Abstract
Coloration has been associated with multiple biologically relevant traits that drive adaptation and diversification in many taxa. However, despite the great diversity of colour patterns present in amphibians the underlying molecular basis is largely unknown. Here, we use insight from a highly colour-variable lineage of the European fire salamander (Salamandra salamandra bernardezi) to identify functional associations with striking variation in colour morph and pattern. The three focal colour morphs-ancestral black-yellow striped, fully yellow and fully brown-differed in pattern, visible coloration and cellular composition. From population genomic analyses of up to 4,702 loci, we found no correlations of neutral population genetic structure with colour morph. However, we identified 21 loci with genotype-phenotype associations, several of which relate to known colour genes. Furthermore, we inferred response to selection at up to 142 loci between the colour morphs, again including several that relate to coloration genes. By transcriptomic analysis across all different combinations, we found 196 differentially expressed genes between yellow, brown and black skin, 63 of which are candidate genes involved in animal coloration. The concordance across different statistical approaches and 'omic data sets provide several lines of evidence for loci linked to functional differences between colour morphs, including TYR, CAMK1 and PMEL. We found little association between colour morph and the metabolomic profile of its toxic compounds from the skin secretions. Our research suggests that current ecological and evolutionary hypotheses for the origins and maintenance of these striking colour morphs may need to be revisited.
Highlights
Animal coloration is conspicuously affected by natural and sexual selection (Caro, 2005) and is an ideal system in which to study the evolutionary processes that generate and maintain biological diversity (Andrade et al, 2019; Barrett et al, 2019; Harris et al, 2020; Hubbard, Uy, Hauber, Hoekstra, & Safran, 2010; Kusche, Elmer, & Meyer, 2015; Stevens & Ruxton, 2012)
Amphibians have very large genome sizes, ranging up to 121 pg (Gregory, 2019), which has slowed the pace of reference genome development and functional genomic analyses compared to other vertebrates (Koepfli, Paten, & O’Brien, 2015)
In this study we aimed to identify if signals of response to natural selection are associated with coloration in colour- and pattern-variable salamanders
Summary
Animal coloration is conspicuously affected by natural and sexual selection (Caro, 2005) and is an ideal system in which to study the evolutionary processes that generate and maintain biological diversity (Andrade et al, 2019; Barrett et al, 2019; Harris et al, 2020; Hubbard, Uy, Hauber, Hoekstra, & Safran, 2010; Kusche, Elmer, & Meyer, 2015; Stevens & Ruxton, 2012). Some Salamandra lineages have evolved melanic colorations by losing the yellow components (Bonato & Steinfartz, 2005; Steinfartz, Veith, & Tautz, 2000; Vences et al, 2014) This is presumed to be due to selection for thermoregulation because, being ectotherms, darker skin at higher altitudes protects against ultraviolet light and enables more efficient warming from the sun. Aposematism, crypsis, thermoregulation and assortative mating have been demonstrated to different extents in colour polymorphism generation and maintenance at the phenotypic level but to date have been rarely evaluated in a salamander. The coexistence of different colorations within a single environment offers a natural experiment for inferring genetic bases, ecological and phenotypic correlates of colour, and disentangling response to selection
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