INTEGRATING PHYLOGENY AND EXPERIMENTAL ETHOLOGY: FROM PATTERN TO PROCEs

Phylogenetic systematics offers ethologists a method for uncovering macroevolutionary patterns of behavioral diversity, which can be used to generate predictions for experimental investigation of microevolutionary processes. I used phylogenetic methods to disentangle the contributions of various selection pressures in the evolution of sexually dimorphic nuptial coloration in gasterosteid fishes in general, and Gasterosteus aculeatus in particular. Based upon the phylogenetic relationships between breeding colors and breeding behaviors in the gasterosteids, three predictions relevant to a discussion of nuptial coloration in G. aculeatus were proposed. The origin and elaboration of nuptial coloration was (1) weakly associated with male/male interactions (intrasexual selection), (2) moderately associated with parental care (natural selection) and (3) strongly associated with male/female interactions (intersexual selection). I tested the hypothesized macroevolutionary relationships between male breeding color and behavior in two sets of experiments studying changes in male nuptial coloration across the breeding cycle and female choice based on intensity of male color. The results of these experiments at the microevolutionary level of analysis corroborated the macroevolutionary predictions and confirmed the original intuition of previous researchers: male body color intensity is an important component of female mate choice in G. aculeatus. This study demonstrates that a phylogenetic hypothesis can generate predictions that are experimentally testable and falsifiable.