Carotenoid ornaments and the spandrels of physiology: a critique of theory to explain condition dependency

Climate underpins continent-wide patterns of carotenoid-based feather colour consistent with Gloger's observations

Animal coloration has long been predicted to vary across geographic and climatic gradients in accordance with a long-standing ecogeographical rule. But further to his widely supported predictions that melanin pigmentation increases towards the Equator, Gloger observed that reds and yellows are more vivid in warm regions and thus more prevalent at lower latitudes, a prediction supported further by Görnitz, who suggested these colours would be more intense in areas with higher rainfall. Yet, studies of the associations between geography or climate and carotenoid-based plumage coloration to test these observations at a continental scale are scarce. Here, we investigated the extent to which yellow and red feather colour varies according to these hypotheses in Pogoniulus tinkerbirds with distributions across sub-Saharan Africa. We tested first for associations of feather colour with geography along latitudinal or elevational gradients, and then for associations with the climatic factors of rainfall and temperature that may underpin colour variation on continental scales. We find evidence consistent with Gloger and Görnitz's observations that more saturated colours and warmer hues at lower latitudes were primarily attributed to a relationship of underpart colour with temperature and rainfall. By contrast, forecrown colour, a trait previously associated with sexual selection, had a more complex association with geography and climate, with red forecrown hue associated with rainfall, but red and yellow intensity showing contrasting patterns with latitude. We highlight the complex nature of carotenoid-based plumage coloration, suggesting that although environmental factors affect the abundance of carotenoid availability, plumage coloration is also influenced by other selective pressures.

Could alternative pathways for carotenoid transformation affect colour production efficiency? A correlative study in wild birds

In many vertebrates, dietary yellow carotenoids are enzymatically transformed into 4C-ketocarotenoid pigments, leading to conspicuous red colourations. These colourations may evolve as signals of individual quality under sexual selection. To evolve as signals, they must transmit reliable information benefiting both the receiver and the signaler. Some argue that the reliability of 4C-ketocarotenoid-based colourations is ensured by the tight link between individual quality and mitochondrial metabolism, which is supposedly involved in transforming yellow carotenoids. We studied how a range of carotenoids covary in the feathers and blood plasma of a large number (n > 140) of wild male common crossbills (Loxia curvirostra). Plumage redness was mainly due to 3-hydroxy-echinenone (3HOE). Two other, less abundant, red 4C-ketocarotenoids (astaxanthin and canthaxanthin) could have contributed to feather colour as they are redder pigments. This was demonstrated for astaxanthin but not canthaxanthin, whose feather levels were clearly uncorrelated to colouration. Moreover, moulting crossbills carried more 3HOE and astaxanthin in blood than non-moulting ones, whereas canthaxanthin did not differ. Canthaxanthin and 3HOE can be formed from echinenone, a probable product of dietary β-carotene ketolation. Echinenone could thus be ketolated or hydroxylated to produce canthaxanthin or 3HOE, respectively. In moulting birds, 3HOE blood levels positively correlated to astaxanthin, its product, but negatively to canthaxanthin levels. Redder crossbills also had lower plasma canthaxanthin values. A decrease in hydroxylation relative to ketolation could explain canthaxanthin production. We hypothesize that red colouration could indicate birds' ability to avoid inefficient deviations within the complex enzymatic pathways.

Feather carotenoids of the American Redstart (Setophaga ruticilla) across age and sex classes and the reliability of standard color metrics to capture pigment variation

Plumage ornaments act as important sexual signals, though the extent to which these ornaments act as honest signals-and the physiological mechanisms that maintain honesty-remain poorly understood. We studied the pigmentary basis of tail color in the American Redstart (Setophaga ruticilla), a species of songbird with sexual dichromatism and delayed plumage maturation; younger males resemble females, only replacing their yellow feathers for bright orange ones after the first breeding season. The yellow rectrices of females and young males and the orange feathers of older males largely contain the same pigments, but in vastly different proportions. Whereas the feathers of females and young males contain primarily lutein, 3'-dehydro-lutein and canary-xanthophylls, those of older males contain primarily 4-keto-carotenoids. The presence of lutein and the predominance of α-doradexanthin as 4-keto-carotenoid, a pigment with a shortened chain of conjugated double bonds compared to keto-carotenoids commonly found in red feathers, in the feathers of older males contribute to their uncommon orange hue. Since the orange coloration of the tail in the American redstart results from the combination of yellow, orange, and red pigments, this is a system where slight adjustments in the types of carotenoids deposited could significantly alter hue. Factors either work against achieving the most oxidized state in this species or the hue is maintained through stabilizing selection for a favored color. The color metrics of Carotenoid Chroma, Visible Hue, λR50 and tetrahedral θ best captured differences in pigment concentration and make-up, and are recommended in future spectrophotometric studies of carotenoid-based traits.

Avian colouration in a polluted world: a meta-analysis

Brilliant, diverse colour ornaments of birds were one of the crucial cues that led Darwin to the idea of sexual selection. Although avian colouration plays many functions, including concealment, thermoregulation, or advertisement as a distasteful prey, a quality-signalling role in sexual selection has attracted most research attention. Sexually selected ornaments are thought to be more susceptible to external stressors than naturally selected traits, and as such, they might be used as a test for environmental quality. For this reason, the last two decades have seen numerous studies on the impact of anthropogenic pollution on the expression of various avian colour traits. Herein, we provide the first meta-analytical summary of these results and examine whether there is an interaction between the mechanism of colour production (carotenoid-based, melanin-based and structural) and the type of anthropogenic factor (categorised as heavy metals, persistent organic pollutants, urbanisation, or other). Following the assumption of heightened condition dependence of ornaments under sexual selection, we also expected the magnitude of effect sizes to be higher in males. The overall effect size was close to significance and negative, supporting a general detrimental impact of anthropogenic pollutants on avian colouration. In contrast to expectations, there was no interaction between pollution types and colour-producing mechanisms. Yet there were significant differences in sensitivity between colour-producing mechanisms, with carotenoid-based colouration being the most affected by anthropogenic environmental disturbances. Moreover, we observed no significant tendency towards heightened sensitivity in males. We identified a publication gap on structural colouration, which, compared to pigment-based colouration, remains markedly understudied and should thus be prioritised in future research. Finally, we call for the unification of methods used in colour quantification in ecological research to ensure comparability of results among studies.

A genomic basis of vocal rhythm in birds

Vocal rhythm plays a fundamental role in sexual selection and species recognition in birds, but little is known of its genetic basis due to the confounding effect of vocal learning in model systems. Uncovering its genetic basis could facilitate identifying genes potentially important in speciation. Here we investigate the genomic underpinnings of rhythm in vocal non-learning Pogoniulus tinkerbirds using 135 individual whole genomes distributed across a southern African hybrid zone. We find rhythm speed is associated with two genes that are also known to affect human speech, Neurexin-1 and Coenzyme Q8A. Models leveraging ancestry reveal these candidate loci also impact rhythmic stability, a trait linked with motor performance which is an indicator of quality. Character displacement in rhythmic stability suggests possible reinforcement against hybridization, supported by evidence of asymmetric assortative mating in the species producing faster, more stable rhythms. Because rhythm is omnipresent in animal communication, candidate genes identified here may shape vocal rhythm across birds and other vertebrates.