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II.A.4 - Maize

from II.A - Grains

Published online by Cambridge University Press:  28 March 2008

By
Ellen Messer
Edited by
Kenneth F. Kiple  and
Kriemhild Coneè Ornelas
Kenneth F. Kiple
Affiliation:
Bowling Green State University, Ohio
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Summary

Maize (Zea mays L.), a member of the grass family Poaceae (synonym Gramineae), is the most important human dietary cereal grain in Latin America and Africa and the second most abundant cultivated cereal worldwide. Originating in varying altitudes and climates in the Americas, where it still exhibits its greatest diversity of types, maize was introduced across temperate Europe and in Asia and Africa during the sixteenth and seventeenth centuries. It became a staple food of Central Europe, a cheap means of provisioning the African-American slave trade by the end of the eighteenth century, and the usual ration of workers in British mines in Africa by the end of the nineteenth century. In the twentieth century, major increases in maize production, attributed to developments in maize breeding, associated water management, fertilizer response, pest control, and ever-expanding nutritional and industrial uses, have contributed to its advance as an intercrop (and sometimes as a staple) in parts of Asia and to the doubling and tripling of maize harvests throughout North America and Europe. High-yield varieties and government agricultural support and marketing programs, as well as maize’s biological advantages of high energy yields, high extraction rate, and greater adaptability relative to wheat or rice, have all led to maize displacing sorghum and other grains over much of Africa.

On all continents, maize has been fitted into a wide variety of environments and culinary preparations; even more significant, however, it has become a component of mixed maize-livestock economies and diets. Of the three major cereal grains (wheat, rice, and maize), maize is the only one not grown primarily for direct human consumption. Approximately one-fifth of all maize grown worldwide is eaten directly by people; two-thirds is eaten by their animals; and approximately one-tenth is used as a raw material in manufactured goods, including many nonfood products.

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The Cambridge World History of Food , pp. 97 - 112
Publisher: Cambridge University Press
Print publication year: 2000

