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II.A.7 - Rice

from II.A - Grains

Published online by Cambridge University Press:  28 March 2008

By
Te-Tzu Chang
Edited by
Kenneth F. Kiple  and
Kriemhild Coneè Ornelas
Kenneth F. Kiple
Affiliation:
Bowling Green State University, Ohio
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Summary

Economic and Biological Importance of Rice

Rice in Human Life

Among the cereals, rice and wheat share equal importance as leading food sources for humankind. Rice is a staple food for nearly one-half of the world’s population. In 1990, the crop was grown on 145.8 million hectares of land, and production amounted to 518.8 million metric tons of grain (paddy, rough rice). Although rice is grown in 112 countries, spanning an area from 53° latitude north to 35° south, about 95 percent of the crop is grown and consumed in Asia. Rice provides fully 60 percent of the food intake in Southeast Asia and about 35 percent in East Asia and South Asia. The highest level of per capita rice consumption (130 to 180 kilograms [kg]per year, 55 to 80 percent of total caloric source) takes place in Bangladesh, Cambodia, Indonesia, Laos, Myanmar (Burma), Thailand, and Vietnam.

Although rice commands a higher price than wheat on the international market, less than five percent of the world’s rice enters that market, contrasted with about 16 percent of the wheat. Low-income countries, China and Pakistan, for example, often import wheat at a cheaper price and export their rice.

Biological Value in Human Nutrition

Although rice has a relatively low protein content (about 8 percent in brown rice and 7 percent in milled rice versus 10 percent in wheat), brown rice (caryopsis) ranks higher than wheat in available carbohydrates, digestible energy (kilojoules [kJ]per 100 grams), and net protein utilization. Rice protein is superior in lysine content to wheat, corn, and sorghum. Milled rice has a lower crude fiber content than any other cereal, making rice powder in the boiled form suitable as infant food. For laboring adults, milled rice alone could meet the daily carbohydrate and protein needs for sustenance although it is low in riboflavin and thiamine content. For growing children, rice needs to be supplemented by other protein sources (Hegsted 1969; Juliano 1985b).

Type
Chapter
Information
The Cambridge World History of Food , pp. 132 - 149
Publisher: Cambridge University Press
Print publication year: 2000

