Nutritional Diversity of Elite Rice Landraces from Subsistence-oriented Farming Systems

Gayacharan .; IS Bisht; Rakesh Bhardwaj; JC Rana; AK Singh; Mahesh C Yadav

doi:10.5958/0976-1926.2019.00003.2

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Published: 2019-04-25

DOI: https://doi.org/10.5958/0976-1926.2019.00003.2

Keywords:

Anthocyanin, Aromatic rice, Black rice, Coloured rice, Nutrient composition, Red rice, Rice for health

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Gayacharan .

ICAR-National Bureau of Plant Genetic Resources, New Delhi–110012, India.

IS Bisht

ICAR-National Bureau of Plant Genetic Resources, RS, Bhowali, Nanital–263132, Uttarakhand, India.

Rakesh Bhardwaj

ICAR-National Bureau of Plant Genetic Resources, New Delhi–110012, India.

JC Rana

Bioversity International-India, NAAS Complex, DPS Marg, Pusa Campus, New Delhi–110012, India.

AK Singh

Genetics Division, ICAR-Indian Agricultural Research Institute, New Delhi–110012, India.

Mahesh C Yadav

ICAR-National Bureau of Plant Genetic Resources, New Delhi–110012, India.

Abstract

Twenty one prominent rice landraces belonging to different subsistence farming systems in India were evaluated. Manually de-husked rice samples were used for studying sixteen important nutritional parameters. Range of useful nutritional variability was observed among rice landraces and each landrace was found superior for at least one nutritional parameter. Landraces from North-eastern Himalaya in comparison to landraces from other niches were found superior for nutritional traits like protein (12.22-14.32%), phosphorus (0.363-0.740 g/100g), phytate (1.35-2.55 g/100g) and Cu (1.090-2.141 mg/100g) contents. However, clustering analysis revealed no linkage among landraces with respect to their specifi c traits or geographical origin. The red rice landraces Chuhartu (7.29%) and Katheri (6.63%) from North-western Himalaya registered higher value for crude fat than the check (3.05%). Protein, total phosphorus, antioxidant activity (CUPRAC mg/g GAE) and total anthocyanin content was remarkably higher in black rice (Chakhao amubi and Chakhao poireiton). Signifi cant amount of correlation was observed among different nutritional parameters. Anti-oxidant activity was signifi cantly correlated with phytate, anthocyanin, total phenol and total phosphorus content. 42.17% of nutritional variability was explained by Principal component I which was majorly contributed by total phosphorus, anthocyanin, phytate, CUPRAC and Cu content. The present study indicates the role of local communities in development and enrichment of nutritional diversity of rice.

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Nutritional Diversity of Elite Rice Landraces from Subsistence-oriented Farming Systems. (2019). Indian Journal of Plant Genetic Resources, 32(01), 18-27. https://doi.org/10.5958/0976-1926.2019.00003.2

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Vol. 32 No. 01 (2019): Indian Journal of Plant Genetic Resources

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