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The political economy of bundling socio-technical innovations to transform agri-food systems
Agri-food systems transformation requires accelerated innovations to address multiple economic, environmental and health objectives. No innovation serves everyone’s interests. Political opposition to innovations is therefore inevitable.
Poor nutritional quality and micronutrient deficiency are major barriers to achieving goal 2 of the Sustainable Development Goals (ensuring food security and nutrition for better health), especially in developing countries, including the least dev
Exploiting Indian landraces to develop biofortified grain sorghum with high protein and minerals
Sorghum (Sorghum bicolor L. Moench) is the staple cereal and is the primary source of protein for millions of people in Asia and sub-Saharan Africa.
Background
Zinc-biofortified potatoes have considerable potential to reduce zinc deficiency because of their low levels of phytate, an inhibitor of zinc absorption, and their high consumption, especially in the Andean region of Peru.
Biofortification is the process of breeding for higher levels of minerals and vitamins in staple food crops, then scaling uptake by farmers and consumers to reduce mineral and vitamin deficiencies in lower- and middle-income countries.
From plate to plough: Sowing nutrition security
On the occasion of World Food Day (October 16), prime minister Narendra Modi issued a commemorative coin of Rs 75 and dedicated 17 bio-fortified varieties of eight crops to the nation to celebrate the establishment of Food and Agriculture Organisa
This article focuses on biofortification, which adds to the supply of minerals and vitamins provided by agriculture by increasing the density of bioavailable nutrients in staple foods.
Biofortification is a feasible and cost-effective means of delivering micronutrients to populations that may have limited access to diverse diets and other micronutrient interventions.
Role of socio-economic research in developing, delivering and scaling new crop varieties: the case of staple crop biofortification
The CGIAR biofortification program, HarvestPlus, was founded with the aim of improving the quality of diets through micronutrient-dense varieties of staple food crops.
Background
Yellow fleshed potatoes biofortified with iron have been developed through conventional breeding but the bioavailability of the iron is unknown.
Micronutrient deficiencies such as iron (Fe), zinc (Zn), and vitamin A, constitute a severe global public health phenomenon.
Rural Bangladeshi consumers’ (un)willingness to pay for low-milled rice: Implications for zinc biofortification
Zinc deficiency is a severe public health problem in Bangladesh.
The USAID-funded MENU Activity implemented by HarvestPlus Uganda set out to increase the production, marketing, and consumption of biofortified crops in Uganda as part of a broader effort to improve the nutritional status of 420,000 Ugandans, part
Introducing biofortified crops as new crops on the market required people to receive the right information as to why they should produce and consume these crops. Nutrition trainings were a platform to disseminate this much needed information.
Bioaccessibility and bioavailability of biofortified food and food products: Current evidence
Biofortification increases micronutrient content in staple crops through conventional breeding, agronomic methods, or genetic engineering.
New and Noteworthy in Nutrition
New and Noteworthy in Nutrition
Critical review of indicators, metrics, methods, and tools for monitoring and evaluation of biofortification programs at scale
Sound monitoring and evaluation (M&E) systems are needed to inform effective biofortification program management and implementation.
Adequate supplies of healthy foods available in each country are a necessary but not sufficient condition for adequate intake by each individual.