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Chenopodium Cultivation and Formative Period Agriculture at Chiripa, Bolivia

Published online by Cambridge University Press:  20 January 2017

Maria C. Bruno
Affiliation:
Department of Anthropology, Washington University in St. Louis, MO 63130
William T. Whitehead
Affiliation:
Department of Anthropology, University of California, Berkeley, CA 94720

Abstract

The emergence of agriculture during the Formative period in the southern Lake Titicaca Basin played a crucial role in the development of the region’s first complex societies. Our study of Chenopodium seeds from the site of Chiripa, Bolivia, sheds light on some of the small-scale processes contributing to the development of agricultural systems between 1500 B.C. and A.D. 100. Using a combination of scanning electron and light microscopy, we identified the crop/weed complex of the domesticate, quinoa (C. quinoa Willd.), and its weedy relative, quinoa negra (C. quinoa var. melanospermum Hunziker), at Chiripa by 1500 B.C. Analyses of quinoa/quinoa negra morphometry and seed frequencies suggest that during the Early Formative period, farmers maintained gardens where both the crop and weed grew and were harvested for consumption. Around 800 B.C., however, we find samples almost entirely of quinoa at Chiripa’s social and political center, the Montículo. The paucity of quinoa negra seeds suggests that Middle Formative period farmers became more meticulous cultivators of quinoa, perhaps through weeding, careful seed selection, and construction of fields. This study complements previous investigations of settlement patterns, landscape modification, and stone tool use in this region, providing a richer understanding of Formative period agriculture.

El surgimiento de la agricultura en la cuenca sur del lago Titicaca fue esencial para el desarrollo de las primeras sociedades complejas. Se presenta un estudio de las semillas de Chenopodium del sitio Chiripa, Bolivia, el cual permite aclarar algunos procesos particulares del desarrollo de la agricultura. Con el uso combinado de microscopio electrónico de barrido (MEB) y microscopía de luz, se identificaron semillas del complejo cultivo/hierbas adventicias de quinoa (C. quinoa Willd.)/quinoa negra (C. quinoa var. melanospermum Hunziker) alrededor del año 1500 a.C. Análisis adicionales de la morfología y la frecuencia de las semillas, revelan cambios significativos. En el período Formativo Temprano (1500 a.C--800 a.C.) los agricultores tenían jardines donde el cultivo y la hierba adventicia crecían juntas y ambas eran cosechadas para su consumo. Alrededor del año 800 a.C. en excavaciones del centro ceremonial, El Montículo, se encontraron muestras con pocas semillas de quinoa negras y muchas semillas de quinoa. La deficiencia de semillas de quinoa negra sugiere que los agricultores del período Formativo Medio (800 a.C.–100 d.C.) se dedicaron al cultivo exclusivo de quinoa tal vez utilizando nuevas técnicas de cultivo como el desyerbe, la selección cuidadosa de semillas y la construcción de campos para los cultivos.

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Reports
Copyright
Copyright © 2003 by the Society for American Archaeology.