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References

Adair, C. R., Atkins, J. G., Bollich, C. N., et al. 1973. Rice in the United States: Varieties and production. U.S. Department of Agriculture Handbook No. 289. Washington, D.C.Google Scholar
Adair, C. R., Miller, M. D., and Beachell, H. M.. 1962. Rice improvement and culture in the United States. Advances in Agronomy 14.CrossRefGoogle Scholar
Akazawa, T. 1983. An outline of Japanese prehistory. In Recent progress of natural sciences in Japan, Vol. 8, Anthropology. Tokyo.Google Scholar
Alexander, J., and Coursey, D. G.. 1969. The origins of yam cultivation. In The domestication and exploitation of plants and animals, ed. Ucko, P. J. and Dimbleby, G. W.. London.Google Scholar
Amano, M. 1979. Chinese agricultural history research. Revised edition (in Japanese). Tokyo.Google Scholar
Andersson, J. G. 1934. Children of the yellow earth: Studies in prehistoric China. London.Google Scholar
Ando, H. 1951. Miscellaneous records on the ancient history of rice crop in Japan (in Japanese). Tokyo.Google Scholar
Andrus, J. R., and Mohammed, A. F.. 1958. The economy of Pakistan. Oxford.Google Scholar
Barker, R., Herdt, R. W., and Rose, B.. 1985. The rice economy of Asia. Washington, D.C.Google Scholar
Bertin, J., Hermardinquer, J., Keul, M., et al. 1971. Atlas of food crops. Paris.Google Scholar
Bhattacharya, K. R. 1985. Parboiling of rice. In Rice: Chemistry and technology, ed. Juliano, B. O.. St. Paul, Minn.Google Scholar
Brady, N. C. 1975. Rice responds to science. In Crop productivity – research imperatives, ed. Brown, A. W. A. et al.. East Lansing, Mich.Google Scholar
Brookfield, H. 1993. Conclusions and recommendations. In South-East Asia’s environmental future: The search for sustainability, ed Brookfield, H. and Byron, Y.. Kuala Lumpur and Tokyo.Google Scholar
Candolle, A. 1884. Origin of cultivated plants (1886 English translation). New York.CrossRefGoogle Scholar
Chandler, R. F. Jr. 1968. Dwarf rice – a giant in tropical Asia. In Science for better living, U.S.D.A. 1968 Yearbook of Agriculture. Washington, D.C.Google Scholar
Chang, K. C. 1968. The archaeology of ancient China. Revised edition. New Haven, Conn.Google Scholar
Chang, T. T. 1961. Recent advances in rice breeding. In Crop and seed improvement in Taiwan, Republic of China. Taipei.Google Scholar
Chang, T. T. 1976a. The rice cultures. In The early history of agriculture, ed. Hutchinson, J. et al.. London.Google Scholar
Chang, T. T. 1976b. The origin, evolution, cultivation, dissemination, and divergence of Asian and African rices. Euphytica 25.CrossRefGoogle Scholar
Chang, T. T. 1979a. Genetics and evolution of the Green Revolution. In Replies from biological research, ed. Vicente, R.. Madrid.Google Scholar
Chang, T. T. 1979b. History of early rice cultivation (in Chinese). In Chinese agricultural history – collection of essays, ed. Shen, T. H. et al. Taipei.Google Scholar
Chang, T. T. 1983. The origins and early cultures of the cereal grains and food legumes. In The origins of Chinese civilization, ed. Keightley, D. N.. Berkeley, Calif.Google Scholar
Chang, T. T. 1984. Conservation of rice genetic resources: Luxury or necessity?Science 224.CrossRefGoogle ScholarPubMed
Chang, T. T. 1985. Crop history and genetic conservation in rice – a case study. Iowa State Journal of Research 59.Google Scholar
Chang, T. T. 1987. The impact of rice in human civilization and population expansion. Interdisciplinary Science Reviews 12.CrossRefGoogle Scholar
Chang, T. T. 1988. The ethnobotany of rice in island Southeast Asia. Asian Perspectives 26.Google Scholar
Chang, T. T. 1989a. Domestication and spread of the cultivated rices. In Foraging and farming – the evolution of plant exploitation, ed. Harris, D. R. and Hillman, G. C.. London.Google Scholar
Chang, T. T. 1989b. The management of rice genetic resources. Genome 31.CrossRefGoogle Scholar
Chang, T. T. 1992. Availability of plant germplasm for use in crop improvement. In Plant breeding in the 1990s, ed. Stalker, H. T. and Murphy, J. P.. Cambridge.Google Scholar
Chang, T. T. 1993a. The role of germ plasm and genetics in meeting global rice needs. In Advances in botany, ed. Hsing, Y. I. and chou, C. H.. Taipei.Google Scholar
Chang, T. T. 1993b. Sustaining and expanding the ‘Green Revolution’ sin rice. In South-East Asia’s environmental future: The search for sustainability, ed. Brookfield, H. and Byron, Y.. Kuala Lampur and Tokyo.Google Scholar
Chang, T. T. 1994. The biodiversity crisis in Asian crop production and remedial measures. In Biodiversity and terrestrial ecosystems, ed Peng, C. I. and Chou, C. H.. Taipei.Google Scholar
