Abstract

Significant yield reduction was recorded at flowering stage in rice varieties under salinity stress. But due to high genotype x environment interaction (GEI) the adaptability of the salt tolerant elite lines is generally poor. The identified source of tolerance, AC41585, was used in developing a backcross population. One hundred eighty BC3F4 lines were evaluated under stress (EC 8dSm−1) and non-stress conditions in net-house during the years 2012 and 2013. Under salinity stress plant yield was observed to be associated positively with the number of panicles/plant, panicle length, harvest index and negatively with the percentage of spikelet sterility and degeneration. Genotypes such as, L-41, L-45, L-112, L-171, L-192 with low IPCA and higher mean were identified with general adaptability through AMMI analysis. In addition, ‘which-won-where’ pattern of GGE Biplot detected L-192 and L-41 as highest performing genotypes in saline and non-saline environments, respectively. Both the analyses identified stable introgression line L-171 with high yield stability index having phenotypic similarity with recurrent parent, IR 64. The elite lines selected through the present study could be used in rice breeding and also to investigate the molecular basis of salt tolerance at reproductive stage.

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