Ecological plasticity and stability of promising lines of spring wheat (Triticum aestivum L.) in terms of yield

Y. Kuzmenko, M. Fedorenko, A. Pirych, R. Blyzniuk
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引用次数: 1

Abstract

Purpose. To analyze lines of competitive testing of soft spring wheat in terms of ecological plasticity and stability using statistical methods of analysis and identify lines with high stability of grain yield. Methods. The studies were carried out during 2018–2020, on the basis of the V. M. Remeslo Myronivka Institute of Wheat NAAS of Ukraine. When considering the results obtained, generally accepted methods of genetic and statistical analysis were used. Results. Evaluation of breeding material in different years makes it possible to obtain information about the characteristics of the reaction of genotypes to changes in environmental conditions. As a result of the studies, it was found that the lines Lutescens 14-32 (bi = 0.59), Erythrospermum 15-32 (bi = 0.44), Lutescens 14-47 (bi = 0.22) were of high plasticity. Calculations of ecological stability indicate that lines are considered stable, the variance of stability is zero or close to zero. From a practical point of view, lines with a combined manifestation of high ecological plasticity and stability are considered valuable. This was the line Erythro­spermum 15-32 (bi = 0.44; S2di = 0.01) that indicates its low reaction rate and the ability to provide a consistently high level of yield under any growing conditions. The most valuable are the genotypes that combine a low level of the coefficient of variation, high homeostaticity and bree­ding value, which include the lines Erythrospermum 15-32 (Hom = 206.42, Sc = 4.11), Lutescens 14-47 (Hom = 98.41, Sc = 3.91), Erythrospermum 17-08 (Hom = 78.57, Sc = 3.76), Erythrospermum 14-65 (Hom = 54.84, Sc = 3.75), Lutescens 14-32 (Hom = 54.60, Sc = 4.17), Lutescens 14-13 (Hom = 35.60, Sc = 3.78), Lutescens 14-48 (Hom = 46.66, Sc = 3.58). Conclusions. The evaluation of breeding material is of great importance when creating new high-performance varieties with adaptive potential. The method for assessing ecological plasticity and variants of its stability made it possible to differentiate wheat lines of soft spring competitive testing by their response to changes in gro­wing conditions. For a more optimal selection of breeding material in terms of ecological plasticity and stability, breeding programs should take into account ranked estimates of genotypes.
春小麦(Triticum aestivum L.)高产潜力品系的生态可塑性和稳定性
目的。采用统计分析方法对软质春小麦竞试品系进行生态可塑性和稳定性分析,鉴定出产量稳定性高的品系。这些研究是在2018-2020年期间在乌克兰国家农业科学院的v.m. Remeslo Myronivka小麦研究所的基础上进行的。在考虑所得结果时,采用了普遍接受的遗传和统计分析方法。对不同年份的育种材料进行评价,可以获得基因型对环境条件变化的反应特征信息。研究发现,Lutescens 14-32 (bi = 0.59)、红精15-32 (bi = 0.44)、Lutescens 14-47 (bi = 0.22)系具有较高的可塑性。生态稳定性的计算表明,线被认为是稳定的,稳定性的方差为零或接近于零。从实用的角度来看,具有高度生态可塑性和稳定性的线条被认为是有价值的。这是红精系15-32 (bi = 0.44;S2di = 0.01),表明其反应速率低,能够在任何生长条件下持续提供高产量。的基因型是最有价值的低水平的变异系数,结合高homeostaticity bree-ding价值,包括线Erythrospermum 15-32 (Hom = 206.42, Sc = 4.11), Lutescens 14-47 (Hom = 98.41, Sc = 3.91), Erythrospermum 17-08 (Hom = 78.57, Sc = 3.76), Erythrospermum 14 - 65 (Hom = 54.84, Sc = 3.75), Lutescens 14-32 (Hom = 54.60, Sc = 4.17), Lutescens 14-13 (Hom = 35.60, Sc = 3.78), Lutescens 14-48 .Conclusions (Hom = 46.66, Sc = 3.58)。选育材料的评价是培育具有适应潜力的高性能品种的重要环节。利用生态可塑性及其稳定性变异的评价方法,可以通过对生长条件变化的响应来区分软春竞争试验小麦品系。为了在生态可塑性和稳定性方面更优地选择育种材料,育种计划应考虑基因型的排名估计。
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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