Increasing morphological disparity and decreasing optimality for jaw speed and strength during the radiation of jawed vertebrates

William J Deakin; Philip S Anderson; Wendy den Boer; Tom Smith; Jennifer J Hill; Martin Rucklin; Philip C J Donoghue; Emily J Rayfield

doi:10.1126/sciadv.abl3644

Increasing morphological disparity and decreasing optimality for jaw speed and strength during the radiation of jawed vertebrates

William J Deakin^*, Philip S Anderson, Wendy den Boer, Tom Smith, Jennifer J Hill, Martin Rucklin, Philip C J Donoghue^*, Emily J Rayfield^*

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

The Siluro-Devonian adaptive radiation of jawed vertebrates, which underpins almost all living vertebrate biodiversity, is characterised by the evolutionary innovation of the lower jaw. Multiple lines of evidence have suggested that the jaw evolved from a rostral gill arch, but when the jaw took on a feeding function remains unclear. We quantified the variety of form in the earliest jaws in the fossil record, from which we generated a theoretical morphospace that we then tested for functional optimality. By drawing comparisons with the real jaw data and reconstructed jaw morphologies from phylogenetically-inferred ancestors, our results show that the earliest jaw shapes were optimised for fast closure and stress resistance, inferring a predatory feeding function. Jaw shapes became less optimal for these functions during the later radiation of jawed vertebrates. Thus, the evolution of jaw morphology has continually explored new morphospace and accumulated disparity through time, laying the foundation for diverse feeding strategies and the success of jawed vertebrates.

Original language	English
Article number	eabl3644
Pages (from-to)	1-12
Number of pages	12
Journal	Science Advances
Volume	8
Issue number	11
DOIs	https://doi.org/10.1126/sciadv.abl3644
Publication status	Published - 19 Mar 2022

Bibliographical note

Funding Information:
Acknowledgments Funding: W.J.D. and T.J.S are supported by an NERC GW4+ Doctoral Training Partnership studentship from the Natural Environment Research Council (NE/L002434/1). This work was also funded by NERC grants: NE/G016623/1 awarded to P.C.J.D. and NE/P013090/1 awarded to E.J.R. Author contributions: W.J.D., P.C.J.D., and E.J.R. designed the study, interpreted the results, and drafted the manuscript, to which all authors contributed. W.J.D. wrote the MATLAB code and performed analyses. W.J.D. and P.S.L.A. collected the image data. Competing interests: The authors declare that they have no competing interests. Data and materials availability: All data needed to evaluate the conclusions in the paper are present in the paper and/or the Supplementary Materials. MATLAB code is available from Dryad (doi:10.5061/dryad.3bk3j9km8).

Publisher Copyright:
© 2022 The Authors.

Keywords

palaeobiology

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title = "Increasing morphological disparity and decreasing optimality for jaw speed and strength during the radiation of jawed vertebrates",

abstract = "The Siluro-Devonian adaptive radiation of jawed vertebrates, which underpins almost all living vertebrate biodiversity, is characterised by the evolutionary innovation of the lower jaw. Multiple lines of evidence have suggested that the jaw evolved from a rostral gill arch, but when the jaw took on a feeding function remains unclear. We quantified the variety of form in the earliest jaws in the fossil record, from which we generated a theoretical morphospace that we then tested for functional optimality. By drawing comparisons with the real jaw data and reconstructed jaw morphologies from phylogenetically-inferred ancestors, our results show that the earliest jaw shapes were optimised for fast closure and stress resistance, inferring a predatory feeding function. Jaw shapes became less optimal for these functions during the later radiation of jawed vertebrates. Thus, the evolution of jaw morphology has continually explored new morphospace and accumulated disparity through time, laying the foundation for diverse feeding strategies and the success of jawed vertebrates.",

