Tests of hypotheses on predation as a factor maintaining polymorphic melanism in coastal-plain fox squirrels (Sciurus niger L.)

Abstract

Fox squirrels (Sciurus niger) in the south-eastern U.S. coastal plain differ from those in the rest of the species' range by having black heads with white nose and ears. Postcranially on the dorsum, they also show interindividual colour variation, ranging from all-light agouti to all-black non-agouti. I present results of experiments undertaken to test whether the evolution of these pigmentary features can be attributed to interactions with predators. Comparative static crypsis (when the squirrels are still) was tested by determining how well specimens of the squirrel morphs matched their backgrounds in terms of intensity (brightness) distributions and patch size. Comparative dynamic effects (when the squirrels are moving) were tested using captive red-tailed hawks (Buteo jamaicensis) and models of the fox squirrel morphs. Results indicated that morphs of coastal-plain fox squirrels with all-light backs are better static matches to unburned backgrounds than are the darker morphs with which they coexist. Against fire-blackened backgrounds, fox squirrel morphs with intermediate and all-black backs are better intensity matches than those with all-light backs, but the dark morphs are not better patch-length matches than light morphs. The superiority of dark morphs in intensity matching for a short time after a fire does not seem sufficient to account for their long-term maintenance. Hawks responded more slowly to moving fox squirrel models with intermediate amounts of black on the back than to all-light or all-dark morphs; this result suggests a possible factor that would favour retention of genes for dorsal blackness in the coastal-plain population. Patchy black and white heads appear to promote static crypsis of south-eastern fox squirrels, and hawks reacted more slowly to moving squirrel models with such colouration than to those with plain heads.