Artigo
A bayesian shrinkage approach for AMMI models
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Abstract
Linear-bilinear models, especially the additive main effects and multiplicative interaction
(AMMI) model, are widely applicable to genotype-by-environment interaction (GEI) studies
in plant breeding programs. These models allow a parsimonious modeling of GE interactions,
retaining a small number of principal components in the analysis. However, one
aspect of the AMMI model that is still debated is the selection criteria for determining the
number of multiplicative terms required to describe the GE interaction pattern. Shrinkage
estimators have been proposed as selection criteria for the GE interaction components. In
this study, a Bayesian approach was combined with the AMMI model with shrinkage estimators
for the principal components. A total of 55 maize genotypes were evaluated in nine different
environments using a complete blocks design with three replicates. The results show
that the traditional Bayesian AMMI model produces low shrinkage of singular values but
avoids the usual pitfalls in determining the credible intervals in the biplot. On the other hand,
Bayesian shrinkage AMMI models have difficulty with the credible interval for model parameters,
but produce stronger shrinkage of the principal components, converging to GE matrices
that have more shrinkage than those obtained using mixed models. This characteristic
allowed more parsimonious models to be chosen, and resulted in models being selected
that were similar to those obtained by the Cornelius F-test (α = 0.05) in traditional AMMI
models and cross validation based on leave-one-out. This characteristic allowed more parsimonious
models to be chosen and more GEI pattern retained on the first two components.
The resulting model chosen by posterior distribution of singular value was also similar to
those produced by the cross-validation approach in traditional AMMI models. Our method
enables the estimation of credible interval for AMMI biplot plus the choice of AMMI model
based on direct posterior distribution retaining more GEI pattern in the first components and
discarding noise without Gaussian assumption as requested in F-based tests or deal with
parametric problems as observed in traditional AMMI shrinkage method.
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SILVA, C. P da et al. A bayesian shrinkage approach for AMMI models. Plos One, San Francisco, v. 10, n. 7, p. 1-27, July 2015.