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References

References Cited

Advisory Committee on Technology Innovation 1989 Lost Crops of the Jncas: Little-Known Plants of the Andes with Promise for Worldwide Cultivation. National Academy Press, Washington, D.C. Google Scholar
Albarracín-Jordan, Juan 1996 Tiwanaku: arqueología regional y dinámica segmentaria. Editores Plural, La Paz.Google Scholar
Albarracín-Jordan, Juan, and Mathews, James E. 1990 Asentamientos prehispánicos del Valle de Tiwanaku. Vol. 1. Producciones CIMA, La Paz.Google Scholar
Aldenderfer, Mark S. 1999 The Late Preceramic-Early Formative Transition on the South-Central Andean Littoral. In Pacific Latin America in Prehistory: the Evolution of Archaic and Formative Cultures, edited by Michael Blake, pp. 213222. Washington State University Press, Pullman.Google Scholar
Asch, David L., and Asch, Nancy B. 1977 Chenopod as Cultigen: A Re-evaluation of some Prehistoric Collections from Eastern North America. Midcontinental Journal of Archaeology 2:345.Google Scholar
Baker, Herbert G. 1972 The Evolution of Weeds. Annual Review of Ecology and Systematics. 5:124.CrossRefGoogle Scholar
Bandy, Matthew S. 1999 The Montículo Excavations. In Early Settlement at Chiripa, Bolivia: Research of the Taraco Archaeological Project, edited by Christine A. Hastorf, pp. 4350. Contributions of the University of California Archaeological Research Facility, No. 57. Berkeley.Google Scholar
Bandy, Matthew S. 2001 Population and History in the Ancient Titicaca Basin. Unpublished Ph.D. dissertation, Department of Anthropology, University of California, Berkeley.Google Scholar
Bennett, Wendell C. 1936 Excavations in Bolivia. Anthropological Papers of the American Museum of Natural History 35(4):329507.Google Scholar
Browman, David L. 1978 The Temple of Chiripa (Lake Titicaca, Bolivia). In III Congresso Peruano “El Hombre y La Cultura Andina” Vol. 2, edited by Ramiro M. Matos, pp. 807813. Universidad Nacional Mayor de San Marcos, Lima.Google Scholar
Browman, David L. 1980 Tiwanaku Expansion and Altiplano Economic Patterns. Estudios Arqueologicos 5:107120.Google Scholar
Browman, David L. 1981 New Light on Andean Tiwanaku. American Scientist 69:408419.Google Scholar
Browman, David L. 1986 Chenopod Cultivation, Lacustrine Resources, and Fuel Use at Chiripa, Bolivia. The Missouri Archaeologist 47:137172.Google Scholar
Bruno, Maria C. 2001 Formative Agriculture? The Status of Chenopodium Domestication and Intensification at Chiripa, Bolivia (1500 B.C–A.D. 100). Unpublished Master's thesis, Department of Anthropology. Washington University in St. Louis.Google Scholar
Bruno, Maria C. 2003 A Morphological Approach to Documenting Chenopodium Domestication in the Andes. In Documenting Domestication: New Biological and Archaeological Approaches, edited by Melinda A. Zeder, Deena Decker-Walters, Dan Bradley, and Bruce D. Smith, Smithsonian Institution Press, Washington, D.C., in press.Google Scholar
Brush, Stephen, Carney, Heath J., and Huaman, Zosimo 1981 Dynamics of Andean Potato Agriculture. Economic Botany 35(1):7088.Google Scholar
Cardenas, Martin 1989 Manual de plantas económicas de Bolivia. Editorial Los Amigos del Libro, La Paz.Google Scholar
Carter, William, and Mamani, Mauricio 1982 Irpa Chico: individuo y comunidad en la cultura Aymara. Librería Editorial Juventud, La Paz.Google Scholar
de Wet, J.M.J. 1973 Evolutionary Dynamics of Cereal Domestication. Bulletin of the Torrey Botanical Club 102:307312.CrossRefGoogle Scholar
