Ambient temperatures differently influence colour morphs of the leaf beetle Chrysomela lapponica: Roles of thermal melanism and developmental plasticity

Abstract

We asked whether ambient temperatures can affect morph frequencies within a subarctic population of the polymorphic leaf beetle Chrysomela lapponica through thermal melanism and/or developmental plasticity. Body temperature increased faster in beetles of dark morph than in beetles of light morph under exposure to artificial irradiation. Dark males ran faster than light males in both field and laboratory experiments, and this difference decreased with increasing ambient air temperature, from significant at 10 °C to non-significant at 20 °C and 26 °C. On cold days (6–14 °C), significantly more dark males than light males were found on their host plants in copula (40.8% and 27.3% respectively); on warm days (15–22 °C) this difference disappeared. Light females produced twice as many eggs as dark females; this difference did not depend on the ambient temperature. The proportion of dark morphs in the progenies of pairs with one dark parent was twice as high as that in the progenies of pairs in which both parents were light, and this proportion was greater when larvae developed at low (10 and 15 °C) than at high (20 and 25 °C) temperatures. We conclude that low temperatures may increase the frequencies of dark morphs in C. lapponica populations due to both the mating advantages of dark males over light males and developmental plasticity. Variation in frequencies of low-fecund dark morphs in the population, caused by among-year differences in temperature together with density-dependent selection, may contribute to the evolutionary dynamics of the colour polymorphism and may influence abundance fluctuations in these leaf beetle populations.