Breeding Micronutrient Dense Bean Varieties In Eastern Africa
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Date
2011Author
Kimani, P.M.
Beebe, S.
Blair, M.
Type
PresentationLanguage
enMetadata
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Micronutrient malnutrition is one of the most serious health challenges facing vast sectors of
Africa’s population and other regions. Dietary improvement through biofortified food crops is
probably the most effective and sustainable strategy for reducing micronutrient deficiencies. A
regional breeding program was initiated in 2003 to develop and disseminate micronutrient dense
bean varieties. The specific objectives were: (i) to characterize the variation of grain iron (Fe)
and zinc (Zn) concentration, and (ii) identify lines which could be fast-tracked as mineral dense
lines for cultivation by farmers in regions with severe Fe and Zn malnutrition. More than 2849
accessions were collected been collected from eastern and Central Africa and 1,412 accessions
screened for Fe and Zn concentration by perchloric acid-nitric wet digestion. Results showed
that considerable genetic variation exists to facilitate improvement of iron by more than 80% and
zinc by more than 50%. Grain iron concentration varied from 40 to over 100 ppm. Zinc
concentration varied from 18 to over 50 ppm. Genotypes with high levels of iron included
Maharagi Soja, Gofta, AND 620, MLB 49 89A, HRS 545, Nakaja, VCB 87013, Nain de
Kyondo, TY 3396-13, PVA 8, Nguaku Nguaku, Urugezi, Lib 1, Roba-1 and Mwamafutala.
Results showed that bean leaves have ten times more iron than grain. Enhanced utilization of
mineral dense beans can significantly contribute to alleviation of micronutrient deficiencies and
promote better human health and productivity. Kenya became the first country in the region to
formally release biofortified bean varieties in December 2008.