The Shapes of Bird Beaks are Highly Controlled by Nondietary Factors
Document Type
Article
Publication Date
5-2016
Keywords
geometric morphometrics, integration, allometry, birds, modularity
Digital Object Identifier (DOI)
https://doi.org/10.1073/pnas.1602683113
Abstract
Bird beaks are textbook examples of ecological adaptation to diet, but their shapes are also controlled by genetic and developmental histories. To test the effects of these factors on the avian craniofacial skeleton, we conducted morphometric analyses on raptors, a polyphyletic group at the base of the landbird radiation. Despite common perception, we find that the beak is not an independently targeted module for selection. Instead, the beak and skull are highly integrated structures strongly regulated by size, with axes of shape change linked to the actions of recently identified regulatory genes. Together, size and integration account for almost 80% of the shape variation seen between different species to the exclusion of morphological dietary adaptation. Instead, birds of prey use size as a mechanism to modify their feeding ecology. The extent to which shape variation is confined to a few major axes may provide an advantage in that it facilitates rapid morphological evolution via changes in body size, but may also make raptors especially vulnerable when selection pressures act against these axes. The phylogenetic position of raptors suggests that this constraint is prevalent in all landbirds and that breaking the developmental correspondence between beak and braincase may be the key novelty in classic passerine adaptive radiations.
Was this content written or created while at USF?
No
Citation / Publisher Attribution
PNAS, v. 113, issue 19, p. 5352-5357
Scholar Commons Citation
Bright, Jen A.; Marugán-Lobón, Jesús; Cobb, Samuel N.; and Rayfield, Emily J., "The Shapes of Bird Beaks are Highly Controlled by Nondietary Factors" (2016). School of Geosciences Faculty and Staff Publications. 1183.
https://digitalcommons.usf.edu/geo_facpub/1183