Diet versatility and functional trade-offs shape tooth morphology in squirrels

Identifying the drivers of adaptation is key to understanding the origin and evolution of diversity. Here we study the morphological evolution of tooth morphology, a classic example of a conserved structure, to gain insights into the conditions that can overcome resistance to evolutionary change. We...

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Bibliographic Details
Published in:Evolution 2023-01, Vol.77 (1), p.83-96
Main Authors: Menéndez, Iris, Swiderski, Donald L, Gómez Cano, Ana R, Hernández Fernández, Manuel, Álvarez-Sierra, María A, Zelditch, Miriam L
Format: Article
Language:English
Subjects:
Adaptation, Physiological
Animals
Biological Evolution
Diet
Phylogeny
Sciuridae - anatomy & histology
Tooth - anatomy & histology
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Summary:Identifying the drivers of adaptation is key to understanding the origin and evolution of diversity. Here we study the morphological evolution of tooth morphology, a classic example of a conserved structure, to gain insights into the conditions that can overcome resistance to evolutionary change. We use geometric morphometrics of the occlusal surface outline of the fourth lower premolar (p4) of squirrels, a paradigm of a stable tooth morphology, to explore morphological adaptations to diet. Although a versatile generalist dental morphology favors the retention of the ancestral shape, the acquisition of diets that require strong mechanical processing drives morphological change. In particular, species that eat both grass and dry fruits evolved disparate tooth shape morphologies, related to trade-offs between feeding performance that lead to a more or less pronounced change depending on the proportion of those items in their diet. Also, some folivores develop relatively large p4s, and most bark gleaners have relatively small p4s. Ultimately, despite the role of diet shaping these patterns, we showed that diet is not the only factor driving the evolution of tooth morphology.
ISSN:0014-3820
1558-5646
DOI:10.1093/evolut/qpac019