Abstract
Nutrient sufficiency is the basis of good health, productive lives and longevity for everyone. Nutrient availability to people is primarily determined by the output of foods produced from agricultural systems. If agricultural systems fail to provide enough food diversity and quantity to satisfy all the nutrients essential to human life, people will suffer, societies will deteriorate and national development efforts will stagnate. Importantly, plant foods provide most of the nutrients that feed the developing world. Unfortunately, as a result of population pressures, many global food systems are not currently providing enough micronutrients to assure adequate micronutrient intakes for all people. This has resulted in an increasing prevalence of micronutrient deficiencies (e.g., iron deficiency, vitamin A deficiency, and iodine deficiency disorders) that now afflicts over three billion people globally mostly among resource-poor women, infants and children in developing countries. The consequences of micronutrient malnutrition are profound and alarming for human existence. Agricultural approaches to finding sustainable solutions to this problem are urgently needed. This review presents some ways in which plant nutritionists can contribute to preventing micronutrient malnutrition in sustainable ways.
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References
Allaway WH 1975 The effects of soils and fertilizers on human and animal nutrition. USDA-ARS Agriculture Information Bulletin No. 378. Washington, DC, U.S. Government Printing Office.
Allaway WH 1986 Soil-plant-animal and human intrrelationships in trace element nutrition. In Trace Elements in Human and Animal Nutrition. Ed. W. Mertz. pp. 465–488. Academic Press, Orlando, San Diego, New York, Austin, London, Montreal, Sydney, Tokyo, Toronto.
Combs GF Jr., Welch RM, Duxbury JM, Uphoff NT and Nesheim MC 1996 Food-Based Approaches to Preventing Micronutrient Malnutrition: an International Research Agenda, Cornell International Institute for Food, Agriculture, and Development, Cornell University, Ithaca, NY pp. 1–68.
DellaPenna D 2001 Nutritional genomics• manipulating plant mi- cronutrients to improve human health. Science 285, 375–379.
FAO/WHO 2000 Preliminary report on recommended nutrient intakes. Joint FAO/WHO Expert Consultation on Human Vitamin and Mineral Requirements, FAO, Bangkok, Thailand, 21–30 September 1998, Food and Agricultural Organization of the United Nations and the World Health Organization, Rome. pp. 1–16.
Frossard E, Bucher M, Mächler F, Mozafar A and Hurrell R 2000 Review. Potential for increasing the content and bioavailability of Fe, Zn and Ca in plants for human nutrition. J. Sci. Fd. Agric. 80, 861–879.
Goto F, Yoshihara T, Shigemoto N, Told S and Takaiwa F 1999 Iron fortification of rice seed by the soybean ferritin gene. Nat. Biotechnol. 17, 282–286.
Goto F, Yoshihara T and Saiki H 2000 Iron accumulation and enhanced growth in trasgenic lettuce plants expressing hte irojnbinding protein ferritin. Theor. Appl. Genet. 100, 658–664.
Graham RD and Welch RM 1996 Breeding for staple-food crops with high micronutrient density. Agricultural Strategies for Micronutrients Working Paper 3, International Food Policy Research Institute, Washington, DC. pp. 1–72.
Graham RD and Welch RM 2000 Plant food micronutrient composition and human nutrition. Commun. Soil Sci. Plant Anal. 31, 1627–1640.
Graham RD, Welch RM and Bouis HE 2001 Addressing micronutrient malnutrition through enhancing the nutritional quality of staple foods: principles, perspectives and knowledge gaps. Adv. Agron. 70, 77–142.
Grunes DL and Allaway W H 1985 Nutritional quality of plants in relation to fertilizer use. In Fertilizer Technology and Use. Ed. O. P. Engelstad. pp. 589–619. Soil Science Society of America, Madison, WI.
Holland B, Welch AA, Unwin ID, Buss DH, Paul AA and Southgate DAT 1991 McCance and Widdowson’s The Composition of Foods, The Royal Society of Chemistry, Letchworth, UK 462 pp.
House WA and Welch RM 1989 Bioavailability of and interactions between zinc and selenium in rats fed wheat grain intrinsically labeled with 65Zn and 75 Se. J. Nutr. 119, 916–921.
Karmas E and Harris R S 1988 Nutritional Evaluation of Food Processing, Avi Book, Van Nostrand Reinhold Co., New York. 786 pp.
Kishore G and Shewmaker C 1999 Biotechnology: enhancing human nutrition in developing and developed worlds. Proc. Natl. Acad. Sci. U.S.A. 96, 5968–5972.
Lucca P, Wunn J, Hurrell RF and Potrykus I 2000 Development of iron-rich rice and improvement of its absorption in humans by genetic engineering. J. Plant Nutr. 23, 1983–1988.
