Structural colors result from an interaction between light and the fine-scale physical structure of a surface, and are often extremely bright, chromatic, and iridescent. Given that these visual features depend upon the aggregate abundance and architectural precision of photonic structures, structurally colored sexual ornaments seem well placed to indicate a range of mate quality characteristics.We tested this hypothesis by investigating the signaling potential of structural coloration in the sexually dimorphic butterfly Colias eurytheme. Males of this species display iridescent ultraviolet (UV) markings (arising from multilayer thin films) that overlay a broad area of yellowish-orange pigmentation on their dorsal wing surface. Only the structural UV has demonstrated function as a sexual signal; hence we predicted that it should contain more reliable phenotypic and/or genetic quality information, which would be indicated by phenotypic and/or genetically mediated condition dependence. In two split-family breeding experiments we manipulated condition by exposing full siblings to different stressors at two different juvenile life-history stages: (1) reduced larval host-plant quality and (2) transient heat/cold shocks during metamorphosis. Both stressors had profound effects on key developmental and life-history traits. Each stressor also significantly affected male dorsal coloration; thus, the expression of both structural and pigmentary coloration is phenotypically condition dependent. As predicted, the strongest condition dependence was evident in the brightness and angular visibility (i.e., iridescence) of the UV. Characteristics of both the iridescent UV and pigmentary orange also exhibited moderate-high and significant heritability (H 2 ∼ h 2 ∼ 0.4-0.9). However, genetic and residual variances did not increase under stress; thus, the observed condition dependence was not genetically mediated as predicted if wing color trait signals "good" genes for the ability to either withstand or circumvent developmental stress. The heightened stress sensitivity of the iridescent UV suggests that it offers an informative lifetime indicator of juvenile environments and, henceforth, adult male phenotypic condition, which may be salient to females seeking a highly fertile and/or nutritious male ejaculate.
Animal colouration is typically the product of nanostructures that reflect or scatter light and pigments that absorb it. The interplay between these colour-producing mechanisms may influence the efficacy and potential information content of colour signals, but this notion has received little empirical attention. Wing scales in the male orange sulphur butterfly (Colias eurytheme) possess ridges with lamellae that produce a brilliant iridescent ultraviolet (UV) reflectance via thin-film interference. Curiously, these same scales contain pterin pigments that strongly absorb wavelengths below 550 nm. Given that male UV reflectance functions as a sexual signal in C. eurytheme, it is paradoxical that pigments in the wing scales are highly UV absorbing. We present spectrophotometric analyses of the wings before and after pterin removal that show that pterins both depress the amplitude of UV iridescence and suppress a diffuse UV reflectance that emanates from the scales. This latter effect enhances the directionality and spectral purity of the iridescence, and increases the signal's chromaticity and potential signal content. Our findings also suggest that pterins amplify the contrast between iridescent UV reflectance and scale background colour as a male's wings move during flight.
Color ornaments are often viewed as products of countervailing sexual and natural selection, because more colorful, more attractive individuals may also be more conspicuous to predators. However, while evidence for such countervailing selection exists for vertebrate color ornaments (e.g., Trinidadian guppies), similar studies have yet to be reported in invertebrates. Indeed, evidence for female mate choice based on extant variation in male coloration is limited in invertebrates, and researchers have not explicitly asked whether more attractive males are also more conspicuous to predators. Here we provide evidence that more chromatic male cabbage white butterflies (Pieris rapae) are more attractive to females but should also be more conspicuous to predators. Female P. rapae preferentially mate with more chromatic males when choosing from populations of males with naturally occurring or commensurate, experimentally induced color variation. Mathematical models of female color vision confirm that females should be able to discriminate color differences between prospective mates. Further, chromatic and luminance contrast scores from female visual system models better predicted male mating success than did measures of male color derived more directly from color spectra. Last, models of avian color vision suggest that preferred males should be more conspicuous to known avian predators.
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