Plant Domestication and the Shift to Agriculture in the Andes

  • Deborah M. Pearsall

The Andes encompass deserts, tropical forests, and high elevation environments. An equally diverse array of crops is present, many with origins in regions as distant as west Mexico and Brazil (Figure 7.1). The story of agriculture, and the plant domestication underwriting it, begins in the Early Holocene, in the economies of early hunter-gatherers. It culminates in the late pre-Hispanic period when populations throughout the area had agricultural economies that supported large populations, many of which were organized as highly complex societies. In this chapter I review the crops that underlie Andean agriculture, summarize our understanding of their areas of origin, and review the archaeological record of plant domestication and agriculture. I focus only on major domesticated plants that occur in the Andean archaeological record. The key sources include Hernández Bermejo and León (1994), Piperno and Pearsall (1998), Sauer (1993), and Smartt and Simmonds (1995).


Sweet Potato Common Bean Economic Botany Lima Bean Plant Domestication 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.


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  1. Aldenderfer, Mark, 1999, The Pleistocene/Holocene transition in Peru and its effects upon human use of the landscape. Quaternary International 53/54: 11–19.CrossRefGoogle Scholar
  2. Babot, María de Pilar, 2004, Tecnología y Utilización de Artefactos de Molienda en el Noroeste Prehispánico. Tesis Doctoral. Universidad Nacional de Tucumán, Argentina.Google Scholar
  3. Bonzani, Renee M., 1998, Learning from the present. Constraints of plant seasonality on foragers and collectors. In Recent Advances in the Archaeology of the Northern Andes, edited by Augusto Oyuela-Caycedo and J. Scott Raymond, pp. 20–35. Institute of Archaeology, UCLA.Google Scholar
  4. Bruno, Maria C. and William T. Whitehead, 2003, Chenopodium cultivation and Formative Period agriculture at Chiripa, Bolivia. Latin American Antiquity 14: 339–355.CrossRefGoogle Scholar
  5. Denevan, William M., 2001, Cultivated Landscapes of Native Amazonia and the Andes. Oxford University Press, Oxford.Google Scholar
  6. Dillehay, Tom D. and Jack Rossen, 2002, Plant food and its implications for the peopling of the New World: a view from South America. Memoirs of the California Academy of Science 27: 237–253.Google Scholar
  7. Elias, Marianne, Gilda Santos Mühllen, Doyle McKey, Ana Carolina Roa, and Joe Tohme, 2004, Genetic diversity of traditional South American landraces of cassava (Manihot esculenta Crantz): an analysis using microsatellites. Economic Botany 58: 242–256.CrossRefGoogle Scholar
  8. Emshwiller, Eve, 2002, Biogeography of the Oxalis tuberosa alliance. The Botanical Review 68: 128–152.CrossRefGoogle Scholar
  9. Erickson, Clark L., 1987, The dating of raised-field agriculture in the Lake Titicaca basin, Peru. In Pre-Hispanic Agricultural Fields in the Andean Region, edited by William M. Denevan, Kent Mathewson, and Gregory Knapp, pp. 373–384. BAR International Series, 359.Google Scholar
  10. Hastorf, Christine A., 1993, Agriculture and the Onset of Political Inequality before the Inka. Cambridge University Press, Cambridge.Google Scholar
  11. Hawkes, J. G., 1990, The Potato. Evolution, Biodiversity, and Genetic Resources. Smithsonian Institution Press, Washington, D.C.Google Scholar
  12. Hernández Bermejo, J. E. and J. León (eds.), 1994, Neglected Crops. 1492 from a Different Perspective. FAO, Rome.Google Scholar
  13. Janusek, John W. and Alan L. Kolata, 2004, Top-down or bottom-up: rural settlement and raised field agriculture in the Lake Titicaca basin, Bolivia. Journal of Anthropological Archaeology 23: 404–430.CrossRefGoogle Scholar
  14. Kaplan, Lawrence and Thomas F. Lynch, 1999, Phaseolus (Fabaceae) in archaeology: AMS radiocarbon dates and their significance for pre-Columbian agriculture. Economic Botany 53: 261–272.Google Scholar
  15. Marchant, Robert, Hermann Behling, Juan Carlos Berrio, Henry Hooghiemstra, Bas van Geel, Thomas van der Hammen, Luisa Herrera, Bert Melief, Guido van Reenen, and Michael Wille, 2004, Vegetation disturbance and human population in Colombia—a regional reconstruction. Antiquity 78: 828–838.Google Scholar
