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Nutritional Composition of Potato (Solanum tuberosum L.) Genetic Resources
Seventy-one germplasm lines comprising of commercial Indian potato cultivars, advanced clones exotic and indigenous cultivars were evaluated for nutritional compounds. We observed significant variability in the lines for anthocyanins (1.81–17.20 mg/100 g FW), carotenoids (4.75–27.75 µg/g FW), ascorbic acid (14.50– 85.00 mg/100 g FW) and total phenolics (19.22–73.54 mg GAE/100 g FW). However, for zinc (10.62–27.58 ppm), iron (30.49–56.29 ppm), and tuber dry matter content (14–26%), only small variations were found. The anthocyanin, carotenoids, and total phenolic contents of indigenous cultivars and nutrient-rich advanced clones were generally much higher than those of the common variety. It is interesting to note that anthocyanin (r = –0.46; –0.43), total carotenoids (r = –0.47; –0.38), ascorbic acid (r = –0.27; –0.24) and tuber dry matter (r = –0.21, –0.24) all had negative correlations with marketable and total tuber yield respectively. Cluster analysis revealed that genotypes from clusters 1 and 3 can be used in bio-fortification breeding. The results of this study also reveal that two genotypes, viz. JEX/A-122 (Andigena line) and Kala Aloo (indigenous line) may be used as breeding material to develop nutrient-rich potato varieties.
Keywords
Cluster Analysis, Germplasm, Nutritional Compounds, Potato, Principal Components.
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- Lutaladio, N. and Castaldi, L., Potato: the hidden treasure. J. Food Comp. Anal., 2009, 22, 491–493.
- Walker, C. L. F., Global and regional child mortality and burden of disease attributable to zinc deficiency. Eur. J. Clin. Res., 2009, 63, 591–597.
- Cappellini, M. D., Musallam, K. M. and Taher, A. T., Iron deficiency anaemia revisited. J. Intern. Med., 2020, 287, 153–170.
- FAOSTAT database, 2022; http://www.fao.org/faostat/en/#data/QC (accessed 19 February 2022).
- Luthra, S. K. et al., Potato breeding in India. CPRI Technical Bulletin No 74 (revised), ICAR-Central Potato Research Institute, Shimla, 2020, p. 214.
- Luthra, S. K. et al., Kufri Neelkanth: purple skin coloured speciality potato variety of India. Potato J., 2020, 47(1), 1–8.
- Luthra, S. K. et al., Breeding for coloured flesh potatoes: molecular, agronomical and nutritional profiling. Potato J., 2018, 45(2), 81–92.
- Thimmaiah, S. R., Standard Methods of Biochemical Analysis, Kalyani Publishers, Noida, 1999, pp. 309–310.
- Thomas, P. and Joshi, M. R., Total carotenoids. Potato Res., 1997, 20, 78.
- Sadasivam, S. and Balasubraminan, T., Practical Manual in Bio-chemistry, Tamil Nadu Agricultural University, Coimbatore, 1987, p. 14.
- Kumar, A., Kumar, D. and Singh, B., Changes in processing quality of potato tubers occurring between haulm cutting and harvesting. Potato J., 2007, 34(3–4), 239–241.
- Luthra, S. K., Gupta, V. K., Kaundal, B. and Tiwari, J. K., Genetic analysis of tuber yield, processing and nutritional traits in potato (S. tuberosum). Indian J. Agric. Sci., 2018, 88(8), 1214–1221.
- Sharma, J., Dalamu, Sharma, V., Dua, V. K., Gupta, V. K. and Kumar, D., Variations in micronutrient content in tubers of Indian potato varieties. Potato J., 2017, 44(2), 101–109.
- Dalamu, Singh, B., Gupta, V. K., Chopra, S., Sharma, R. and Singh, B. P., Biochemical profiling of phytonutrients for breeding nutrient rich potatoes. Potato J., 2014, 41(2), 122–129.
- Dalamu, Singh, B., Barwal, S., Raigond, P., Sharma, R. and Joshi, A., Assessment of phytochemical diversity in Indian potato cultivars. Indian J. Hortic., 2015, 72(3), 447–450.
- Andre, C. M., Oufir, M., Guignard, C., Hoffmann, L., Hausman, J. F., Evers, D. and Larondelle, Y., Antioxidant profiling of native Andean potato tubers (S. tuberosum L.) reveals cultivars with high levels of betacarotene, alpha-tocopherol, chlorogenic acid, and petanin. J. Agric. Food Chem., 2007, 55, 1039–1049.
- Joshi, A., Kaundal, B., Raigond, P., Singh, B., Sethi, S., Bhowmik, A. and Kumar, R., Low-volume procedure to determine phytate and ascorbic acid in potatoes: standardization and analysis of Indian cultivars. J. Food Comp. Anal., 2021, 102; https://doi.org/10.1016/j.jfca.2021.103998.
- Chun, O. K., Kim, D. O., Smith, N., Schroeder, D., Han, J. T. and Chang, Y. L., Daily consumption of phenolics and total antioxidant capacity from fruit and vegetables in the American diet. J. Sci. Food Agric., 2005, 85(10), 1715–1724.
- Ah-hen, K., Fuenzalida, C., Hess, S., Contreras, A., Vega-Gálvez, A. and Lemus-Mondaca, R., Antioxidant capacity and total phenolic compounds of twelve selected potato landrace clones grown in southern Chile. Chil. J. Agric. Res., 2012, 72(1), 3–9.
- Singh, B. et al., Genotypic variations for tuber nutrient content, dry matter and agronomic traits in tetraploid potato germplasm. Physiol. Mol. Biol. Plants, 2022, 28, 1233–1248.
- Burlingame, B., Mouille, B. and Charrondiere, R., Nutrients, bioactive non-nutrients and anti-nutrients in potatoes. J. Food Comp. Anal., 2009, 22, 494–502.
- Dalamu, Sharma, J., Sharma, V., Dua, V. K., Kumar, V. and Singh, B., Evaluation of Indian potato germplasm for iron and zinc content. Indian J. Plant Genet. Resour., 2017, 30(3), 232–236.
- Asfaw, A. et al., Micro-nutrient composition and end-user acceptable quality in potato in Ethiopia. Acta Agric. Scand., Sect. B, 2018; https://doi.org/10.1080/09064710.2018.1448885.
- Brown, C. R., Breeding for phytonutrient enhancement of potato. Am. J. Potato Res., 2008, 85, 298–307.
- Hejtmankova, K., Kotikova, Z., Hamouz, K., Pivec, V., Vacek, J. and Lachman, J., Influence of flesh colour, year and growing area on carotenoid and anthocyanin content in potato tubers. J. Food Comp. Anal., 2013, 32, 20–27.
- Hamouz, K., Pazderu, K., Lachman, J., Cepl, J. and Kotikova, Z., Effect of cultivar, flesh colour, locality and year on carotenoid content in potato tubers. Plant, Soil Environ., 2016, 62(2), 86–91.
- Orsak, M., Hamouz, K., Lachman, J. and Kasal, P., Chlorogenic acid content in potato tubers with colored flesh as affected by a genotype, location and long-term storage. Plant, Soil Environ., 2019, 65(7), 355–360.
- Hamoiuz, K., Becka, D. and Capouchova, I., Ascorbic acid content in potato tubers with coloured flesh as affected by genotype, environment and storage. Plant Soil Environ., 2018, 64(12), 605–611.
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