Variability for Functional and Nutritional Quality Traits in Sweet Pepper (Capsicum annuum L.)

Authors

  • N K Hedau Author
  • S Saha Author
  • A Gahalain Author
  • Arun Kumar Author
  • P K Agrawal Author
  • J C Bhatt Author

DOI:

https://doi.org/10.24154/jhs.v8i2.244

Keywords:

Sweet Pepper, Variability, Correlation, Nutritional Quality

Abstract

Natural biodiversity for functional and nutritional quality traits is of prime importance in breeding programmes for developing nutritionally rich genotypes. The present investigation was carried out to identify lines of sweet pepper with high ascorbic acid content and important mineral nutrients like potassium, phosphorus, zinc, copper, iron and manganese. Forty accessions of sweet pepper (Capsicum annuum L.) were analyzed for their functional and nutritional composition. Wide variation was observed in functional quality traits like ascorbic acid content (22-129mg 100g-1), and β-Carotene (0.39-1.0mg 100g-1) suggesting a considerable level of genetic diversity. Wide variability was also noticed for nutritional composition (K, P, Zn, Cu, Fe&Mn) in the tested lines. Across accessions, concentration of ascorbic acid was negatively correlated with copper content (r = -0.293, p < 0.05) being significantly greater in two accessions, VHC 34 and VHC 37 (129 and 118.0 mg100g-1, respectively) compared to other accessions. β-Carotene concentration was higher (0.85 to 0.99mg 100g-1) in six accessions, and lower (0.39 to 0.54mg 100g-1) in twenty four accessions. Greater variability present for quality traits holds an immense potential to help develop Capsicum lines with traits of high functional and nutritional quality. Therefore, this information is potentially useful in sweet pepper breeding programmes in the future.

References

Abdulnabi, A.A., Emhemed, A.H., Hussein, G.D. and Biacs, P.A. 1997. Determination of antioxidant vitamins in tomatoes. Food Chem., 60:207-212

Brereton, R.G. 2003. Chemo metrics. Data Analysis for the Laboratory and Chemical Plant. John Wiley & Sons, Chichester, England

Daood, H.G., Vinkler, M., Markus, F., Hebshi, E.A. and Biacs, P.A. 1996. Antioxidant vitamin content of spice red pepper (paprika) as affected by technological and varietal factors. Food Chem., 55:365-372

Fernie, A.R., Tadmor, Y. and Zamir, D. 2006. Natural genetic variation for improving crop quality. Curr. Opin. Pl. Biol., 9:196-202

Gnayfeed, M.H., Daood, H.G., Biacs, P.A. and Alcaraz, C.F. 2001. Content of bioactive components in pungent spice red pepper (paprika) as affected by ripening and maturity. J. Sci. Food Agri., 81:1580-1585

Harris, J.R. 1996. Sub-cellular biochemistry, ascorbic acid: biochemistry and biomedical. Cell Biol., 25, Plenum Press, New York

Howard, L.R., Talcott, S.T., Brenes, C.H. and Villalon, B. 2000. Changes in phytochemical and antioxidant activity of selected pepper accessions (Capsicum species) as influenced by maturity. J. Agri. Food Chem., 48:1713-1720

Ismail, A. and Fun, C.S. 2003. Determination of Vitamin C, â-carotene and Riboflavin contents in five green vegetables organically and conventionally grown. Mal. J. Nutr., 9:31-39

Jadczak, D. and Grzeszczuk, M. 2004. Determination of content of mineral components in fruits of sweet and semi-sweet pepper accessions. J. Element., 9:15-23

Lee, Y., Howard, L.R. and Villalon, B. 1995. Flavonoids and antioxidant activity of fresh pepper (Capsicum annuum) accessions. J. Food Sci., 60:43-476

Minguez-Mosquera, M.I. and Hornero-Mendez, D. 1994. Formation and transformation of pigments during the fruit ripening of Capsicum annuum cv. Bola. J. Agri. Food Chem., 42:38–44

Namiki, M. 1990. Antioxidants/antimutagens in food. CRC Critical Reviews. Food Sci. Nutr., 29:273-300

Romer, S., Fraser, P.D., Kiano, J.W., Shipton, C.A., Misawa, N., Schuch, W. and Bramley, P.M. 2000. Elevation of the provitamin ‘A’ content of transgenic tomato plants. Nature Biotech., 18:666–669

Saha, Supradip, Hedau, N.K., Kumar, S., Mahajan, V. and Gupta, H.S. 2010. Variability in hot pepper for phyto- chemicals offers promising tools in plant-breeding programmes. Acta Agri. Scandinavica, 60:227-234

Scott, K.J. 1992. Observations on some of the problems associated with the analysis of carotenoids in foods by HPLC. Food Chem., 45:357-364

Taussky, H.H. and Shorr, E. 1953. A microcolorimetric method for the determination of inorganic phosphorus. J. Biol. Chem., 202:675–682

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Published

31-12-2013

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Section

Original Research Papers

How to Cite

Hedau, N. K., Saha, S., Gahalain, A., Kumar, A., Agrawal, P. K., & Bhatt, J. C. (2013). Variability for Functional and Nutritional Quality Traits in Sweet Pepper (Capsicum annuum L.). Journal of Horticultural Sciences, 8(2), 181-186. https://doi.org/10.24154/jhs.v8i2.244

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