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Small body size is associated with increased evolutionary lability of wing skeleton proportions in birds

Andrew Orkney () and Brandon P. Hedrick ()
Additional contact information
Andrew Orkney: Cornell University
Brandon P. Hedrick: Cornell University

Nature Communications, 2024, vol. 15, issue 1, 1-11

Abstract: Abstract Birds are represented by 11,000 species and a great variety of body masses. Modular organisation of trait evolution across birds has facilitated simultaneous adaptation of different body regions to divergent ecological requirements. However, the role modularity has played in avian body size evolution, especially small-bodied, rapidly evolving and diverse avian subclades, such as hummingbirds and songbirds, is unknown. Modularity is influenced by the intersection of biomechanical restrictions, adaptation, and developmental controls, making it difficult to uncover the contributions of single factors such as body mass to skeletal organisation. We develop a novel framework to decompose this complexity, assessing factors underlying the modularity of skeletal proportions in fore-limb propelled birds distributed across a range of body masses. We demonstrate that differences in body size across birds triggers a modular reorganisation of flight apparatus proportions consistent with biomechanical expectations. We suggest weakened integration within the wing facilitates radiation in small birds. Our framework is generalisable to other groups and has the capacity to untangle the multi-layered complexity intrinsic to modular evolution.

Date: 2024
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DOI: 10.1038/s41467-024-48324-y

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