Evolution of phenotypic plasticity a comparative approach in the phylogenetic neighbourhood of Arabidopsis thaliana

Abstract

Abstract The evolution of phenotypic plasticity has rarely been examined within an explicitly phylogenetic framework, making use of modern comparative techniques. Therefore, the purpose of this study was to determine phylogenetic patterns in the evolution of phenotypic plasticity in response to vegetation shade (the ‘shade avoidance’ syndrome) in the annual plant Arabidopsis thaliana and its close relatives. Specifically, we asked the following questions: (i) Do A. thaliana and related species differ within or among clades in the magnitude and/or pattern of plasticity to shade? (ii) Are the phenotypic variance–covariance matrices (phenotypic integration) of these taxa plastic to the changes in light quality induced by the presence of a canopy? (iii) To what extent does the variation in uni- and multivariate plasticity match the phylogeny of Arabidopsis? In order to address these questions we grew individuals from six taxa of known phylogenetic relationship in a greenhouse under full sun and under a grass canopy. Taxa differed in the magnitude, but not in the pattern, of plasticities for all traits. At the univariate level, the late flowering species, A. pumila and A. griffithiana, as well as the late flowering Moscow ecotype of A. thaliana, showed greater plasticity for allocation to vegetative and reproductive meristems. At the multivariate level, several taxa displayed a very low stability of their variance–covariance structures to environmental change, with only one taxon sharing as many as three principal components across environments. We conclude that both univariate and multivariate plasticities to vegetation shade can evolve rapidly within a genus of flowering plants, with little evidence of historical constraints (phylogenetic inertia).