Assessment of grain quality traits in mutant lines of winter barley
Boryana Dyulgerova, Nikolay Dyulgerov
Резюме: This study aimed to evaluate the variation among mutant lines derived from the winter barley variety Gigga, focusing on crucial feed quality traits such as protein, lysine, ash, fat, fiber content, and 1000-grain weight. Significant differences were identified in specific traits among the mutant lines, revealing promising candidates for further breeding programs. Mutant lines Gigga-25, Gigga-26, and Gigga-29 exhibited significantly higher protein content in their grains compared to the parent variety Gigga. In addition, Gigga-10 demonstrated elevated lysine content, while Gigga-4, Gigga-12, and Gigga-20 displayed increased 1000-grain weight. Of particular interest was Gigga-20, standing out for its exceptional combination of high protein content and favorable 1000-grain weight. This dual advantage positions Gigga-20 as a prime candidate for further investigation and potential integration into breeding programs, aiming to develop barley varieties with superior feed quality. Furthermore, a promising balance was observed in mutant lines Gigga-25 and Gigga-28 showcasing favorable proportions of protein and lysine content. These mutants present additional options for incorporation into breeding initiatives directed at enhancing the overall nutritional quality of feed grains.
Ключови думи: feed barley; feed quality traits; sodium azide mutagenesis
Цитиране: Dyulgerova, B., & Dyulgerov, N. (2024). Assessment of grain quality traits in mutant lines of winter barley. Bulgarian Journal of Crop Science, 61(3) 3-9
| Литература: (click to open/close) | Badea, A., & Wijekoon, C. (2021). Benefits of barley grain in animal and human diets. In Cereal Grains- Volume 1. IntechOpen.
Bleidere, M., & Gaile, Z. ( 2012). G rain q uality t raits important in feed barley. In Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences. (Vol. 66, No. 1-2, pp. 1-9).
Dyulgerova, B., & Dyulgerov, N. (2020). Grain quality of mutant lines induced in malting barley varieties. Tra¬kia Journal of Sciences, 18(1), 47-54.
Gómez, L., Aldaba, G., Ibañez, M., & Aguilar, E. (2017). Development of advanced mutant lines of barley with higher mineral concentrations through radiation-induced mutagenesis in Peru. Peruvian Jour¬nal of Agronomy, 1(1), 14-20.
IBM Corp. (2011). IBM SPSS statistics for windows, ver¬sion 20.0. Armonk: IBM Corp; 2011.
ISO 20483:2006. (2006). Cereals and pulses -- Determi¬nation of the nitrogen content and calculation of the crude protein content - Kjeldahl method
ISO 2171: 2007. (2007). Cereals, pulses and by-products — Determination of ash yield by incineration.
ISO 5498-1981 (E). (1981). Agricultural food products - determination of crude fibre content, general method.
ISO 6492:1999. (1999). Animal feeding stuffs - Determi¬nation of fat content.
Jeng, T. L., Lin, Y. W., Wang, C. S., & Sung, J. M. (2012). Comparisons and selection of rice mutants with high iron and zinc contents in their polished grains that were mutated from the indica type cultivar IR64. Jour¬nal of food composition and analysis, 28(2), 149-154.
Kenzhebayeva, S. S., Doktyrbay, G., Capstaff, N. M., Sarsu, F., Omirbekova, N. Z., Eilam, T., Tashenev D. K., & Miller, A. J. (2017). Searching a spring wheat mutation resource for correlations between yield, grain size, and quality parameters. Journal of Crop Improve¬ment, 31(2), 209-228.
Kincheloe, J. J., Bowman, J. G. P., Surber, L. M. M., Boss, D. L., Anderson, K. A., & Blake, T. K. (2003). Effects of barley or corn on performance and digest¬ibility in finishing diets. Anim. Sci, 74, 1967-1972.
LaFrance, J. T., & Watts, M. J. (1986). The value of protein in feed barley for beef, dairy, and swine feed¬ing. Western Journal of Agricultural Economics, 76-81.
Laghari, K. A., Sial, M. A., Arain, M. A., Khanzada, S. D., & Channa, S. A. (2012). Evaluation of stable wheat mutant lines for yield and yield associated traits. Paki¬stan Journal of Agriculture, Agriculture Engineering, Veterinary Sciences, 28(2), 124-130.
Lie, S. (1973). The EBC‐ninhydrin method for determi¬nation of free alpha amino nitrogen. Journal of the Institute of Brewing, 79(1), 37-41.
Rao, D. R. M., & Reddi, T. S. (1986). Azide mutagenesis in rice. Proceedings: Plant Sciences, 96, 205-215.
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| Дата на публикуване: 2024-06-26
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