Gene action for grain yield and its correlation with yield components in a diallel cross of winter wheat (Triticum aestivum L.)

Q4 Biochemistry, Genetics and Molecular Biology
B. Jocković, M. Mirosavljević, Vladimir Aćin, S. Ilin, D. Živančev, B. Banjac, Tanja Dražič
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Abstract

Magnitude and type of gene actions in a specific population are the main criteria for the parents' selection that will develop the best recombinants after hybridization. Information about the genetic control of complex traits is useful for the further development of efficient breeding programs. In order to identify action of genes for grain yield plant-1 and its correlation with main yield components, incomplete diallel crossing was applied. The field trial was conducted at the experimental field of the Agricultural Advisory Service in southeastern Europe, during season 2012-2013. Mean values of F1 generation showed that crosses Apache × Prima had the highest value of grain yield plant-1 and Jackson × Balkan had the lowest. Common type of inheritance for grain yield plant-1 was over dominance. The ANOVA revealed that this trait was controlled by additive and non-additive effects. The best general combiner for grain yield plant-1 was Apache, and two crosses (Dragana × Jackson; Balaton × Nevesinjka) showed significant SCA effects. Components of genetic variance showed that dominant was more important than additive component, and the total number of dominant genes were in excess over the number of recessive genes in all parents. Furthermore, moderately low value of narrow sense heritability (h2=31.96%) was observed for grain yield plant-1 . Parent Sana contained maximum dominant genes, whereas parent Jackson had maximum recessive genes. Grain yield plant-1 was significantly correlated with tillers numbers plant-1 at genotypic level (rg=0.494). The results from this study might be helpful for creating new wheat cultivars with highyielding potential.
冬小麦(Triticum aestivum L.)双列杂交籽粒产量的基因作用及其与产量成分的相关性
基因在特定群体中作用的大小和类型是杂交后亲本选择最佳组合的主要标准。有关复杂性状遗传控制的信息对进一步制定有效的育种计划是有用的。为了鉴定籽粒产量植株1号的基因作用及其与主要产量成分的相关性,采用了不完全双列杂交。田间试验于2012-2013年在欧洲东南部农业咨询服务处的试验田进行。F1代平均值表明,阿帕奇×普里玛杂交的籽粒产量最高,杰克逊×巴尔干杂交的籽粒产量最低。籽粒产量植株1号的常见遗传类型为超显性遗传。方差分析表明,该性状受加性和非加性效应的控制。籽粒产量植株-1的最佳综合组合是阿帕奇,2个杂交组合(Dragana × Jackson;Balaton × Nevesinjka)表现出显著的SCA效应。遗传变异的组成表明,显性基因比加性基因更重要,各亲本的显性基因总数均大于隐性基因数量。籽粒产量植株1的狭义遗传力较低(h2=31.96%)。亲本Sana的显性基因含量最高,亲本Jackson的隐性基因含量最高。籽粒产量与分蘖数在基因型水平上呈极显著相关(rg=0.494)。本研究结果对培育具有高产潜力的小麦新品种具有一定的指导意义。
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来源期刊
Ratarstvo i Povrtarstvo
Ratarstvo i Povrtarstvo Agricultural and Biological Sciences-Soil Science
CiteScore
0.80
自引率
0.00%
发文量
4
审稿时长
4 weeks
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