Abstract

According to the temperature and duration of the vernalization stage, three types of varieties adapted to different environments were bred in rapeseed breeding: spring, semi-winter, and winter type. Usually in a particular rapeseed producing area, only one type (spring or winter) is cultivated and almost none of the rapeseed varieties can adapt to both environments, which is mainly caused by the strong G × E, but how G × E affected yield-related traits is still unclear in rapeseed. In the present study, we tried to perform QTL mapping and dissect G × E into QTL × environments interactions (QTL × E) for seven yield traits in a DH population derived from No.2127 (a spring DH line) × ZY821 (a semi-winter cultivar) using a high-density SNP bin map. We described the impact of QTL × E on the genetic control of yield traits. Firstly, for the same trait of the same DH line, significant phenotypic difference for all the seven traits were observed when grown in the spring and semi-winter environment, respectively. Secondly, for five out of seven traits, the broad-sense heritability in the spring (adaptive) environment was higher over the semi-winter (stress) environment. Thirdly, total 74 non-redundant QTL including 26 consensus QTL and 48 trial-specific ones were detected, the positive additive effects of QTL were dispersed in both parents for all the seven traits. Among the 26 consensus QTL, eleven were specific to the spring or semi-winter environment, and the other 15 were common between the two environments, including four for flowering time (FT), and four for silique length (SL), 3 for thousand seed weight (TSW), each of them explained 6.4–26.1% of the phenotypic variation. Our results revealed that QTL × E for the seven yield-related traits mainly reflected by the environment-specific QTL, partly reflected by the same QTL with different expressions. These findings provided a better understanding of the genetic basis of QTL × E affected yield-related traits in rapeseed.

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