Ecogeographical patterns in owl plumage colouration: Climate and vegetation cover predict global colour variation

Aim Ecogeographical rules link animal colours, especially those produced by melanin pigments, with variation in environmental conditions over wide geographical scales. In particular, Gloger’s rule, coined for endothermic animals in two versions, suggests that tegument darkness should increase at hig...

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Published in:Global ecology and biogeography 2022-03, Vol.31 (3), p.515-530
Main Authors: Passarotto, Arianna, Rodríguez‐Caballero, Emilio, Cruz‐Miralles, Ángel, Avilés, Jesús M., Sheard, Catherine
Format: Article
Language:English
Subjects:
biogeography
bird colouration
camouflage
climate
Climate effects
Climate prediction
Color
comparative methods
Darkness
Environmental conditions
Equator
Gloger’s rule
High temperature
Hypotheses
Melanin
Melanism
Owls
Phenotypes
Pigments
Plumage
Species
Strigiformes
Tegument
Thermoregulation
Variation
Vegetation cover
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Summary:Aim Ecogeographical rules link animal colours, especially those produced by melanin pigments, with variation in environmental conditions over wide geographical scales. In particular, Gloger’s rule, coined for endothermic animals in two versions, suggests that tegument darkness should increase at high temperature, as well as in highly humid environments. On the other hand, the thermal melanism hypothesis predicts that darker colourations should be more frequent in colder areas given their thermoregulation benefits. Location Global. Time period Contemporary. Major taxa studied Strigiformes. Methods Here, we provide a global comparative test of these contrasting expectations in all extant owls (n = 198 species), a group of nocturnal birds displaying huge variability in the degree of melanin‐based plumage colouration and environmental specialization. Combining analyses at both species and assemblage level, we assessed the climatic and environmental variables explaining variation in plumage lightness and redness across broad geographical gradients. Results Darker and redder owl phenotypes are more likely found near the equator. Species and assemblage level analyses reveal that owls have more frequently darker and redder plumages in warmer regions. In addition, owl species living in more vegetated areas are darker, and owl assemblages show darker colours in wetter areas. Main conclusions Global patterns of colour variation in owls do not fit expectations from the thermal melanism hypothesis but support Gloger’s rule. Our findings also stress that several alternative selective forces may explain climatic effects on colouration over large geographical scales. Experimental work is urged to uncover the possible mechanisms behind the detected associations between owl colour and environmental variables.
ISSN:1466-822X
1466-8238
DOI:10.1111/geb.13444