de Wet, J. M. J., and Harlan, Jack R. 1975 Weeds and Domesticates: Evolution in the Man-Made Habitat. Economic Botany 29:99107.Google Scholar
Eisentraut, Phyllisa 1998 Macwbotanical Remains from Southern Peru: A Comparison of Late Archaic-Early Formative Period Sites from the Puna and Suni Zones of the Western Titcaca Basin. Ph.D. dissertation, University of California, Santa Barbara. University Microfilms, Ann Arbor.Google Scholar
Erickson, Clark L. 1976 Chiripa Ethnobotanical Report: Flotation Recovered Archaeological Remains from an Early Settled Village on the Altiplano of Bolivia. Unpublished Senior thesis, Department of Anthropology, Washington University in St. Louis.Google Scholar
Erickson, Clark L. 1988 Raised Field Agriculture in the Lake Titicaca Basin. Expedition 30(3):816.Google Scholar
Erickson, Clark L. 1996 Investigación arqueológica del sistema agrícola de los camellones en la cuenca del Lago Titicaca del Perú. PIWA and El Centro de Información para el Desarollo, La Paz.Google Scholar
Erickson, Clark L. 2000 The Lake Titicaca Basin: A Precolumbian Built Landscape. In Imperfect Balance: Landscape Transformations in the Precolumbian Americas, edited by David L. Lentz, pp. 311356. Columbia University Press, New York.Google Scholar
Fonesca, Mattel, and Mayer, Enrique 1988 Comunidad y producción en la agricultura andina. FOMCIENIAS, Lima.Google Scholar
Fritz, Gayle J., and Smith, Bruce D. 1988 Old Collections and New Technology: Documenting the Domestication of Chenopodium in Eastern North America. Midcontinental Journal of Archaeology 13:327.Google Scholar
Gandarillas Santa Cruz, Humberto 1974 Genética y origen de la quinua. Institute National del Trigo, Departamento de Estudios Económicos, Estadísticas, y Comercialización. La Paz.Google Scholar
Gose, Peter 1994 Deathly Waters and Hungry Mountains: Agrarian Rituals and Class Formation in an Andean Town. University of Toronto Press, Toronto.Google Scholar
Graffam, Gray 1990 Raised Fields Without Bureaucracy: An Archaeological Examination of Intensive Wetland Cultivation in the Pampa Koani Zone, Lake Titicaca, Bolivia. Unpublished Ph.D. Dissertation, University of Toronto.Google Scholar
Gremillion, Kristen J. 1993a Crop and Weed in Prehistoric Eastern North America: The Chenopodium Example. American Antiquity 58:496509.Google Scholar
Gremillion, Kristen J. 1993b The Evolution of Seed Morphology in Domesticated Chenopodium: An Archaeological Case Study. Journal of Ethnobiology 13(2):149169.Google Scholar
Harlan, Jack, and de Wet, J. M. J. 1965 Some Thoughts on Weeds. Economic Botarey 19:1624.Google Scholar
Harris, David 1989 An Evolutionary Continuum of People-Plant Interaction. In Foraging and Farming, edited by David Harris and Gordan Hillman, pp. 1126. Unwin Hyman, London.Google Scholar
Hastorf, Christine A. 1999a An Introduction to Chiripa and the Site Area. In Early Settlement at Chiripa, Bolivia: Research of the Taraco Archaeological Project, pp. 16. Contributions of the University of California Archaeological Research Facility, No. 57. Berkeley.Google Scholar
Hastorf, Christine A. 1999b Modified SMAP Flotation Sample Processing. Archaeobotany Laboratory Report 46, Manuscript on file, Paleothnobotany Laboratory, University of California, Berkeley.Google Scholar
Hastorf, Christine A., Bandy, Matthew S., Ayon, Rene, Dean, Emily, Doutriaux, Miriam, Frye, Kirk L., Goddard, Rachel, Johnson, Don, Moore, Katherine, Paz, José Luis, Puertas, Daniel, Steadman, Lee, and Whitehead, William T. 1998 Taraco Archaeological Project: 1998 Excavations at Chiripa, Bolivia. Informe for the Dirección Internacional de Antropología y Arqueología. Manuscript on file, Paleoethnobotany Laboratory, University of California, Berkeley.Google Scholar
