%0 Journal Article %T Evaluation of genotype × environment interaction for grain yield of promising genotypes of rice (Oryza sativa L.) derived from mutation induction using the GGE-biplot method %J Journal of Plant Physiology and Breeding %I University of Tabriz %Z 2008-5168 %A Cheloei, Gholamreza %A Ranjbar, Gholam Ali %A Babaeian-Jelodar, Nadali %A Bagheri, Nadali %A Nouri, Mohammadzaman %D 2020 %\ 12/29/2020 %V 10 %N 2 %P 69-76 %! Evaluation of genotype × environment interaction for grain yield of promising genotypes of rice (Oryza sativa L.) derived from mutation induction using the GGE-biplot method %K Genotype by environment interaction %K GGE-biplot %K Mutant rice %K Stability %R 10.22034/jppb.2020.13269 %X The existence of genotype × environment interaction complicates the evaluation of cultivar performance and reduces gain to selection. One of the multivariate methods for interpreting genotype by environment interaction is GGE-Biplot, in which the main effect of genotype and genotype by environment interaction are investigated simultaneously. In this study, 13 mutant genotypes of rice along with three check cultivars Tarrom-Mahalli, Tarrom-Jelodar and Neda were evaluated for grain yield stability in the two locations of Sari and Tonekabon during the years 2016 and 2017 using randomized complete block design with three replications within each environment. The results of GGE-biplot analysis showed that the two first components explained 92.52% of the total yield variation. According to the polygon view, all four environments of the experiment were located in the place that the Neda cultivar was at the top. Genotypes 33, 30, 26, 31 were highly stable genotypes and genotypes 18, 16 and 25 were highly unstable. In this study, we found only one mega-environment. Also following Neda and Jelodar cultivars, genotype 31 was closest to the ideal genotype. Ton 95 was the most desirable environment. %U https://breeding.tabrizu.ac.ir/article_13269_01946abcdec744011a43b7623252ea51.pdf