How cost-effective is biofortification in combating micronutrient malnutrition? An ex ante assessment
Biofortification is increasingly seen as an additional tool to combat micronutrient malnutrition.
Biofortification is increasingly seen as an additional tool to combat micronutrient malnutrition.
Biofortification of staple food crops with micronutrients could reduce micronutrient malnutrition at relatively low cost.
More than 250 million children under the age of five have vitamin A (VA) deficiency. Efforts to improve VA status globally have included supplementation and food fortification.
Maize is the dominant subsistence crop in much of sub-Saharan Africa and the Americas, where 17 to 30 percent of children under age 5 are vitamin A deficient.
Vitamin A deficiency is widespread and has severe consequences for young children in the developing world. Food-based approaches may be an appropriate and sustainable complement to supplementation programs.
In many areas of the world, especially Africa and Southeast Asia, vitamin A deficiency is a major health problem, particularly in children and women.
More than half the world’s population suffers from micronutrient malnutrition. Biofortification of staple food crops is a new public health approach to control vitamin A, iron, and zinc deficiencies in poor countries.
Which part of the spike of a wheat grain holds the highest concentration of nutrients?
In a world where there is arguably enough food produced and many gains have been made in increasing wheat production, Calderini and Ortiz-Monasterio have evaluated wheat varieties for their suitability for breeding to increase essential micronutri