Chang, T. T., and Li, C. C.. 1991. Genetics and breeding. In Rice, Vol. 1, Production, ed. Luh, B. S.. Second edition. New York.Google Scholar
Chang, T. T., and Luh, B. S.. 1991. Overview and prospects of rice production. In Rice, Vol. 1 Production, ed. Luh, B. S.. Second edition. New York.Google Scholar
Chang, T. T., and Vaughan, D. A.. 1991. Conservation and potentials of rice genetic resources. In Biotechnology in agriculture and forestry, Vol. 14, Rice, ed. Bajaj, Y. P. S.. Berlin.Google Scholar
Chao, Y. S. 1979. The Chinese water wheel (in Chinese). In Chinese agricultural history, ed. Shen, T. H. and Chao, Y. S., Taipei.Google Scholar
Chatterjee, D. 1951. Note on the origin and distribution of wild and cultivated rices. Indian Journal of Genetics and Plant Breeding 11.Google Scholar
,Chekiang Provincial Cultural Management Commission and Chekiang Provincial Museum. 1976. Ho-mu-tu discovery of important primitive society, an important remain (in Chinese). Wen Wu 8.
Chen, T. K., ed. 1958. Rice (part 1) (in Chinese). Peking.Google Scholar
Chen, T. K. 1960. Lowland rice cultivation in Chinese literature (in Chinese). Agricultural History Research Series 2.Google Scholar
Chen, W. H. 1989. Several problems concerning the origin of rice growing in China (in Chinese). Agricultural Archaeology 2.Google Scholar
Chevalier, A. 1932. Nouvelle contribution à l'étude systematique desOryza. Review Botanique Applied et Agricultural Tropical 12.Google Scholar
,Chinese Academy of Agricultural Sciences. 1986. Chinese rice science (in Chinese). Beijing.
Chou, K. Y. 1986. Farm irrigation of ancient China (in Chinese). Agricultural Archaeology 1; 2.Google Scholar
Dalrymple, D. G. 1986. Development and spread of highyielding rice varieties in developing countries. Washington, D.C.Google Scholar
Dao, T. T. 1985. Types of rice cultivation and its related civilization in Vietnam. East Asian Cultural Studies 24.Google Scholar
David, C. C. 1991. The world rice economy: Challenges ahead. In Rice biotechnology, ed. Khush, G. S. and Toennissen, G.. Cambridge.Google Scholar
Eggum, B. O., Alabata, E. P., and Juliano, B. O.. 1981. Protein utilization of pigmented and non-pigmented brown and milled rices by rats. Quality of Plants, Plant Foods and Human Nutrition 31.Google Scholar
,FAO (Food and Agriculture Organization of the United Nations). 1965. The world rice economy in figures, 1909–1963. Rome.
Grist, D. H. 1975. Rice. Fifth edition. London.Google Scholar
Hanks, L. M. 1972. Rice and man. Chicago.Google Scholar
Harlan, J. R. 1973. Genetic resources of some major field crops in Africa. In Genetic resources in plants – their exploration and conservation, ed. Frankel, O. H. and Bennett, E.. Philadelphia, Pa.Google Scholar
Hegsted, D. M. 1969. Nutritional value of cereal proteins in relation to human needs. In Protein-enriched cereal foods for world needs, ed. Milner, M.. St. Paul, Minn.Google Scholar
Herdt, R. W., and Capule, C.. 1983. Adoption, spread and production impact of modern rice varieties in Asia. Los Baños, Philippines.Google Scholar
Higham, C. F. W. 1989. Rice cultivation and the growth of Southeast Asian civilization. Endeavour 13.CrossRefGoogle Scholar
Ho, P. T. 1956. Early ripening rice in Chinese history. Economic History Review 9.Google Scholar
Ho, P. T. 1969. The loess and the origin of Chinese agriculture. American Historical Review 75.CrossRefGoogle Scholar
Hsia, N. 1977. Carbon-14 determined dates and prehistoric Chinese archaeological history (in Chinese). K'ao-ku 4.Google Scholar
Huang, C. H., Chang, W. L., and Chang, T. T.. 1972. Ponlai varieties and Taichung Native 1. In Rice breeding. Los Baños, Philippines.Google Scholar
Hutchinson, J. 1976. India: Local and introduction crops. In The early history of agriculture, Philosophical Transactions of the Royal Society of London B275.Google Scholar
Hutchinson, J. 1991. World rice statistics, 1990. Los Baños, Philippines.Google Scholar
,IRRI (International Rice Research Institute). 1989. IRRI toward 2000 and beyond. Los Baños, Philippines.
Isao, H. 1976. History of Japan as revealed by rice cultivation (in Japanese). Tokyo.Google Scholar
James, C., and McCaskill, D.. 1983. Rice in the American diet. Cereal Foods World 28.Google Scholar
Juliano, B. O. 1985a. Production and utilization of rice. In Rice: Chemistry and technology, ed. Juliano, B. O.. St. Paul, Minn.Google Scholar
Juliano, B. O. 1985b. Polysaccharides, proteins and lipids of rice. In Rice: Chemistry and technology, ed.Juliano, B. O.. St. Paul, Minn.Google Scholar