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note = "Funding Information: Acknowledgments Funding: W.J.D. and T.J.S are supported by an NERC GW4+ Doctoral Training Partnership studentship from the Natural Environment Research Council (NE/L002434/1). This work was also funded by NERC grants: NE/G016623/1 awarded to P.C.J.D. and NE/P013090/1 awarded to E.J.R. Author contributions: W.J.D., P.C.J.D., and E.J.R. designed the study, interpreted the results, and drafted the manuscript, to which all authors contributed. W.J.D. wrote the MATLAB code and performed analyses. W.J.D. and P.S.L.A. collected the image data. Competing interests: The authors declare that they have no competing interests. Data and materials availability: All data needed to evaluate the conclusions in the paper are present in the paper and/or the Supplementary Materials. MATLAB code is available from Dryad (doi:10.5061/dryad.3bk3j9km8). Publisher Copyright: {\textcopyright} 2022 The Authors.",

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AU - Rucklin, Martin

AU - Donoghue, Philip C J

AU - Rayfield, Emily J

N1 - Funding Information: Acknowledgments Funding: W.J.D. and T.J.S are supported by an NERC GW4+ Doctoral Training Partnership studentship from the Natural Environment Research Council (NE/L002434/1). This work was also funded by NERC grants: NE/G016623/1 awarded to P.C.J.D. and NE/P013090/1 awarded to E.J.R. Author contributions: W.J.D., P.C.J.D., and E.J.R. designed the study, interpreted the results, and drafted the manuscript, to which all authors contributed. W.J.D. wrote the MATLAB code and performed analyses. W.J.D. and P.S.L.A. collected the image data. Competing interests: The authors declare that they have no competing interests. Data and materials availability: All data needed to evaluate the conclusions in the paper are present in the paper and/or the Supplementary Materials. MATLAB code is available from Dryad (doi:10.5061/dryad.3bk3j9km8). Publisher Copyright: © 2022 The Authors.

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N2 - The Siluro-Devonian adaptive radiation of jawed vertebrates, which underpins almost all living vertebrate biodiversity, is characterised by the evolutionary innovation of the lower jaw. Multiple lines of evidence have suggested that the jaw evolved from a rostral gill arch, but when the jaw took on a feeding function remains unclear. We quantified the variety of form in the earliest jaws in the fossil record, from which we generated a theoretical morphospace that we then tested for functional optimality. By drawing comparisons with the real jaw data and reconstructed jaw morphologies from phylogenetically-inferred ancestors, our results show that the earliest jaw shapes were optimised for fast closure and stress resistance, inferring a predatory feeding function. Jaw shapes became less optimal for these functions during the later radiation of jawed vertebrates. Thus, the evolution of jaw morphology has continually explored new morphospace and accumulated disparity through time, laying the foundation for diverse feeding strategies and the success of jawed vertebrates.

AB - The Siluro-Devonian adaptive radiation of jawed vertebrates, which underpins almost all living vertebrate biodiversity, is characterised by the evolutionary innovation of the lower jaw. Multiple lines of evidence have suggested that the jaw evolved from a rostral gill arch, but when the jaw took on a feeding function remains unclear. We quantified the variety of form in the earliest jaws in the fossil record, from which we generated a theoretical morphospace that we then tested for functional optimality. By drawing comparisons with the real jaw data and reconstructed jaw morphologies from phylogenetically-inferred ancestors, our results show that the earliest jaw shapes were optimised for fast closure and stress resistance, inferring a predatory feeding function. Jaw shapes became less optimal for these functions during the later radiation of jawed vertebrates. Thus, the evolution of jaw morphology has continually explored new morphospace and accumulated disparity through time, laying the foundation for diverse feeding strategies and the success of jawed vertebrates.

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Increasing morphological disparity and decreasing optimality for jaw speed and strength during the radiation of jawed vertebrates

Abstract

Bibliographical note

Keywords

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Embargoed Document

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Teeth and jaws: evolutionary emergence of a model organogenic system and the adaptive radiation of gnathosomes.

The Role of Mechanical Function in the Evolution of Skeletal Morphology

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Increasing morphological disparity and decreasing optimality for jaw speed and strength during the radiation of jawed vertebrates

Abstract

Bibliographical note

Keywords

Access to Document

Handle.net

Other files and links

Embargoed Document

Fingerprint

Projects

Teeth and jaws: evolutionary emergence of a model organogenic system and the adaptive radiation of gnathosomes.

Student theses

The Role of Mechanical Function in the Evolution of Skeletal Morphology

Cite this