EFFECT OF SOME GENOTYPE ON CHEMICAL COMPOSITION OF FABA BEAN ( Vicia faba L. )

ZHIYAN ASKAR TELI

doi:10.26682/avuod.2017.20.1.5

ZHIYAN ASKAR TELI Dept. Of Horticulture, College of Agriculture, University of Duhok, Kurdistan Region-Iraq.

DOI: https://doi.org/10.26682/avuod.2017.20.1.5

Abstract

This study was carried out to study the variability on chemical composition of four genotypes of faba bean (Vicia faba L.) at two locations (Field Crop for Agriculture College and Kamaka village). Six chemical factors were studied, Moisture, protein, carbohydrate, Nitrogen, potassium, and phosphorus. There were highly significant differences were recorded for most traits depend on the genotypes and two locations. The highest potassium content were recorded for Turkish variety in first location (0.386%), also the same variety recorded the highest value for nitrogen, carbohydrate, protein, and moisture content in second location (3.04%, 54.47%, 19.04% and 83.64%) respectively.

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References

 Al-Barri T., Shtaya M.J.Y., (2013). Phenotypic characterization of faba bean (Vicia faba L.) landraces grown in Palestine. Journal of Agricultural Science; 5: 110-117.
 Alghamdi S.S. 2009. Chemical Composition of Faba Bean (Vicia faba L.) Genotypes under Various Water Regimes. Pakistan Journal of Nutrition 8 (4): 477-482, 2009 ISSN 1680-5194
 Ali, A.E., G.E.E. Ahmed and E.B. El-Handallou, 1982. Faba beans and their role in diets in Sudan. In: Hawtin, G. and C. Webb (eds.), Faba Bean Improvement, pp: 317–8. Martinus Nijhoff Publishers, The Hague
 Barratt, D.H.P., 1982. Chemical composition of mature seeds from different cultivars and lines of Vicia faba L. J. Sci. Food and Agri., 33: 603–8.
 Basheer-Salimia R., Shtaya M., Awad M., Abdallah J., Hamdan Y. (2013). Genetic diversity of Palestine landraces of faba bean (Vicia faba) based on RAPD markers. Genetics and Molecular Research 12 (3): 3314-3323; DOI: 10.4238/2013.September.3.8.
 Duc G., Marget P., and Arese P.. 2011. Breeding priorities for improved nutritional value of Vicia faba seeds. Grain Legumes 56:17–18.
 Duc, G., 1997. Faba bean (Vicia faba L ). Field crops Res., 53: 99-109.
 Duranti, M. and G. Cristina, 1997. Legume seeds: Protein content and nutritional value. Field Crops Res., 53: 31-45.
 El-Saber, M.M.M., 2010. Biochemical studies on faba bean under rainfed at Maryout condition. M.Sc. Thesis, Biochemistry Department, Faculty of Agriculture, Zagazig University, Egypt.
 Haciseferogullari, H., I. Gezer, Y. Bahtiyarca and H.O. Menges, 2003. Determination of some chemical and physical properties of sakis faba bean (Vicia faba L. var. major). J. Food Eng., 60: 475-479.
 Karamanos, A.J., G. Papadopoulos, C.E. Avgoulas and P. Papastylianou, 1994. Chemical composition of seeds of 11 field grown faba bean cultivars in two cultivation periods. FABIS, 34/35: 39-47.
 Kelly, J.F., 1973. Increasing Protein Quantity and Quality. In: Milner, M. (ed.), Nutritional Improvement of Food Legumes by Breeding, p. 179. The Protein Advisory Group of the United Nations System, New York, USA.
 Link, W., W. Ederer, P. Metz, H. Buiel and A.E. Melchinger, 1994. Genotypic and environmental variation for degree of crossfertilization in faba bean. Crop Sci., 34: 960–4
 Minyi, G.G., 1996. Food legumes in qinghai. FABIS, 38/39: 1
 Patrick, H. W. and F. L. Stoddard. 2010. Physiology of flowering and grain filling in faba bean. Field Crops Research. 115 (3):234-242.
 Terzopoulos P.J., Bebeli P.J. (2008). Genetic diversity analysis of Mediterranean faba bean (Vicia faba L.) with ISSR markers. Field Crops Research. 108: 39- 44; DOI: 10.1016/j.fcr.2008.02.015.
 Waly, E.A. and S.A. Abd El-Aal, 1986. Combining ability for protein and cellulose content in a five-parent diallel of Vicia faba L. FABIS, 14: 4–6.
 Griffiths, D.W. and D.A. Lawes, 1978. Variation in crude protein of field beans (Vicia faba) in relation to the possible improvement of the protein content of the crop. Euphytica,27:487–6.