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. 2015;55(9):1246-69.
doi: 10.1080/10408398.2012.724477.

Retention of provitamin a carotenoids in staple crops targeted for biofortification in Africa: cassava, maize and sweet potato

Fabiana F De Moura  1 Alexander MiloffErick Boy
Affiliations

Retention of provitamin a carotenoids in staple crops targeted for biofortification in Africa: cassava, maize and sweet potato

Fabiana F De Moura et al. Crit Rev Food Sci Nutr. 2015.

Abstract

HarvestPlus, part of the Consultative Group on Internation Agriculture research (CGIAR) Program on Agriculture for Nutrition and Health (A4NH) uses conventional plant breeding techniques to develop staple food crops that are rich in micronutrients, a food-based approach to reduce micronutrient malnutrition known as biofortification. The nutritional breeding targets are established based on the food intake of target populations, nutrient losses during storage and processing and bioavailability. This review collates the evidence on the retention of provitamin A carotenoid (pVAC) after processing, cooking, and storing of the staple crops targeted for pVAC biofortification: cassava, maize, and sweet potato. Sun drying was more detrimental to the pVAC levels (27-56% retention) in cassava than shade (59%) or oven (55-91%) drying, while the pVAC retention levels (66-96%) in sweet potato were not significantly different among the various drying methods. Overall, boiling and steaming had higher pVAC retention (80-98%) compared to baking (30-70%) and frying (18-54%). Gari, the most frequently consumed form of cassava in West Africa had the lowest pVAC retention (10-30%). The pVAC retention of maize grain and cassava and sweet potato flour reached levels as low as 20% after 1-4 months of storage and was highly dependent on genotype. Therefore, we recommend that an evaluation of the pVAC degradation rate among different genotypes be performed before a high pVAC crop is promoted.

Keywords: Degradation; OFSP; beta-carotene; biofortification; carotenoids; maize; yellow cassava.

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Figures

Figure 1
Figure 1
Chemical structures of provitamin A carotenoids.
See this image and copyright information in PMC

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