya Subsistence: Studies in Memory of Dennis E. Puleston, edited by K. V. Flannery, pp. 353366. Academic Press, New York.Google Scholar
Sanders, W. T. 1977 Environmental Heterogeneity and the Evolution of Lowland Maya Civilization. In The Origins of Maya Civilization, edited by R. E. W. Adams, pp. 287297. University of New Mexico Press, Albuquerque.Google Scholar
Sanders, W. T. 1979 The Fon of Bafut and the Classic Maya. Actes du XLII Congrès International des Américanistes 8: 389399.Google Scholar
Sanders, W. T. 1981 Classic Maya Settlement Patterns and Ethnographic Analogy. In Lowland Maya Settlement Patterns, edited by W. Ashmore, pp. 351369. University of New Mexico Press, Albuquerque.Google Scholar
Siegel, S. 1956 Nonparametric Statistics for the Behavioral Sciences. McGraw-Hill, New York.Google Scholar
Soil Survey Staff 1951 Soil Survey Manual. Agriculture Handbook No. 18. Soil Conservation Service, United States Department of Agriculture, Washington, D.C. Google Scholar
Stadelman, R. 1940 Maize Cultivation in Northwestern Guatemala. Carnegie Institution of Washington Publication No. 523, Contribution No. 33. Carnegie Institution of Washington, Washington, D.C. Google Scholar
Stone, G. D. 1991a Settlement Ethnoarchaeology: Changing Patterns Among the Kofyar of Nigeria. Expedition 33(1): 1623.Google Scholar
Stone, G. D. 1991b Agricultural Territories in a Dispersed Settlement System. Current Anthropology 32:343353.Google Scholar
Thomas, D. H. 1986 Refiguring Anthropology: First Principles of Probability and Statistics. Waveland Press, Prospect Heights, Illinois.Google Scholar
Turner, B. L. II, and Miksicek, C. H. 1984 Economic Plant Species Associated with Prehistoric Agriculture in the Maya Lowlands. Economic Botany 38:179193.Google Scholar
Wagner, P. L. 1958 Nicoya: A Cultural Geography. University of California Publications in Geography 12(3): 195250.Google Scholar
Wilk, R. R. 1985 Dry Season Agriculture Among the Kekchi Maya and Its Implications for Prehistory. In Pre-historic Lowland Maya Environment and Subsistence, edited by M. Pohl, pp. 4757. Papers of the Peabody Museum of Archaeology and Ethnology Vol. 77. Harvard University, Cambridge, Massachusetts.Google Scholar
Wilken, G. C. 1987 Good Farmers: Traditional Agricultural Resource Management in Mexico and Central America. University of California Press, Berkeley.Google Scholar
Willey, G. R., Bullard, W. R. Jr., Glass, J. B., and Gifford, J. C. 1965 Prehistoric Maya Settlement in the Belize Valley. Papers of the Peabody Museum of Archaeology and Ethnology Vol. 54. Harvard University, Cambridge, Massachusetts.Google Scholar
Wiseman, F. M. 1983 Subsistence and Complex Societies: The Case of the Maya. In Advances in Archaeological Method and Theory, vol. 6, edited by M. B. Schiffer, pp. 143189. Academic Press, New York.Google Scholar
Wright, A. C. S., Romney, D. H., Arbuckle, R. H., and Vial, V. E. 1959 Land in British Honduras: Report of the British Honduras Land Survey Team. Colonial Research Publications No. 24. Colonial Office, London.Google Scholar
Zarky, A. 1976 Statistical Analysis of Site Catchments at Ocos, Guatemala. In The Early Mesoamerican Village, edited by K. V. Flannery, pp. 117130. Academic Press, New York.Google Scholar