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References

Acosta, J.. 1954. Historia natural y moral de las Indias. Madrid.Google Scholar
,Ad Hoc Panel of the Advisory Committee on Technology Innovation, Board on Science and Technology for International Development, National Research Council. 1988. Quality-protein maize. Washington, D.C.
Allen, W. 1965. The African husbandman. Edinburgh.Google Scholar
Anderson, E. N. 1988. The food of China. New Haven, Conn.Google Scholar
Anghiera, P.Martíre d', P. 1912. De Orbe Novo, the eight decades of Peter Martyr d'Anghera, trans. Mac-Nutt, F. A.. New York.Google Scholar
Anthony, C. 1988. Mechanization and maize. Agriculture and the politics of technology transfer in East Africa. New York.Google Scholar
Asturias, M. A. 1993. Men of maize, trans. Martin, G.. Pittsburgh, Pa.Google Scholar
Austin, J., and Esteva, G., eds. 1987. Food policy in Mexico. Ithaca, N.Y.Google Scholar
Barkin, D. 1987. SAM and seeds. In Food policy in Mexico, ed. Austin, J. and Esteva, G.. Ithaca, N.Y.Google Scholar
Barkin, D., Batt, R. L., and DeWalt, B. R.. 1990. Food crops and feed crops: The global substitution of grains in production. Boulder, Colo.Google Scholar
Beadle, G. W. 1939. Teosinte and the origin of maize. Journal of Heredity 30.CrossRefGoogle Scholar
Bellon, M. 1991. The ethnoecology of maize variety management: A case study from Mexico. Human Ecology 19.CrossRefGoogle Scholar
Bijman, J. 1994. Plant genetic systems. Biotechnology and Development Monitor 19.Google Scholar
Bonafous, M. 1836. Histoire naturelle, agricole et économique du maïs. Paris.Google Scholar
Bonavia, D., and Grobman, A.. 1989. Andean maize: Its origins and domestication. In Foraging and farming: The evolution of plant exploitation, ed. Harris, D. R. and Hillman, G. C.. London.Google Scholar
Brandes, S. 1992. Maize as a culinary mystery. Ethnology 31.CrossRefGoogle Scholar
Bratton, M. 1986. Farmer organizations and food production in Zimbabwe. World Development 14.CrossRefGoogle Scholar
Brenner, C. 1991. Biotechnology for developing countries: The case of maize. Paris.Google Scholar
Brush, S., Bellon, M., and Schmidt, E.. 1988. Agricultural diversity and maize development in Mexico. Human Ecology 16.CrossRefGoogle Scholar
Candolle, A.. 1884. Origin of cultivated plants. London.CrossRefGoogle Scholar
,CIMMYT (International Center for the Improvement of Maize and Wheat). 1981. World maize facts and trends. Report 1. Mexico City.
,CIMMYT (International Center for the Improvement of Maize and Wheat). 1984. World maize facts and trends. Report 2. An analysis of changes in Third World food and feed uses of maize. Mexico City.
,CIMMYT (International Center for the Improvement of Maize and Wheat). 1987. World maize facts and trends. Report 3. An analysis of the economics of commercial maize seed production in developing countries. Mexico City.
,CIMMYT (International Center for the Improvement of Maize and Wheat). 1990. World maize facts and trends. Realizing the potential of maize in sub-Saharan Africa. Mexico City.
,CIMMYT (International Center for the Improvement of Maize and Wheat). 1992. 1991/1992 World maize facts and trends. Mexico City.
,CIMMYT (International Center for the Improvement of Maize and Wheat). ,CIMMYT. 1994. 1993/1994 World maize facts and trends. Mexico City.
Cobo, B. 1890–3. Historia del nuevo mundo. Seville.Google Scholar
Coe, S. 1994. America’s first cuisine. Austin, Tex.Google Scholar
Cohen, D. W., and Odhiambo, E. S. Atieno. 1989. The hunger of Obalo. In Siaya: The historical anthropology of an African landscape. London and Athens, Ohio.Google Scholar
Cohen, J. 1995. Project refines an ancient staple with modern science. Science 267.CrossRefGoogle ScholarPubMed
De Janvry, A., Sadoulet, E., and Anda, G. Gordillo. 1995. NAFTA and Mexico’s maize producers. World Development 23.CrossRefGoogle Scholar
De Walt, K. 1990. Shifts from maize to sorghum production: Nutrition effects in four Mexican communities. Food Policy 15.Google Scholar
del Paso y Troncoso, F. 1905. Papeles de Nueva Espana, Segunda Serie, geografia y estadistica. Madrid.Google Scholar
Dowswell, C., Paliwal, R. L., and Cantrell, R. P.. 1996. Maize in the Third World. Boulder, Colo.Google Scholar
Ecaterina, P. 1995. Corn and the development of agricultural science in Romania. Agricultural History 69.Google Scholar
