Structuring Genotype X Environment Interaction by Regression Techniques

D. G. Pereira, P. Rodrigues, I. Mejza, S. Mejza, J. Mexia
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Abstract

The investigation of the structure of genotype-by-environment interaction is an important topic in multi-environment trials, in which a series of tests are undertaken across multiple environmental conditions. This study proposes a generalisation of joint regression analysis for situations when the response (e.g. yield) is non-linear across environments and can be expressed as a second (or higher) order polynomial or another non-linear function. We propose a selection technique based on the modification of two tests after determining the common form regression function for all genotypes: (i) a test for parallelism of regression curves; and (ii) a test of coincidence for those regressions. When the parallelism hypothesis is ruled out, subgroups of genotypes with parallel (or coincident) responses should be found. The Scheffe multiple comparison approach for regression coefficients in second-order polynomials allows for the classification of genotypes into two categories: one with upward-facing concavity (i.e. potential yield growth), and the other with downward-facing concavity (i.e. the yield approaches saturation). With an example of yield from a non-orthogonal series of experiments with winter rye, theoretical conclusions for genotype comparison and genotype selection are demonstrated (Secale cereale L.). To demonstrate that our meteorology is entirely relevant to incomplete data sets, we randomly erased 10% of that data, which are common in multi-environment trials. The hypothesis of parallelism of regression curves was rejected, which is natural in multi-environment trials with interaction between genotype and environment. The main difference in the two subgroups of genotypes where the responses are parallel is that one group had upward-facing concavity (i.e. potential yield growth) and the other had downward-facing concavity (i.e. the yield approaches saturation), which can help breeders in their genotype selection. The approach proposed in this paper is general and applicable to any series of experiments conducted in multi-environment trials or simply to the case of two-way classified data.
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利用回归技术构建基因型X环境相互作用
基因型-环境相互作用结构的研究是多环境试验中的一个重要课题,在多环境试验中,一系列试验在多种环境条件下进行。本研究提出了联合回归分析的推广,当响应(例如产量)在不同环境中是非线性的,并且可以表示为二阶(或更高阶)多项式或另一个非线性函数。在确定所有基因型的共同形式回归函数后,我们提出了一种基于修改两个检验的选择技术:(i)回归曲线的平行性检验;(ii)对这些回归进行符合性检验。当平行假说被排除后,应该找到具有平行(或一致)反应的基因型亚群。二阶多项式回归系数的Scheffe多重比较方法允许将基因型分为两类:一类是向上的凹形(即潜在产量增长),另一类是向下的凹形(即产量接近饱和)。以冬季黑麦非正交系列产量试验为例,论证了基因型比较和基因型选择的理论结论(Secale cereale L.)。为了证明我们的气象学与不完整的数据集完全相关,我们随机删除了10%的数据,这在多环境试验中很常见。在基因型与环境相互作用的多环境试验中,回归曲线的平行性假设被拒绝。在两个基因型亚组中,反应相似的主要区别在于,一组具有向上的凹度(即潜在产量增长),而另一组具有向下的凹度(即产量接近饱和),这有助于育种者进行基因型选择。本文提出的方法是通用的,适用于在多环境试验中进行的任何系列实验或仅适用于双向分类数据的情况。
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