Agriculture: the real nexus for enhancing bioavailable micronutrients in food crops

Mason, 1993, Micronutrient deficiency—the global situation, SCN News, 9, 11

Kennedy, 2003, The scourge of “hidden hunger”: global dimensions of micronutrient deficiencies, Food Nutr Agric, 32, 8

Bhaskaram, 2002, Micronutrient malnutrition, infection, and immunity: an overview, Nutri Rev, 60, S40, 10.1301/00296640260130722

WHO. The World Health Report 2002. In: Campanini B, editor. Reducing risks, promoting healthy life. Geneva, Switzerland: World Health Organization, 2002. p. 1–68.

WHO. Malnutrition Worldwide. World Health Organization, Geneva, Switzerland, 1999. pp. 1–13. http://www.who.int/nut/malnutrition_worldwide.htm

Darnton-Hill, 1999, The challenge to eliminate micronutrient malnutrition, Aust NZ J Public Health, 23, 309, 10.1111/j.1467-842X.1999.tb01262.x

Welch, 1997, Toward a “Greener” revolution, Issues Sci Technol, 14, 50

Combs, 1996

Welch, 2001, Micronutrients, agriculture and nutrition; linkages for improved health and well being, 247

Tontisirin, 2002, Food-based strategies to meet the challenges of micronutrient malnutrition in the developing world, Proc Nutr Soc, 61, 243, 10.1079/PNS2002155

Sobal, 1999, Food system globilization, eating transformations, and nutrition transitions, 171

Clugston, 2002, Global nutrition problems and novel foods, Asia Pac J Clin Nutr, 11, S100, 10.1046/j.1440-6047.11.s6.1.x

Allaway WH. The effects of soils and fertilizers on human and animal nutrition. USDA-ARS Agriculture Information Bulletin No. 378, US Government Printing Office, Washington, DC, 1975. p. 1–52.

Anonymous. Interfaces between agriculture, nutrition, and food science. International Rice Research Institute, Manila, The Philippines, 1993.

Combs, 1997, Sustainable food system approaches to improving nutrition and health, 1

Schneeman, 2001, Linking agricultural production and human nutrition, J Sci Food Agric, 81, 3, 10.1002/1097-0010(20010101)81:1<3::AID-JSFA743>3.0.CO;2-Q

Welch, 1999, A new paradigm for world agriculture: meeting human needs—productive, sustainable, nutritious, Field Crops Res, 60, 1, 10.1016/S0378-4290(98)00129-4

Yip, 1997, The challenge of improving iron nutrition: limitations and potentials of major intervention approaches, Eur J Clin Nutr, 51, S16

Grune, 1985, Nutritional quality of plants in relation to fertilizer use, 589

Sander, 1987, Modification of nutritional quality by environment and production practices, 45

Graham, 2001, Addressing micronutrient malnutrition through enhancing the nutritional quality of staple foods: principles, perspectives and knowledge gaps, Adv Agron, 70, 77, 10.1016/S0065-2113(01)70004-1

Welch, 1995, Micronutrient nutrition of plants, Crit Rev Plant Sci, 14, 49, 10.1080/07352689509701922

Welch, 1999, Importance of seed mineral nutrient reserves in crop growth and development, 205

Graham R.D., Welch R.M. Breeding for staple-food crops with high micronutrient density. Agricultural Strategies for Micronutrients Working Paper No. 3. International Food Policy Research Institute, Washington, DC, 1996. p. 11–72.

Marschner, 1995

Welch, 1986, Effects of nutrient deficiencies on seed production and quality, Adv Plant Nutr, 2, 205

Yang, 1999, Physiological and genetic aspects of micronutrient uptake by higher plants, 151

Walker, 1986, Nicotianamine and related phytosiderophores: their physiological significance and advantages for plant metabolism, J Plant Nutr, 9, 523, 10.1080/01904168609363463

Bouis, 2000, Enrichment of food staples through plant breeding: a new strategy for fighting micronutrient malnutrition, Nutrition, 16, 701, 10.1016/S0899-9007(00)00266-5

Subbulakshmi, 1999, Food fortification in developing countries—current status and strategies, J Food Sci Technol, 36, 371

White, 1999, Mapping soil micronutrients, Field Crops Res, 60, 11, 10.1016/S0378-4290(98)00130-0

Bouis, 1996, Enrichment of food staples through plant breeding: a new strategy for fighting micronutrient malnutrition, Nutr Rev, 54, 131, 10.1111/j.1753-4887.1996.tb03915.x

Graham, 1998, A strategy for breeding staple-food crops with high micronutrient density, Soil Sci Plant Nutr, 43, 1153, 10.1080/00380768.1997.11863734

Graham, 1999, Breeding for micronutrient density in edible portions of staple food crops: conventional approaches, Field Crops Res, 60, 57, 10.1016/S0378-4290(98)00133-6

House, 1999, Trace element bioavailability as exemplified by iron and zinc, Field Crops Res, 60, 115, 10.1016/S0378-4290(98)00136-1

Van Campen, 1999, Micronutrient bioavailability techniques: Accuracy, problems and limitations, Field Crops Res, 60, 93, 10.1016/S0378-4290(98)00135-X

Glahn, 1998, Caco-2 cell ferritin formation predicts nonradiolabeled food iron availability in an in vitro digestion/Caco-2 cell culture model, J Nutr, 128, 1555, 10.1093/jn/128.9.1555

Fairweather-Tait, 1996, Bioavailability of minerals and trace elements, Nutr Res Rev, 9, 295, 10.1079/NRR19960016

1996

Welch, 1984, Factors affecting the bioavailability of mineral nutrients in plant foods, 37

Forssard, 2000, Review, Potential for increasing the content and bioavailability of Fe, Zn and Ca in plants for human nutrition. J Sci Food Agric, 80, 861

Shamsuddin, 1999, Metabolism and cellular functions of IP6: A review, Anticancer Res, 19, 3733

Saied, 1998, Up-regulation of the tumor suppressor gene p53 and WAF1 gene expression by IP6 in HT-29 human colon carcinoma cell line, Anticancer Res, 18, 1479

Zhou, 1995, Phytic acid in health and disease, Crit Rev Food Sci Nutr, 35, 495, 10.1080/10408399509527712

Welch, 2004, Breeding for micronutrients in staple food crops from a human nutrition perspective, J Exp Bot, 55, 353, 10.1093/jxb/erh064

van het Hof, 2000, Dietary factors that affect the bioavailability of carotenoids, J Nutr, 130, 503, 10.1093/jn/130.3.503

Wienk, 1999, The concept of iron bioavailability and its assessment, Eur J Nutr, 38, 51, 10.1007/s003940050046

Michaelsen, 1998, Complementary feeding: a global perspective, Nutrition, 14, 763, 10.1016/S0899-9007(98)00079-3

Mulvihill, 1998, An investigation of factors influencing the bioavailability of non-haem iron from meat systems, Irish J Agric Food Res, 37, 219

Welch, 1993, Zinc concentrations and forms in plants for humans and animals, 183

Welch RM, House WA. Meat factors in animal products that enhance iron and zinc bioavailability: implications for improving the nutritional quality of seeds and grains. In: 1995 Cornell nutrition conference for feed manufacturers. Department of Animal Science and Division of Nutrition, Cornell University Agricultural Experiment Station, Ithaca, NY, 1995. p. 58–66.

Gibson, 1997, Technological approaches to combating iron deficiency, Eur J Clin Nutr, 51, S27