Holzner, W., and Numata, M. (editors) 1982 Biology and Ecology of Weeds. Junk, The Hague.Google Scholar
Hunziker, Armando T. 1943 Las especies alimenticias de Amarantus y Chenopodium cultivadas por los indios de América. Revista Argentina Agronomica 10(2): 146154.Google Scholar
Hunziker, Armando T. 1952 Los psuedocereales de la agricultura indígena de América. Córdoba, Argentina.Google Scholar
Janusek, John W., and Kolata, Alan L. 2002 Pre-Hispanic Rural History in the Katari Valley. In Tiwanaku and Its Hinterland: Archaeology and Paleoecology of an Andean Civilization, Vol. 2 Urban and Rural Archaeology, edited by Alan L. Kolata, pp. 129167. Smithsonian Institution Press, Washington, D.C. Google Scholar
Kidder, Alfred 1956 Digging in the Titicaca Basin. University of Pennsylvania Museum Bulletin 20(3): 1629.Google Scholar
Kolata, Alan L. 1986 The Agricultural Foundations of the Tiwanaku State: A View from the Heartland. American Antiquity 51:748762.Google Scholar
Kolata, Alan L. (editor) 1996 Tiwanaku and Its Hinterland: Archaeology and Paleoecology of an Andean Civilization, Vol. 1 Agroecology. Smithsonian Institution Press, Washington, D.C. Google Scholar
Kolata, Alan L., and Ortloff, Charles 1996 Tiwanaku Raised-Field Agriculture in the Lake Titicaca Basin of Bolivia. In Tiwanaku and Its Hinterland: Archaeology and Paleoecology of an Andean Civilization, Vol. 1 Agroecology, edited by Alan L. Kolata, pp. 109152. Smithsonian Institution Press, Washington, D.C. Google Scholar
Kuznar, Lawrence A. 1993 Mutualism Between Chenopodium, Herd Animals, and Herders in the South Central Andes. Mountain Research and Development 13:257265.CrossRefGoogle Scholar
La Barre, Weston 1959 Materia Medica of the Aymara, Lake Titicaca Plateau, Bolivia. Webbia 15(1):4794.Google Scholar
Lémuz-Aguirre, Carlos 2001 Patrones de asentamiento arqueológico en la Península de Santiago de Huatta, Bolivia. Tesis de Licenciatura. Universidad Mayor de San Andres, La Paz.Google Scholar
Lennstrom, Heidi A., Hastorf, Christine A., and Wright, Melanie 1991a Informe: Lower Tiwanaku Valley Survey Sites. Archaeobotany Laboratory Report 23. Manuscript on file, Paleoethobotany Laboratory, University of California Berkeley.Google Scholar
Lennstrom, Heidi A., Hastorf, Christine A., and Wright, Melanie 1991b Informe: Middle Tiwanaku Valley Survey Sites. Archaeobotany Laboratory Report 23. Manuscript on file, Paleoethnobotany Laboratory, University of California Berkeley.Google Scholar
Lennstrom, Heidi A., Hastorf, Christine A., and Wright, Melanie 1992 Informe: Lukurmata. Archaeobotany Laboratory Report 28. Manuscript on file, Paleoethnobotany Laboratory, University of California, Berkeley.Google Scholar
Mohr-Chavéz, Karen 1988 The Significance of Chiripa in Lake Titicaca Basin Developments. Expedition. 30(3):2, 1726.Google Scholar
Moore, Katherine M., Steadman, David, and deFrance, Susan 1999 Herds, Fish, and Fowl in the Domestic and Ritual Economy of Formative Chiripa. In Early Settlement at Chiripa, Bolivia: Research of the Taraco Archaeological Project, edited by Christine A. Hastorf, pp. 105116. Contributions of the University of California Archaeological Research Facility, No. 57. Berkeley.Google Scholar
