Targeted Traits for Enhancement of Seed Iron and Zinc Concentrations in Pigeonpea
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Iron and zinc malnourishment is consistent pan Asia–Pacific and Africa, as their intake and absorption is limiting. Breeding for high seed iron and zinc concentrations advocate to evaluate their association with various nutritional and anti-nutritional traits, which will assist in the selection process. Pigeonpea is a good source of protein and is being adopted widely as it can be grown on low-input, marginal lands. One hundred and four diversified genotypes of pigeonpea were scored for seven nutritional traits and significant differences were observed among them. The estimates of correlation coefficients and path analysis indicated that bolder seeds with high zinc concentration, lipid content and lesser contents of phytic acid should be aimed for enhancement of seed iron concentration, while, seed protein content can be used as a secondary variable for selection of this trait. On the other hand, small seeds with high lipid and iron concentrations and lesser contents of phytic acids and proteins should be targeted for improvement of seed zinc concentration in pigeonpea.
KeywordsIron Zinc Pigeonpea Correlation Path analysis
The authors gratefully acknowledge the Sardarkrushinagar Dantiwada Agricultural University for providing instrumentation facility to carry out this Ph.D. research work.
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Conflict of interest
The authors declare that they have no conflict of interest.
- 2.WHO (2002) The world health report: reducing risks, promoting healthy life. World Health Organization, Geneva, pp 1–168Google Scholar
- 4.Indian Council of Medical Research (2010) Nutrient requirements and recommended dietary allowances for Indians. ICMR, New DelhiGoogle Scholar
- 5.Gopalan C, Rama Sastri BV, Balasubramanian SC (1989) Nutritive value of Indian foods (NVIF). National Institute of Nutrition, ICMR, Hyderabad (reprinted 2007, 2011, revised and updated by Narasinga Rao BS, Deosthala YG, Pant KC) Google Scholar
- 7.Association of Official Analytical Chemists (1975) Official methods of analysis. AOAC, ArlingtonGoogle Scholar
- 8.Association of Official Analytical Chemists (1990) Official methods of analysis. AOAC, Arlington, pp 125–139Google Scholar
- 24.Singh AK, Kumar P, Singh J, Bhatnagar SK, Chand P (2013) Morphological, biochemical and molecular characterization of lentil (Lens culinaris Medik.) germplasm. Progress Agric 13(1):84–92Google Scholar
- 25.Campion B, Glahn RP, Tava A, Perrone D, Doria E, Sparvoli F, Nielsen E (2013) Genetic reduction of antinutrients in common bean (Phaseolus vulgaris L.) seed, increases nutrients and in vitro iron bioavailability without depressing main agronomic traits. Field Crop Res 141:27–37CrossRefGoogle Scholar
- 28.Singh MV (2009) Micronutrient nutritional problems in soils of India and improvement for human and animal health. Indian J Fertil 5(4):19–26Google Scholar