Abstract
The main objectives of multi-environmental trials (METs) are to assess cultivar adaptation patterns under different environmental conditions and to investigate genotype by environment (G×E) interactions. Linear mixed models (LMMs) with more complex variance-covariance structures have become recognized and widely used for analyzing METs data. Best practice in METs analysis is to carry out a comparison of competing models with different variance-covariance structures. Improperly chosen variance-covariance structures may lead to biased estimation of means resulting in incorrect conclusions. In this work we focused on adaptive response of cultivars on the environments modeled by the LMMs with different variance-covariance structures. We identified possible limitations of inference when using an inadequate variance-covariance structure. In the presented study we used the dataset on grain yield for 63 winter wheat cultivars, evaluated across 18 locations, during three growing seasons (2008/2009-2010/2011) from the Polish Post-registration Variety Testing System. For the evaluation of variance-covariance structures and the description of cultivars adaptation to environments, we calculated adjusted means for the combination of cultivar and location in models with different variance-covariance structures. We concluded that in order to fully describe cultivars adaptive patterns modelers should use the unrestricted variance-covariance structure. The restricted compound symmetry structure may interfere with proper interpretation of cultivars adaptive patterns. We found, that the factor-analytic structure is also a good tool to describe cultivars reaction on environments, and it can be successfully used in METs data after determining the optimal component number for each dataset.
Highlights
The main objectives of multi-environmental trials (METs) are assessing cultivar adaptation patterns under different environmental conditions and investigate genotype – environment (G×E) interactions
In this work we focused on adaptive response of cultivars on the environments modeled by the Linear mixed models (LMMs) with different variance-covariance structures
The lowest Akaike’s information criterion (AIC) value was observed for the model with FA2 variance-covariance structure for G(L) effects (Table 1)
Summary
The main objectives of multi-environmental trials (METs) are assessing cultivar adaptation patterns under different environmental conditions (locations) and investigate genotype – environment (G×E) interactions. The common approach used to analyze multi-environmental trials is the classical analysis of variance (ANOVA). The classical ANOVA models are restricted by assumptions regarding variances of experimental effects and experimental error (Crossa et al, 2010; Hu et al, 2013). ANOVA models assume homogeneity of variances and do not include covariances for random effects, which is often unrealistic in case of multi-environmental trials (So & Edwards, 2009; Hu & Spilke, 2011). Linear mixed models (LMMs) have become recognized and widely used for analyzing METs data (Smith et al, 2005; Yang, 2010). These models are especially useful in the analysis of incomplete data-
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