Ecological and behavioral correlates of coloration in artiodactyls: systematic analyses of conventional hypotheses

To test the generality of adaptive explanations for coat colorationin even-toed ungulates, we examined the literature for hypothesesthat have been proposed for color patterns exhibited by thistaxon, and we derived a series of predictions from each hypothesis.Next, we collected information on the color, behavioral, andecological characteristics of 200 species of even-toed ungulatesand coded this in binary format. We then applied chi-squareor Fisher's Exact probability tests that pitted presence ofa color trait against presence of an ecological or behavioralvariable for cervids, bovids, and all artiodactyls. Finally,we reanalyzed the data by using concentrated-changes tests anda composite molecular and taxonomic phylogeny. Hinging our findingson whether associations persisted after controlling for sharedancestry, we found strong support for hypotheses suggestingeven-toed ungulates turn lighter in winter to aid in concealmentor perhaps thermoregulation, striped coats in adults and spottedpelage in young act as camouflage, side bands and dark facesassist in communication, and dark pelage coloration is mostcommon in species living in the tropics (Gloger's rule). Whereaswhite faces, dark legs, white legs, dark tails, and white tailsdid not appear to assist in communication alone, legs and tailsthat were either dark or white (i.e., conspicuous) did seemto be linked with communication. There was moderate supportfor hypotheses that countershading aids concealment, that whitefaces are a thermoregulatory device, and that white rumps areused in intraspecific communication. There was weak supportfor spots in adults and stripes in young providing camouflageand for dark leg markings being a form of disruptive coloration.We found little or no evidence that overall coat color servesas background matching, that side bands are disruptive colorationdevices, or that white rumps help in thermoregulation. Concealmentappears the principal force driving the evolution of colorationin ungulates with communication, and then thermoregulation,playing less of a role.