  16. Moore, Katherine M., 1989, Hunting and the Origins of Herding in Peru. Ph.D. dissertation. Department of Anthropology, University of Michigan.Google Scholar
  17. Morris, Arthur, 1999, The agricultural base of the pre-Incan Andean civilizations. The Geographical Journal 165: 286–295.CrossRefGoogle Scholar
  18. Olsen, Kenneth M. and Barbara A. Schaal, 1999, Evidence on the origin of cassava: phylogeography of Manihot esculenta. Proceedings of the National Academy of Sciences 96: 5586–5591.CrossRefGoogle Scholar
  19. Pearsall, Deborah M., 1987, Evidence for prehistoric maize cultivation on raised fields at Pe#x00F1;on del Río, Guayas, Ecuador. In Pre-Hispanic Agricultural Fields in the Andean Region, edited by William M. Denevan, Kent Mathewson, and Gregory Knapp, pp. 279–295. BAR International Series, 359.Google Scholar
  20. Pearsall, Deborah M., 1992, The origins of plant cultivation in South America. In The Origins of Agriculture. An International Perspective, edited by C. Wesley Cowan and Patty Jo Watson, pp. 173–205. Smithsonian Institution Press, Washington, D.C.Google Scholar
  21. Pearsall, Deborah M., 2003, Plant food resources of the Ecuadorian Formative: an overview and comparison to the Central Andes. In Archaeology of Formative Ecuador. J. Scott Raymond and Richard L. Burger, pp. 213–257. Dumbarton Oaks Research Library and Collection, Washington, D.C.Google Scholar
  22. Pearsall, Deborah M., 2004, Plants and People in Ancient Ecuador: The Ethnobotany of the Jama River Valley. Wadsworth/Thomson, Belmont, CA.Google Scholar
  23. Pearsall, Deborah M., Karol Chandler-Ezell, and James A. Zeidler, 2004, Maize in ancient Ecuador: results of residue analysis of stone tools from the Real Alto site. Journal of Archaeological Science 31: 423–442.CrossRefGoogle Scholar
  24. Perry, Linda, 2002, Starch granule size and the domestication of manioc (Manihot esculenta) and sweet potato (Ipomoea batatas). Economic Botany 56: 335–349.CrossRefGoogle Scholar
  25. Perry, Linda, Daniel H. Sandweiss, Dolores R. Piperno, Kurt Rademaker, Michael A. Malpass, Adán Umire, and Pablo de la Vera, 2006, Early maize agriculture and interzonal interaction in Southern Peru. Nature 440: 76–79.CrossRefGoogle Scholar
  26. Piperno, Dolores R. and Deborah M. Pearsall, 1998, The Origins of Agriculture in the Lowland Neotropics. Academic Press, San Diego.Google Scholar
  27. Plowman, Timothy, 1984, The origin, evolution, and diffusion of coca, Erythroxylum spp., in South and Central America. In Pre-Columbian Plant Migration, edited by Doris Stone, pp. 125–163. Peabody Museum, Harvard University, Cambridge, MA.Google Scholar
  28. Rindos, David, 1984, The Origins of Agriculture. An Evolutionary Perspective. Academic Press, Orlando.Google Scholar
  29. Rossen, Jack, Tom D. Dillehay, and Donald Ugent, 1996, Ancient cultigens or modern intrusions? Evaluating plant remains in an Andean case study. Journal of Archaeological Science 23: 391–407.CrossRefGoogle Scholar
  30. Sarmiento, Fausto O., 2002, Anthropogenic change in the landscapes of highland Ecuador. Geographical Review 92: 213–235.CrossRefGoogle Scholar
  31. Sauer, Jonathan D., 1993, Historical Geography of Crop Plants. A Select Roster. CRC, Boca Raton.Google Scholar
  32. Smartt, J. and N. W. Simmonds (eds.), 1995, Evolution of Crop Plants. Longman, UK.Google Scholar
  33. Van den Berg, R. G., N. Groendijk-Wilders, and J. P. Kardolus, 1996, The wild ancestors of cultivated potato: the brevicaule-complex. Acta Botanica Neerlandia 45: 157–171.Google Scholar
  34. Wheeler, Jane C., 1995, Evolution and present situation of the South American Camelidae. Biological Journal of the Linnean Society 54: 271–295.CrossRefGoogle Scholar
  35. Zeidler, James A. and Deborah M. Pearsall (eds.), 1994, Regional Archaeology in Northern Manabí, Ecuador, Volume 1. University of Pittsburgh Memoirs in Latin American Archaeology. Pittsburgh.Google Scholar
  36. Zimmerer, K. S., 1995, The origins of Andean irrigation. Nature 378: 481–483.CrossRefGoogle Scholar

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© Springer Science+Business Media, LLC 2008

Authors and Affiliations

  • Deborah M. Pearsall
    • 1
  1. 1.Department of AnthropologyUniversity of MissouriColumbiaUSA

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