The evolution of multiple colour mechanisms is correlated with diversification in sunbirds (Nectariniidae).
Michaël P J NicolaïBert Van HeckeSvana RogallaGerben DebruynRauri C K BowieNicholas J MatzkeS J HackettLiliana D'AlbaMatthew D ShawkeyPublished in: Systematic biology (2024)
How and why certain groups become speciose is a key question in evolutionary biology. Novel traits that enable diversification by opening new ecological niches are likely important mechanisms. However, ornamental traits can also promote diversification by opening up novel sensory niches and thereby creating novel inter-specific interactions. More specifically, ornamental colours may enable more precise and/or easier species recognition, and may act as key innovations by increasing the number of species-specific patterns and promoting diversification. While the influence of colouration on diversification is well-studied, the influence of the mechanisms that produce those colours (e.g. pigmentary, nanostructural) is less so, even though the ontogeny and evolution of these mechanisms differ. We estimated a new phylogenetic tree for 121 sunbird species and combined colour data of 106 species with a range of phylogenetic tools to test the hypothesis that the evolution of novel colour mechanisms increases diversification in sunbirds, one of the most colourful bird clades. Results suggest that (1) the evolution of novel colour mechanisms expands the visual sensory niche, increasing the number of achievable colours. (2) Structural colouration diverges more readily across the body than pigment-based colouration, enabling an increase in colour complexity. (3) Novel colour mechanisms might minimize trade-offs between natural and sexual selection such that colour can function both as camouflage and conspicuous signal. (4) Despite structural colours being more colourful and mobile, only melanin-based colouration is positively correlated with net diversification. Together, these findings explain why colour distances increase with increasing number of sympatric species, even though packing of colour space would predict otherwise.