Organization of motor and posture patterns in paradise fish (Macropodus opercularis): Environmental and genetic components of phenotypical correlation structures

Abstract

Paradise fish exhibit complex, environment-specific behavioral responses which consist of behavioral elements (motor and posture patterns) appearing in a typical, correlated manner. The genetic and environmental components underlying these phenotypical correlations have not been comprehensively investigated. Therefore, we have analyzed the behavioral elements of paradise fish from the nine populations of a 3×3 full diallel cross by employing a bivariate extension of the Hayman-Jinks variance-covariance analysis, demonstrating the presence of significant environmental and genetic correlations. To investigate the multivariate structure of the correlation matrices obtained, we subjected the phenotypical, environmental, additive genetic, and dominance correlations to principal-component analyses (PCAs). After rotation, the phenotypical principal factor pattern found was similar to previously obtained ones, suggesting stable underlying biological mechanisms. The environmental PCA extracted several environmental principal factors that were highly situation-specific. PCAs of the matrices of genetic correlations extracted only a small number of genetic principal factors which were not situation-specific, suggesting a relatively simple underlying genetic structure.