Identification of QTLs for high grain yield and component traits in New Plant Types of rice

Abstract

AbstractA panel of 60 genotypes consisting of New Plant Types (NPTs) along withindica,tropicalandtemperate japonicagenotypes were phenotypically evaluated for four seasons in irrigated situation for grain yieldper seand component traits. Twenty NPT genotypes were found to be promising with an average grain yield of 5.45 to 8.8 t/ha. A total of 85 SSR markers were used in the study to identify QTLs associated with grain yieldper seand related traits. Sixty-six (77.65%) markers were found to be polymorphic. The PIC values varied from 0.516 to 0.92 with an average of 0.704. A moderate level of genetic diversity (0.39) was detected among genotypes. Variation to the tune of 8% within genotypes, 68% among the genotypes within the population and 24% among the populations were observed (AMOVA). The association analysis using GLM and MLM models led to the identification of 30 and 10 SSR markers were associated with 70 and 16 QTLs, respectively. Thirty novel QTLs linked with 16 SSRs were identified to be associated with eleven traits, namely, tiller number (qTL-6.1, qTL-11.1, qTL-4.1), panicle length (qPL-1.1, qPL-5.1,qPL-7.1, qPL-8.1), flag leaf length (qFLL-8.1, qFLL-9.1), flag leaf width (qFLW-6.2, qFLW-5.1,qFLW-8.1, qFLW-7.1), total no. of grains (qTG-2.2, qTG-a7.1), thousand-grain weight (qTGW-a1.1, qTGW-a9.2, qTGW-5.1, qTGW-8.1), fertile grains (qFG-7.1), seed length-breadth ratio (qSlb-3.1), plant height (qPHT-6.1, qPHT-9.1), days to 50% flowering (qFD-1.1) and grain yield per se (qYLD-5.1, qYLD-6.1a, qYLD-11.1). This information could be useful for identification of highly potential parents for development of transgressive segregants. Moreover, super rice genotypes could be developed through pyramiding of these QTLS for important yield traits for prospective increment in yield potentiality and breaking yield ceiling.