Litcius/Paper detail

Ecological predictors of interspecific variation in bird bill and leg lengths on a global scale

Yu Xu, Megan Price, Pinjia Que, Kai Zhang, Sheng Shang, Xingcheng He, Zhixin Wen, Bin Wang

2023Proceedings of the Royal Society B Biological Sciences22 citationsDOIOpen Access PDF

Abstract

Bills and legs are two vital appendages for birds, and they exhibit huge interspecific variation in form and function, yet no study has examined the global predictors of this variation. This study examined global gradients in the relative lengths of bird bills and tarsi (i.e. exposed leg parts) to body size across non-migratory birds, while accounting for phylogeny. We found that relative bill length and tarsus length were related to diet, habitat density, latitude, annual mean temperature, temperature variability and hand-wing index (HWI), a proxy for birds' flight efficiency. Among these factors, diet played a primary role in predicting bill length, with nectar-feeding pollinators, vertivores, invertivores and omnivores having longer bills; HWI emerged as the predominant predictor of tarsus length, wherein species with higher HWI had shorter tarsi. However, the effects of these factors differed between passerines and non-passerines, with some temperature-related effects exhibiting opposite trends between these two groups. Our findings highlight the compromise in adaptations for feeding, thermoregulation and flight performance between the two distinct appendages.

Topics & Concepts

Interspecific competitionVariation (astronomy)EcologyScale (ratio)GeographyBiologyCartographyAstrophysicsPhysicsAnimal Behavior and ReproductionGenetic and phenotypic traits in livestockBat Biology and Ecology Studies