Lucca P, Hurrell R and Potrykus I 2001 Genetic engineering approaches to improve the bioavailability and the level of iron in rice grains. Theor. Appl. Genet. 102, 392–397.
Mann C 1997 Reseeding the green revolution. Science 277, 10381043.
McIntyre BD, Bouldin DR, Urey GH and Kizito F 2001 Modeling cropping strategies to improve human nutrition in Uganda. Agric. Syst. 67, 105–120.
Moraghan JT 1994 Accumulation of zinc, phosphorus, and magnesium by navy bean seed. J. Plant Nutr. 17, 1111–1125.
Nagy S and Wardowski WF 1988 Effects of agricultural practices, handling, processing, and storage on fruits, In Nutritional Evaluation of Food Processing. Eds. E Karmas and RS Harris. pp. 73–100. Avi Book, Van Nostrand Reinhold Co., New York.
Peck N, Grunes DL, Welch RM and MacDonald GE 1980 Nutritional quality of vegetable crops as affected by phosphorus and zinc fertilizers. Agron. J. 72, 528–534.
Salunkhe DK and Desai BB 1988 Effects of agricultural practices, handling, processing, and storage on vegetables. In Nutritional Evaluation of Food Processing. Eds. E. Karmas and RS Harris. pp. 23–71. Avi Book, Van Nostrand Reinhold Co., New York.
Salunkhe DK and Deshpande SS 1991 Foods of Plant Origin: Production, Technology, and Human Nutrition, AVI Book, Van Nostran Reinhold, New York 501 pp.
Sanghvi TG 1996 Economic rationale for investing in micronutri-ent programs. A policy brief based on new analyses. Office of Nutrition, Bureau for Research and Development, United States Agency for International Development, Washington, DC.
Stevenson FJ 1991 Organic matter-micronutrient reactions in soil. In Micronutrients in Agriculture. Eds. JJ Mortvedt et al. pp. 145186. Soil Sci. Soc. Am., Madison, WI.
Stevenson FJ 1994 Humus Chemistry: Genesis, Composition, Reactions. Wiley, New York. 496 pp.
Watson JM 1995 Improving the nutritional and functional qualities of plant food through genetic engineering. Proc. Nutr. Soc. Aust. 19, 73–79.
Welch RM 1986 Effects of nutrient deficiencies on seed production and quality. Adv. Plant Nutr. 2, 205–247.
Welch RM 1995 Micronutrient nutrition of plants. Crit. Rev. Plant Sci. 14, 49–82. Welch, R M 1997 Agronomic problems related to provitamin A carotenoid-rich plants. Eur. J. Clin. Nutr. 51, S34–S38.
Welch RM and Graham RD 1999 A new paradigm for world agriculture: meeting human needs — Productive, sustainable, nutritious. Field Crops Res. 60, 1–10.
Welch RM and Van Campen DR 1975 Iron availability to rats from soybeans. J. Nutr. 105, 253–256.
Welch RM, House WA and Allaway WH 1974 Availability of zinc from pea seeds to rats. J Nutr. 104, 733–740.
Welch RM, Combs GF Jr and Duxbury JM 1997 Toward a Greener revolution. Issues Sci. Tech. 14, 50–58.
Wolnik KA, Frick FL, Capar SG, Braude GL, Meyer MW, Satzger RD and Kuennen RW 1983 Elements in major raw agricultural crops in the United States. 2. Other elements in lettuce, peanuts, potatoes, soybeans, sweet corn, and wheat. J. Agric. Food Chem. 31, 1244–1249.
Wolnik KA, Frick FL, Capar SG, Braude GL, Meyer MW, Satzger RD, Bonnie E and Gaston CM 1985 Elements in major raw agricultural crops in the United States. 3. Cadmium, lead, and eleven other elements in carrots, field com, onions, rice, spinach, and tomatoes. J. Agric. Food Chem. 33, 807–811.
World Health Organization 1999 Malnutrition Worldwide. http: www.who.int/nut/malnutrition_worldwide.htm, 1–13. World Health Organization, Geneva.
Ye X, Al-Babili S, Klöli A, Zhang J, Lucca P, Beyer P and Potrykus I 2000 Engineering the provitamin A (b-carotene) biosynthetic pathway into (carotenoid-free) rice endosperm. Science 287, 303–305.
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Welch, R.M. (2002). The impact of mineral nutrients in food crops on global human health. In: Horst, W.J., et al. Progress in Plant Nutrition: Plenary Lectures of the XIV International Plant Nutrition Colloquium. Developments in Plant and Soil Sciences, vol 98. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-2789-1_6
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DOI: https://doi.org/10.1007/978-94-017-2789-1_6
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