Nelson, David 1968 Taxonomy and origins of Chenopodium quinoa and Chenopodium nuttalliae. Ph.D. dissertation, Indiana University. University of Michigan Microfilms. Ann Arbor, Michigan.Google Scholar
Nordstrom, Carol 1990 Evidence for the Domestication of Chenopodium in the Andes. Report to the National Science Foundation. Archaeobotany Laboratory Report 19 on file, Paleoethobotany Laboratory, University of California Berkeley.Google Scholar
Orlove, Benjamin S., and Godoy, Richard 1986 Sectoral Fallowing Systems in the Central Andes. Journal of Ethnobiology 6(1):169204.Google Scholar
Paz Soría, losé Luis 1999 Excavations in the Llusco Area. In Early Settlement at Chiripa, Bolivia: Research of the Taraco Archaeological Project, edited by Christine A. Hastorf, pp.3136. Contributions of the University of California Archaeological Research Facility, No. 57. Berkeley.Google Scholar
Pearsall, Deborah M. 1980 Ethnobotanical Report: Plant Utilization at a Hunting Base Camp. In Prehistoric Hunters of the High Andes, edited by John Rick, pp. 191231. Academic Press, New York.Google Scholar
Pearsall, Deborah M. 1989 Adaptation of Prehistoric Hunter-Gatherers in the High Andes: The Changing Role of Plant Resources. In Foraging and Farming, edited by David Harris and Gordan Hillman, pp. 318332. Unwin Hyman, London.Google Scholar
Pearsall, Deborah M. 1992 The Origins of Plant Cultivation in South America. In The Origins of Agriculture: An International Perspective, edited by C. Wesely Cowan and Patty Jo Watson, pp. 173205. Smithsonian Institution Press, Washington D.C. Google Scholar
Pickersgill, Barbara 1977 Biosystematics of Crop-Weed Complexes. Kulturplfanze 26:377388.Google Scholar
Ponce Sanginés, Carlos 1970 Las culturas Wankarani y Chiripa y su relatión con Tiwanaku, Academia Nacional de Ciencias de Bolivia No. 25. La Paz.Google Scholar
Portugal Ortíz, Max 1992 Aspectos de la cultura Chiripa. Textos Antropológicos 3:926.Google Scholar
Portugal Ortíz, Max 1998 Cultura Chiripa: proto-estado del altiplano. Textos Antropológicos 9:2145.Google Scholar
Risi, J., and Galwey, N. W. 1984 The Chenopodium Grains of the Andes: Inca Crops for Modern Agriculture. Advances in Applied Biology 10:145216.Google Scholar
Ruas, Paulo M., Bonifacio, Alejandro, Ruas, Claudete F., Fairbanks, Daniel J., and Andersen, William R. 1999 Genetic Relationship Among 19 Accessions of Six Species of Chenopodium L., by Random Amplified Polymorphic DNA Fragments (RAPD). Euphytica 105:2532.Google Scholar
Smith, Bruce D. 1984 Chenopodium as a Prehistoric Domesticate in Eastern North America: Evidence from Russell Cave, Alabama. Science 226:165167.Google Scholar
Smith, Bruce D. 1985a The Role of Chenopodium as a Domesticate in Pre-Maize Garden Systems of the Eastern United States. Southeastern Archaeology 4(1):5172.Google Scholar
Smith, Bruce D. 1985b Chenopodium berlandieri ssp. jonesianum: Evidence for a Hopewellian Domesticate From Ash Cave, Ohio. Southeastern Archaeology 4:107133.Google Scholar
Smith, Bruce D. 1988 SEM and the Identification of Micro-Morphological Indicators of Domestication in Seed Plants. In Scanning Electron Microscopy in Archaeology, edited by Sandra L. Olsen, pp. 203214. BAR International Series 452. Oxford, England.Google Scholar
Stanish, Charles 1994 The Hydraulic Hypothesis Revisited: Lake Titicaca Basin Raised Fields in Theoretical Perspective. Latin American Antiquity 5:312332.Google Scholar
Stanish, Charles 1999 Settlement Pattern Shifts and Political Ranking in the Lake Titicaca Basin, Peru. In Settlement Pattern Studies in the Americas: Fifty Years Since Virú, edited by Brian R. Billman and Gary M. Feinman, pp. 116130. Smithsonian Institution Press, Washington D.C. Google Scholar
