publ-ohne-podpubl-ohne-podBhutta, Zulfiqar A.Stein, Alexander J.Qaim, MatinMeenakshi, J. V.Nestel, PenelopeSachdev, H. P. S.2024-04-082024-04-082008-03-182006https://hohpublica.uni-hohenheim.de/handle/123456789/5157Iron deficiency is a widespread nutritional problem in developing countries, causing impaired physical activity and cognitive development, as well as maternal mortality. Although food fortification and supplementation programmes have been effective in some countries, their overall success remains limited. Biofortification, that is, breeding crops for higher micronutrient content, is a relatively new approach. We propose a methodology for ex-ante impact assessment of iron biofortification, which builds on disability-adjusted life years (DALYs) and a large household data set. Our analysis of iron-rich rice and wheat in India indicates sizeable potential health benefits. The cost-effectiveness of iron biofortification compares favourably with other interventions.enghttp://opus.uni-hohenheim.de/doku/lic_ubh.phpBiofortificationPlant breedingIron deficiency anaemiaHealth benefitsDALYsCost-effectivenessCost-benefit analysisIndia630IndienEisenmängelanämiePflanzenzüchtungGentechnologieGesundheitsförderungKosten-Nutzen-AnalyseEffizienzPotential impacts of iron biofortification in IndiaWorkingPaper293746788urn:nbn:de:bsz:100-opus-2605