Eicher, C. 1995. Zimbabwe’s maize-based Green Revolution: Preconditions for replication. World Development 23.CrossRefGoogle Scholar
Eubanks, M. 1995. A cross between two maize relatives: Tripsacum dactyloides and Zea diploperennis (Poaceae). Economic Botany 49.Google Scholar
,FAO (Food and Agricultural Organization of the United Nations). 1953. Maize and maize diets. Rome.
,FAO (Food and Agricultural Organization of the United Nations). 1993. Average annual maize area, yield, and production, 1990–1992. Agrostat/PC Files, Rome.
Fernandez de Oviedo y Valdes, G. 1526, 1530. Historia natural y general de las Indias, islas y tierra firme del mar oceano. Seville.Google Scholar
Finan, J. 1950. Maize in the great herbals. Waltham, Mass.Google Scholar
Fleuret, P., and Fleuret, A.. 1980. Nutritional implications of staple food crop successions in Usambara, Tanzania. Human Ecology 8.CrossRefGoogle Scholar
Ford, R. 1994. Corn is our mother. In Corn and culture in the prehistoric New World, ed. Johannessen, S. and Hastorf, C.. Boulder, Colo.Google Scholar
Freeling, M., and Walbot, V., eds. 1993. The maize handbook. New York.Google Scholar
Friis-Hansen, E. 1994. Hybrid maize production and food security in Tanzania. Biotechnology and Development Monitor 19.Google Scholar
Fussell, B. 1992. The story of corn. New York.Google Scholar
Galinat, W. C. 1992. Maize: Gift from America’s first peoples. In Chilies to chocolate. Food the Americas gave the world, ed. Foster, N. and Cordell, L. S.. Tucson, Ariz.Google Scholar
Gallagher, J. P. 1989. Agricultural intensification and ridgedfield cultivation in the prehistoric upper Midwest of North America. In Foraging and farming: The evolution of plant exploitation, ed. Harris, D. R. and Hillman, G. C.. London.Google Scholar
Gerard, J. 1597. The herball. Generall historie of plants. London.CrossRefGoogle Scholar
Goldsmith, G. A. 1958. Niacin-tryptophan relationships in man and niacin requirement. American Journal of Clinical Nutrition 6.CrossRefGoogle ScholarPubMed
Goodman, M. 1988. U.S. maize germplasm: Origins, limitations, and alternatives. In Recent advances in the conservation and utilization of genetic resources. Proceedings of the Global Maize Germplasm Workshop. Mexico.Google Scholar
Harshberger, J. W. 1896. Fertile crosses of teosinte and maize. Garden and Forest 9.Google Scholar
Hastorf, C. A. 1994. Cultural meanings (Introduction to Part 4). In Corn and culture in the prehistoric New World, ed. Johannessen, S. and Hastorf, C. A.. Boulder, Colo.Google Scholar
Hastorf, C., and Johannessen, S.. 1993. Pre-Hispanic political change – the role of maize in the central Andes of Peru. American Anthropologist 95.CrossRefGoogle Scholar
HernandezX., E. X., E. 1971. Exploracion etnobotanica y su metodologia. Mexico, D.F.Google Scholar
Hernandez, F. 1615. Rerum medicarum Novae Hispaniae, Thesavrus. Mexico.Google Scholar
Hewitt de Alcantara, C. 1976. Modernizing Mexican agriculture: Socioeconomic implications of technological change, 1940–1970. Geneva.Google Scholar
Hewitt de Alcantara, C. 1992. Economic restructuring and rural subsistence in Mexico. Maize and the crisis of the 1980s. New York.Google Scholar
Hobhouse, W. 1986. Seeds of change: Five plants which changed the world. New York.Google Scholar
Iltis, H. 1983. From teosinte to maize: The catastrophic sexual mutation. Science 222.CrossRefGoogle Scholar
Jaffe, W., and Rojas, M.. 1994. Maize hybrids in Latin America: Issues and options. Biotechnology and Development Monitor 19.Google Scholar
Janossy, A. 1970. Value of Hungarian local maize varieties as basic material for breeding. In Some methodological achievements of the Hungarian hybrid maize breeding, ed. Kovács, I.. Budapest.Google Scholar
Jennings, B. 1988. Foundations of international agricultural research: Science and politics in Mexican agriculture. Boulder, Colo.Google Scholar
Jimenez de la Espada, M., ed. 1881–97. Relaciones geograficas de las Indias. 4 vols. Madrid.Google Scholar
Johannessen, S., and Hastorf, C. A., eds. 1994. Corn and culture in the prehistoric New World. Boulder, Colo.Google Scholar
Kato, Y. T. A. 1984. Chromosome morphology and the origin of maize and its races. Evolutionary Biology 17.CrossRefGoogle Scholar
Katz, S. H., Hediger, M. L., and Valleroy, L. A.. 1974. Traditional maize processing technologies in the New World. Science 184.CrossRefGoogle Scholar
Kempton, J. H., and Popenoe, W.. 1937. Teosinte in Guatemala. Contributions to American Anthropology No. 23. Washington, D.C.Google Scholar