Stanish, Charles 2003 Ancient Titicaca: The Evolution of Complex Society in Southern Peru and Northern Bolivia. University of California Press, Los Angeles.Google Scholar
Stanish, Charles, de la Vega, Edmundo, Steadman, Lee, Cecilia, Chávez J., Frye, Kirk L., Seddon, Onofre M., Luperio, Matthew, and Percy, Calisaya Ch. 1997 Archaeological Survey in the Juli-Desaguadero Region of Lake Titicaca Basin, Peru. Fieldiana Anthropology, New Series 29. Field Museum Press, Chicago.Google Scholar
Steadman, Lee 1999 The Ceramics. In Early Settlement at Chiripa, Bolivia: Research of the Taraco Archaeological Project, edited by Christine A. Hastorf, pp.6172. Contributions of the University of California Archaeological Research Facility, No. 57. Berkeley.Google Scholar
Tapia Vargas, Guillermo 1976 La Quinua: un cultivo de los Andes altos. Academia Nacional de Ciencias. La Paz, Bolivia.Google Scholar
Towle, Margaret 1961 The Ethnobotany of Pre-Columbian Peru. Viking Publications in Anthropology 30. Aldine, Chicago.Google Scholar
Wahli, Cristian 1990 Quinua: hacia su cultivo comericial. Latinreco S.A., Quito, Ecuador.Google Scholar
Ward, Susan M. 2000 Response to Selection for Reduced Grain Saponin Content in Quinoa (Chenopodium quinoa Willd.). Field Crops Research 68:157163.Google Scholar
Whitehead, William T. 1999a Paleoethnobotanical Evidence. In Early Settlement at Chiripa, Bolivia: Research of the Taraco Archaeological Project, edited by Christine A. Hastorf, pp. 95104. Contributions of the University of California Archaeological Research Facility, No. 57. Berkeley.Google Scholar
Whitehead, William T. 1999b Radiocarbon Dating. In Early Settlement at Chiripa, Bolivia: Research of the Taraco Archaeological Project, edited by Christine A. Hastorf, pp. 1722. Contributions of the University of California Archaeological Research Facility, No. 57. Berkeley.Google Scholar
Whitehead, William T. 2000 Perspectives on Agriculture from Formative and Tiwanaku Sites in the Bolivian Altiplano. Paper presented at the 65th Annual Meeting of the Society for American Archaeology. Philadelphia.Google Scholar
Whitehead, William T. 2003 Exploring the Wild and Domestic: Paleoethnobotany at Chiripa, a Formative Site in Bolivia. Manuscript on file, Paleoethnobotany Laboratory, University of California, Berkeley.Google Scholar
Wilson, Hugh D. 1980 Artificial Hybridization Among Species of Chenopodium sect. Chenopodium. Systematic Botany 5:253263.Google Scholar
Wilson, Hugh D. 1981 Domesticated Chenopodium of the Ozark Bluff Dwellers. Economic Botany 35:233239.CrossRefGoogle Scholar
Wilson, Hugh D. 1988a Quinua Biosystematics II: Free-Living Populations. Economic Botany 42:478494.Google Scholar
Wilson, Hugh D. 1988b Quniua Biosystematics: Domesticated Populations. Economic Botany 42:461477.CrossRefGoogle Scholar
Wilson, Hugh D. 1988c Allozyme Variation and Morphological Relationships of Chenopodium hircinum . Systematic Botany 13:215228.Google Scholar
Wilson, Hugh D. 1990 Quinua and relatives (Chenopodium sect. Chenopodium subsect. Cellulatd). Economic Botany 44(Supplement): 92110.Google Scholar
Wright, Melanie, Hastorf, Christine A., and Lennstrom, Heidi A. 2002 Pre-Hispanic Agriculture and Plant Use at Tiwanaku: Social and Political Implications. In Tiwanaku and Its Hinterland: Urban and Rural Archaeology, edited by Alan L. Kolata, pp. 384403. Smithsonian Institution Press, Washington, D.C. Google Scholar