Combining Ability Study for Grain Yield and Agronomic Traits of Quality Protein Maize (Zea mays L.) Inbred Lines Adapted to Mid-Altitude Agroecology of Ethiopia

Agro Bali : Agricultural Journal Pub Date : 2021-11-04 DOI:10.37637/ab.v4i3.733

L. Yadesa, S. Alamerew, B. Tadesse

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引用次数: 1

Abstract

In spite of the importance of quality protein maize to alleviate protein deficiency, almost all maize varieties cultivated in Ethiopia are normal maize varieties, which are devoid of lysine and tryptophan. Perusing the combining ability of QPM inbred for grain yield and its components is vital to design appropriate breeding strategies for the development of nutritionally enhanced maize cultivars. A line x tester analysis involving 36 crosses generated by crossing 9 elite maize inbred lines with 4 testers were evaluated for different desirable agronomic traits during the 2019 main season at BNMRC and JARC. The experiment was conducted using alpha lattice design with 3 replications. The objectives were to determine the combining ability of quality protein maize inbred lines, adapted to mid altitude agroecology of Ethiopia for agronomic traits. The crosses were evaluated in alpha lattice design replicated 3 times. Analyses of variances showed significant mean squares due to crosses for almost all the traits studied. GCA mean squares due to lines and testers were significant (P<0.05 or P<0.01) for most studied traits. SCA mean squares were also significant for most attributes across locations. The comparative importance of GCA and SCA variances observed in the current study for most studied traits indicated the preponderance of additive genetic variance in governing these attributes. Only L3 was the best general combiner for grain yield. Inbred line L3, for days to anthesis and L5 for days to silking had negative and significant GCA effects. L5 and L6 displayed negative and significant GCA effects for plant and ear height. Crosses, L2xT4, L3xT4, L4xT4, L5xT2, L6xT3, L7xT2, L9xT1 and L9xT4 were good specific combiners for grain yield. In general, these genotypes help as a source of promising alleles that could be used for forthcoming breeding work in the development of quality protein maize cultivars with desirable traits.

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优质蛋白玉米(Zea mays L.)产量及农艺性状配合力研究适应埃塞俄比亚中海拔农业生态的自交系

尽管优质蛋白玉米对缓解蛋白质缺乏症具有重要意义，但埃塞俄比亚种植的几乎所有玉米品种都是缺乏赖氨酸和色氨酸的普通玉米品种。研究QPM自交系籽粒产量及其组成部分的配合力，对设计适宜的营养增强型玉米品种育种策略具有重要意义。在BNMRC和JARC对2019年主季9个玉米优良自交系与4个自交系杂交产生的36个杂交组合进行了系x测试分析，评估了不同的理想农艺性状。试验采用α晶格设计，共3个重复。目的是确定适应埃塞俄比亚中高海拔农业生态的优质蛋白玉米自交系的农艺性状配合力。在重复3次的α晶格设计中评估交叉。方差分析表明，由于杂交，几乎所有性状的均方显著。大多数性状的GCA均方根均显著或极显著(P<0.05或P<0.01)。SCA均方在不同位置的大多数属性中也具有显著性。在目前的研究中观察到的GCA和SCA变异对大多数研究性状的相对重要性表明，加性遗传变异在控制这些性状方面占优势。只有L3是粮食产量最好的综合组合。近交系L3,天开花和L5天丝纹消极和重大的GCA效应。L5和L6对株高和穗高的GCA效应显著负向。L2xT4、L3xT4、L4xT4、L5xT2、L6xT3、L7xT2、L9xT1和L9xT4是较好的籽粒产量特异性组合。总的来说，这些基因型有助于作为有希望的等位基因的来源，可用于未来的育种工作，以开发具有理想性状的优质蛋白玉米品种。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Agro Bali : Agricultural Journal

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