西爪哇苏梅当Jatinangor突变大豆[MGlycine max(L.)Merr.]M6基因型的形态特征和产量表现

Andrew Yoel, M. Rachmadi
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引用次数: 0

摘要

目前大豆育种工作主要集中在鉴定高产、大粒的基因型上。本研究利用250 Gy γ射线辐照对大豆cv进行突变。Anjasari。确定了m1代的变异,继续种植m2、m2、m3、m2、m2、m2至m2 6代。本研究的目的是评估在产量和形态特征方面表现良好的突变系,这些突变系可以支持6代的产量成分。该研究于2019年1月至2019年5月在西爪哇省贾提南戈尔市帕迪加兰大学农业学院Ciparanje实验站进行。试验采用完全随机区组设计,15个突变大豆基因型作为处理,每个处理2个重复。结果表明,几个基因型产量较高,农艺性状较好。MR-33、MR-4A和MR-2A基因型的单株荚果总数显著高于其他基因型。同时,基因型MR-35A、MR-37、MR-23、MR-36A、MR-3A、MR-29A、MR-34A、MR-4A、MR-17和MR-5A的百粒重值较高。结果表明,MR-29A和MR-23的产量最高,将作为多位点稳定性试验的基因型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Morphological characteristics and yield performance of mutant soybean [Glycine max (L.) Merr.] M6 genotypes in Jatinangor, Sumedang, West Java
Current breeding efforts in soybean largely focus on identifying genotypes with high seed yield and large seed size. Our study applied a mutation using 250 Gy Gamma-Ray Irradiation to soybean cv. Anjasari. The variability in the M 1 generation was identified, and the planting was continued to M 2 M 3 , M 4 , M 5 until M 6 generation. The objectives of this research were to evaluate mutant lines exhibiting a good performance in yield and morphological characteristics that can support the yield component in M 6 generation. This research was conducted from January 2019 to May 2019 at Ciparanje Experiment Station, Faculty of Agriculture, Universitas Padjadjaran, Jatinangor, West Java. The experiment was arranged in a Randomized Completely Block Design with fifteen mutant soybean genotypes as treatments with two replications within each treatment. The results showed several genotypes produced higher yield and better agro-morphological characteristics. The genotypes MR-33, MR-4A, and MR-2A showed significantly higher number of total pods per plant. Meanwhile, the genotypes MR-35A, MR-37, MR-23, MR-36A, MR-3A, MR-29A MR-34A, MR-4A, MR-17, and MR-5A showed a higher value in weight of 100 seeds. The highest yield was observed in MR-29A and MR-23, which then will be used as the genotypes for multilocation test for stability.
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