The Genetic Stability in the Plant
Keywords:
genetic stability, gene variations CTAbstract
The plant breeder is interested in introducing genotypes with good performance under different environmental conditions. The response of these structures to changes in the environment and the consequent instability in their traits when grown in different environments is to determine the superior ones and to estimate the overlap between the genotypes and the environment from the important criteria, therefore, the performance of the genotype is tested in different locations and seasons to determine the stability of the varieties.
Downloads
References
Abdal-shammari, Aziz Mahdi. (2005). The genetic changes and their relationship to plant breeding DOI: 10.13140/RG.2.14486.2166.
Ahmed A. Ahmed and Arshad T. Al-nuaimi. (2011). Estimation of Genetic Parameters Tand Stability Analysis for Durum Wheat Entries (Triticum durum Desf.) Al-Rafidain Science Journal VOL 22 number 1, 37-48.
Akcura, M.; Kaya, Y.; Taner, S.; Ayranci, R. (2006). Parametric stability analyses for grain yield of durum wheat. Plant Soil Environ., 52 (6), 254–261.
Al- Mousavi, Saddam Hussein Abbas Khidr (2005). Estimation of some genetic parameters in coarse wheat (Triticum). Desf durum. (Master Thesis, University of Mosul, College of Agriculture and Forestry, P.O.
Altaweel. M.S. (2013). Estimation of genotypic and phenotypic variations of barley genotypes Mesopotamia J of Agric. Vol. (41) No. (2)2013.
Bahlouli, F.; Bouzerzour, H.; Benmahammed, A.; Hassous, K.L. (2005). Selection for high yielding and risk efficient durum wheat (Triticum durum Desf.) cultivars under semiarid conditions. J. Agron., 4 (4), 360 – 365
Das, P.K. (1972). Studies on selection for yield in wheat. An application of genotypic and phenotypic correlation, path coefficient analysis and discriminant functions. journal. Agricultural. Science. Camp .79:447-453.
Eberhart, S. A.; Russell, W. A. (1966). Stability parameters for comparing varieties. Crop Science, 6, 36 – 40.
Gupta, R.R., Z. Ahmed and R.K. Dixit. (1979). Path coefficient analysis in macaroni. Wheat Indian journal. Agricultural. science .49:238-243.
Hamam, K.A.; Khaled, Abdel-Sabour G.A. (2009). Stability of wheat genotypes under different environments and their evaluation under sowing dates and nitrogen fertilizer levels. Australian J. Basic and Applied Scie., 3(1), 206-217
Kasim, M.A, and Alsalih A.A. and Ibrahim.M.A. (1982). Genetic, directorate of Dar Alkutub for printing and publishing.
Najeeb, S.; A. G. Rather; G. A. Parray; F. A. Sheikh and S. M. Razvi. (2009). Studies on genetic variability, genotypic correlation and path coefficient analysis in maize under high altitude temperate ecology of Kashmir. Maize Genetics Cooperation Newsletter83:1-8.
Okuyama, L. A.; Federizzi, L. C.; Neto, J. F. B. (2005). Grain yield stability of wheat genotypes under irrigated and non-irrigated conditions. Brazilian Archives of Biology and Technology, 48 (5), 697 – 704.
Singh, H.B.; Sharma, J.K. and C.P. Awasthi (1997). Genetic evalution of some economic traits in broad bean (Vicia fabaL.) Indian Journal of Horticulture, 54(2):62-73.
Ulker, M.; Sonmez, F.; Ciftci, V.; Yilmaz, N. and Apak, R. (2006). Adaptation and stability analysis in the selected lines of tir wheat. Pak. J. Bot., 38(4), 1177-1183.
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.