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The rise of jaw protrusion in spiny-rayed fishes closes the gap on elusive prey

The rise of jaw protrusion in spiny-rayed fishes closes the gap on elusive prey
The rise of jaw protrusion in spiny-rayed fishes closes the gap on elusive prey
Jaw protrusion is one of the most important innovations in vertebrate feeding over the last 400 million years [1, 2]. Protrusion enables a fish to rapidly decrease the distance between itself and its prey [2, 3]. We assessed the evolution and functional implications of jaw protrusion in teleost fish assemblages from shallow coastal seas since the Cretaceous. By examining extant teleost fishes, we identified a robust morphological predictor of jaw protrusion that enabled us to predict the extent of jaw protrusion in fossil fishes. Our analyses revealed increases in both average and maximum jaw protrusion over the last 100 million years, with a progressive increase in the potential impact of fish predation on elusive prey. Over this period, the increase in jaw protrusion was initially driven by a taxonomic restructuring of fish assemblages, with an increase in the proportion of spiny-rayed fishes (Acanthomorpha), followed by an increase in the extent of protrusion within this clade. By increasing the ability of fishes to catch elusive prey [2, 4], jaw protrusion is likely to have fundamentally changed the nature of predator-prey interactions and may have contributed to the success of the spiny-rayed fishes, the dominant fish clade in modern oceans [5].
0960-9822
2696-2700
Bellwood, D.R.
829e5839-9ac7-4f63-961c-8d0bf8caab8a
Goatley, C.H.R.
b158dc1a-76f3-4ace-9d33-260d8c76ac93
Bellwood, O.
a2d945f7-2b80-46ae-a23b-5f68cd8e8006
Delbarre, D.J.
237a95e0-b2d0-4183-9c40-4ade4867411d
Friedman, M.
6f535310-ae0a-456e-977c-5652c0926acd
Bellwood, D.R.
829e5839-9ac7-4f63-961c-8d0bf8caab8a
Goatley, C.H.R.
b158dc1a-76f3-4ace-9d33-260d8c76ac93
Bellwood, O.
a2d945f7-2b80-46ae-a23b-5f68cd8e8006
Delbarre, D.J.
237a95e0-b2d0-4183-9c40-4ade4867411d
Friedman, M.
6f535310-ae0a-456e-977c-5652c0926acd

Bellwood, D.R., Goatley, C.H.R., Bellwood, O., Delbarre, D.J. and Friedman, M. (2015) The rise of jaw protrusion in spiny-rayed fishes closes the gap on elusive prey. Current Biology, 25 (20), 2696-2700. (doi:10.1016/j.cub.2015.08.058).

Record type: Article

Abstract

Jaw protrusion is one of the most important innovations in vertebrate feeding over the last 400 million years [1, 2]. Protrusion enables a fish to rapidly decrease the distance between itself and its prey [2, 3]. We assessed the evolution and functional implications of jaw protrusion in teleost fish assemblages from shallow coastal seas since the Cretaceous. By examining extant teleost fishes, we identified a robust morphological predictor of jaw protrusion that enabled us to predict the extent of jaw protrusion in fossil fishes. Our analyses revealed increases in both average and maximum jaw protrusion over the last 100 million years, with a progressive increase in the potential impact of fish predation on elusive prey. Over this period, the increase in jaw protrusion was initially driven by a taxonomic restructuring of fish assemblages, with an increase in the proportion of spiny-rayed fishes (Acanthomorpha), followed by an increase in the extent of protrusion within this clade. By increasing the ability of fishes to catch elusive prey [2, 4], jaw protrusion is likely to have fundamentally changed the nature of predator-prey interactions and may have contributed to the success of the spiny-rayed fishes, the dominant fish clade in modern oceans [5].

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Published date: 19 October 2015

Identifiers

Local EPrints ID: 470194
URI: http://eprints.soton.ac.uk/id/eprint/470194
DOI: doi:10.1016/j.cub.2015.08.058
ISSN: 0960-9822
PURE UUID: b1f5462e-c33c-4e35-afd4-85637ced70e7
ORCID for C.H.R. Goatley: ORCID iD orcid.org/0000-0002-2930-5591

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Date deposited: 04 Oct 2022 16:47
Last modified: 17 Mar 2024 04:14

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Contributors

Author: D.R. Bellwood
Author: C.H.R. Goatley ORCID iD
Author: O. Bellwood
Author: D.J. Delbarre
Author: M. Friedman

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