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Abstract Animals living in dense vegetation are limited in their use of visual signals due to the transmission constraints in these dim, cluttered environments. Birds in such habitats are often drab in appearance and thought to rely predominately on acoustic signals for conspecific communication. Here, we investigate the presence and use of a concealed underwing patch in the family Cettiidae. We find that this distinct white patch is widely present in the genus Horornis, with limited evidence for its presence in other genera. In response to simulated territorial intrusions, 2 species, Horornis fortipes (Brownish-flanked Bush Warbler) and Cettia castaneocoronata (Chestnut-headed Tesia) perform wing-flicking displays that results in a flashing effect in H. fortipes. The presence of white underwings raises interesting possibilities about the role of hidden achromatic patches in facilitating visual communication in habitats traditionally thought to be unprofitable for this modality. 

Abstract Understanding the diversity of colour in nature has been one of the more elusive evolutionary problems. In the terrestrial environment, comparative analyses have associated differences in colour between species to light environment, background, and receiver perception. However, these account for only a small fraction of colour diversity, and it has been difficult to explain why a certain species is the colour it is. Here we examine colour variation across 12 very similar species of warblers belonging to the genus Phylloscopus, whose general brightness along an achromatic axis has previously been related to light intensity in their habitat. Many of these species also show variation in the colour of several plumage regions, including the wing bar, belly, and white vs. green in the outer tail feathers. We ask if these differences can be connected to the spectrum of light found in the habitat of each species. We find little evidence that contrast between patches and adjacent plumage or colour per se is affected by light environment. We argue that the heterogeneity of light environments experienced within a habitat and throughout the day make it unlikely that downwelling irradiance alone has a direct influence on colour variation. Accordingly, other features must have driven colour evolution. Diversification may be driven by environmental characteristics, such as background, or unrelated to environment altogether, reflecting the possibility that many different variants may effectively stimulate a receiver, and those that appear in a certain species reflect stochastic processes (e.g. mutation) and contingency (form of the ancestor). 

Abstract The process of reproductive character displacement involves divergence and/or the narrowing of variance in traits involved in species recognition, driven by interactions between taxa. However, stabilizing sexual selection may favor stasis and species similarity in these same traits if signals are optimized for transmission through the prevailing environment. Further, sexual selection may promote increased variability within species to facilitate individual recognition. Here we ask how the conflicting selection pressures of species recognition and sexual selection are resolved in a genus of Himalayan birds that sing exceptionally similar songs. We experimentally show that small differences in two traits (note shape and peak frequency) are both necessary and sufficient for species recognition. Song frequency shows remarkable clinal variation along the Himalayan elevational gradient, being most divergent where species co-occur, the classic signature of reproductive character displacement. Note shape shows no such clinal variation but varies more between individuals of an allopatric species than it does among individuals within species that co-occur. We argue that the different note shapes experience similar transmission constraints, and differences produced through species interactions spread back through the entire species range. Our results imply that reproductive character displacement is likely to be common.