Disentangling the mechanisms of signal evolution in Tyrannidae flycatchers, part I: song is constrained by morphology and covaries with ecological factors; [Desenredando los mecanismos de la evolución en las señales en atrapamoscas de la familia Tyrannidae, parte 1: el canto esta restringido por la morfología y covaría con los factores ecológicos]
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School of Natural Resources and the Environment, University of ArizonaIssue Date
2023
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Resilience AllianceCitation
Schoen, J. E., S. M. Miller, M. W. Reudink, Q. Jennings, and S. M. Mahoney. 2023. Disentangling the mechanisms of signal evolution in Tyrannidae flycatchers, part I: song is constrained by morphology and covaries with ecological factors. Journal of Field Ornithology 94(3):6. https://doi.org/10.5751/JFO-00260-940306Journal
Journal of Field OrnithologyRights
© 2023 by the author(s). Published here under license by the Resilience Alliance. Open Access. CC-BY 4.0. .Collection Information
This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.Abstract
Acoustic signals mediate key animal interactions and can evolve through a variety of factors. Signal divergence can reinforce pre-zygotic barriers and minimize costly hybridizations among closely related species or partition acoustic space to avoid signal interference. To unravel the drivers of song evolution, it is critical to simultaneously test multiple evolutionary axes leading to heterospecific song variation (e.g., the role of morphology, ecology, and heterospecific recognition). Tyrannidae is the largest Passeriformes family and occurs across a broad environmental gradient. Tyrannids are suboscines, so song variation represents evolutionary differences that are not confounded by social learning. Several genera show conserved plumage coloration, but exhibit pronounced vocal differences. In the first of our two-part paper on signal ecology and evolution, we leveraged a large-scale song dataset to unravel song divergence in Tyrannidae (n = 282 species) by testing the relative influence of morphology (body and bill size), ecology (vegetation cover, diet, climate), and heterospecific proximity on song evolution. Based on phylogenetically controlled analyses, we found Tyrannidae song evolution was primarily driven by morphological adaptation, where larger-bodied birds with heftier bills sang lower frequency and slower paced songs. Pairwise song differences were weakly related to heterospecific proximity of some genera, lending support to the species recognition hypothesis or drift. Given that many flycatchers are habitat specialists, natural selection acting on bill morphology and body size in specific environmental-contexts may shape song among tyrannids. By simultaneously testing the relative roles of morphological, ecological, and geographical factors on song evolution, our study highlights the complexity of suboscine song evolution and the importance of large-scale comparative studies that test multiple evolutionary hypotheses. © 2023 by the author(s).Note
Open access articleISSN
0273-8570Version
Final Published Versionae974a485f413a2113503eed53cd6c53
10.5751/JFO-00260-940306
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Except where otherwise noted, this item's license is described as © 2023 by the author(s). Published here under license by the Resilience Alliance. Open Access. CC-BY 4.0.
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