Kumar, S., and Siandwazi, C.. 1994. Maize in Zambia: Effects of technological change on food consumption and nutrition. In Agricultural commercialization, economic development, and nutrition, ed. Braun, J. and Kennedy, E.. Baltimore, Md.Google Scholar
Langer, W. 1975. American foods and Europe’s population growth 1750–1850. Journal of Social History 8.CrossRefGoogle Scholar
Long, J., ed. 1996. Conquista y comida. Mexico City.Google Scholar
Mangelsdorf, P. 1974. Corn: Its origin, evolution, and improvement. Cambridge, Mass.CrossRefGoogle Scholar
Miracle, M. 1966. Maize in tropical Africa. Madison, Wis.Google Scholar
Montanez, A., and Warman, A.. 1985. Los productores de maize en Mexico. Restricciones y alternativos. Mexico City.Google Scholar
,National Corn Growers Association. 1992. Annual report. St. Louis, Mo.
,National Research Council (U.S.) Committee on Genetic Vulnerability of Major Crops, National Academy of Sciences. 1972. Genetic vulnerability of major crops. Washington, D.C.
Nutall, Z. 1930. Documentary evidence concerning wild maize in Mexico. Journal of Heredity 21.Google Scholar
Redclift, M. 1983. Production programs for small farmers: Plan Puebla as myth and reality. Economic Development and Cultural Change 31.CrossRefGoogle Scholar
Rhodes, C. A., Pierce, D., Mettler, I., et al. 1988. Genetically transformed maize plants from protoplasts. Science 240.CrossRefGoogle ScholarPubMed
Richards, A. 1939. Land, labour, and diet in northern Rhodesia: An economic study of the Bemba tribe. London.Google Scholar
Roe, D. 1973. A plague of corn: The social history of pellagra. Ithaca, N.Y.Google Scholar
Root, W., and Rochemont, R.. 1976. Eating in America: A history. New York.Google Scholar
Sahagun, B.. 1950–82. General history of the things of New Spain. Florentine Codex. Santa Fe, N. Mex.Google Scholar
Sandstrom, A. R. 1991. Corn is our blood: Culture and ethnic identity in a contemporary Aztec Indian village. Norman, Okla.Google Scholar
Sanoja, M. 1989. From foraging to food production in northeastern Venezuela and the Caribbean. In Foraging and farming: The evolution of plant exploitation, ed. Harris, D. R. and Hillman, G. C.. London.Google Scholar
Smale, M. 1995. “Maize is life”: Malawi’s delayed Green Revolution. World Development 23.CrossRefGoogle Scholar
Smith, J., Barau, A. D., Goldman, A., and Mareck, J. H.. 1994. The role of technology in agricultural intensification: The evolution of maize production in northern Guinea savannah of Nigeria. Economic Development and Cultural Change 42.CrossRefGoogle Scholar
Sprague, G. F., and Dudley, J. W., eds. 1988. Corn and corn improvement. Madison, Wis.Google Scholar
Stoianovich, T. 1966. Le mais dans les Balkans. Annales 21.Google Scholar
Taba, S., ed. 1996. Maize genetic resources. Mexico.Google Scholar
Terris, M., ed. 1964. Goldberger on pellagra. Baton Rouge, La.Google Scholar
Timmer, C. P., ed. 1987. The corn economy of Indonesia. Ithaca, N.Y.Google Scholar
Vavilov, N. I. 1931. Mexico and Central America as the principal centre of origin of cultivated plants in the New World. Bulletin of Applied Botany, Genetics, and Plant Breeding 26.Google Scholar
Walden, David B., ed. 1978. Maize breeding and genetics. New York.Google Scholar
Wallace, H. A., and Bressman, E. N.. [1923]1949. Corn and corn growing. Fifth revised edition. New York.Google Scholar
Wallace, H. A., and Brown, W. L.. [1956]1988. Corn and its early fathers. Revised edition. Ames, Iowa.Google Scholar
Watson, P. J. 1989. Early plant cultivation in the eastern woodlands of North America. In Foraging and farming: The evolution of plant exploitation, ed. Harris, D. R. and Hillman, G. C.. London.Google Scholar
Weatherwax, P. 1954. Indian corn in old America. New York.Google Scholar
Wellhausen, E. J., Roberts, L. M., Hernandez, E. X., and Mangelsdorf, P.. 1952. Races of maize in Mexico. Cambridge, Mass.Google Scholar
Wilkes, G. 1989. Maize: Domestication, racial evolution, and spread. In Foraging and farming: The evolution of plant exploitation, ed. Harris, D. R. and Hillman, G. C.. London.Google Scholar
Wilkes, G., and Goodman, M. M.. 1996. Mystery and missing links: The origin of maize. In Maize genetic resources, ed. Taba, S., 106. Mexico, D.F.Google Scholar
Woodham-Smith, C. 1962. The great hunger: Ireland 1845–9. New York.Google Scholar

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