Juliano, B. O. 1985c. Biochemical properties of rice. In Rice: Chemistry and technology, ed. Juliano, B. O.. St. Paul, Minn.Google Scholar
Juliano, B. O., and Bechtel, D. B.. 1985. The rice grain and its gross composition. In Rice: Chemistry and technology, ed. Juliano, B. O.. St. Paul, Minn.Google Scholar
Khush, G. S. 1984. IRRI breeding program and its worldwide impact on increasing rice production. In Genetic manipulation in plant improvement, ed. Gustafson, J. P.. New York.Google Scholar
Kik, M. C. 1957. The nutritive value of rice and its by-products. Arkansas Agricultural Experiment Station Bulletin 589.Google Scholar
Lin, S. C., and Yuan, L. P.. 1980. Hybrid rice breeding in China. In Innovative approaches to rice breeding, 35–52. Los Baños, Philippines.Google Scholar
Lu, J. J., and Chang, T. T.. 1980. Rice in its temporal and spatial perspectives. In Rice: Production and utilization, ed. Luh, B. S.. Westport, Conn.Google Scholar
Melville, R. 1966. Mesozoic continents and the migration of the angiosperms. Nature 220.Google Scholar
Mickus, R. R., and Luh, B. S.. 1980. Rice enrichment with vitamins and amino acids. In Rice: Production and utilization, ed. Luh, B. S.. Westport, Conn.Google Scholar
Morinaga, T. 1951. Rice of Japan (in Japanese). Tokyo.Google Scholar
Morinaga, T. 1968. Origin and geographical distribution of Japanese rice. Japan Agricultural Research Quarterly 3.Google Scholar
Nicholls, N. 1993. ENSO, drought, and flooding rain in South East Asia. In South-East Asia’s environmental future: The search for sustainability, ed. Brookfield, H. and Byron, Y.. Kuala Lampur and Tokyo.Google Scholar
Oka, H. I. 1988. Origin of cultivated rice. Amsterdam and Tokyo.Google Scholar
Pankar, S. N., and Gowda, M. K. M.. 1976. On the origins of rice in India. Science and Culture 42.Google Scholar
Parthasarathy, N. 1972. Rice breeding in tropical Asia up to 1960. In Rice breeding. Los Baños, Philippines.Google Scholar
Pei, A. P. 1989. Rice remains in Peng-tou-shan culture in Hunan and rice growing in prehistorical China (in Chinese). Agricultural Archaeology 2.Google Scholar
Porteres, R. 1956. Taxonomie agrobotanique des riz cultivesO. sativa Linn. et O. glaberrima Steud. Journal Agricultural Tropical Botanique et Applied 3.Google Scholar
Randhawa, M. S. 1980. A history of agriculture in India, Vol. 1. New Delhi.Google Scholar
Revel, N., ed. 1988. Le riz en Asie du Sud-Est: Atlas du vocabulaire de la plante. Paris.Google Scholar
Roschevicz, R. J. 1931. A contribution to the knowledge of rice (in Russian with English summary). Bulletin of Applied Botany, Genetics and Plant Breeding (Leningrad) 27.Google Scholar
Sauer, C. O. 1952. Agricultural origin and dispersals. New York.Google Scholar
Sharma, G. R., Misra, V. D., Mandal, D., et al. 1980. Beginnings of agriculture. Allahabad, India.Google Scholar
Shen, J. H. 1980. Rice breeding in China In Rice improvement in China and other Asian countries. Los Baños, Philippines.Google Scholar
Spencer, J. E. 1963. The migration of rice from mainland Southeast Asia into Indonesia. In Plants and the migration of Pacific peoples, ed. Barrau, J.. Honolulu.Google Scholar
Ting, Y. 1949. Chronological studies of the cultivation and the distribution of rice varieties keng and sen (in Chinese with English summary). Sun Yatsen University Agronomy Bulletin 6.Google Scholar
Ting, Y., ed. 1961. Chinese culture of lowland rice (in Chinese). Peking.Google Scholar
Vishnu-Mittre, . 1976. Discussion. In Early history of agriculture, Philosophical Transactions of Royal Society of London B275.Google Scholar
Watabe, T. 1973. Alteration of cultivated rice in Indochina. Japan Agricultural Research Quarterly 7.Google Scholar
Watabe, T. 1985. Origin and dispersal of rice in Asia. East Asian Cultural Studies 24.Google Scholar
,WRI (World Resources Institute). 1986. Basic books. New York.
Yan, W. M. 1989. Further comments on the origin of rice agriculture in China (in Chinese). Agricultural Archaeology 2.Google Scholar
Yanagita, K., Ando, H., Morinaga, T., et al. 1969. Japanese history of rice plant (in Japanese). Tokyo.Google Scholar
Yen, D. E. 1977. Hoabinhian horticulture? The evidence and the questions from northwest Thailand. In Sunda and Sahul, ed. Allen, J., Golson, J., and Jones, R.. London.Google Scholar
You, X. L. 1976. Several views on the rice grains and bone spades excavated from the fourth cultural level of Ho-mo-tu site (in Chinese). Wen Wu 8.Google Scholar
You, X. L. 1982. A historical study of the genetic resources of rice varieties of our country, II (in Chinese). Agricultural Archaeology 1.Google Scholar

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