Fifty million years of herbivory on coral reefs: Fossils, fish and functional innovations
Fifty million years of herbivory on coral reefs: Fossils, fish and functional innovations
The evolution of ecological processes on coral reefs was examined based on Eocene fossil fishes from Monte Bolca, Italy and extant species from the Great Barrier Reef, Australia. Using ecologically relevant morphological metrics, we investigated the evolution of herbivory in surgeonfishes (Acanthuridae) and rabbitfishes (Siganidae). Eocene and Recent surgeonfishes showed remarkable similarities, with grazers, browsers and even specialized, long-snouted forms having Eocene analogues. These long-snouted Eocene species were probably pair-forming, crevice-feeding forms like their Recent counterparts. Although Eocene surgeonfishes likely played a critical role as herbivores during the origins of modern coral reefs, they lacked the novel morphologies seen in modern Acanthurus and Siganus (including eyes positioned high above their low-set mouths). Today, these forms dominate coral reefs in both abundance and species richness and are associated with feeding on shallow, exposed algal turfs. The radiation of these new forms, and their expansion into new habitats in the Oligocene–Miocene, reflects the second phase in the development of fish herbivory on coral reefs that is closely associated with the exploitation of highly productive short algal turfs.
Bellwood, D.R.
829e5839-9ac7-4f63-961c-8d0bf8caab8a
Goatley, C.H.R.
b158dc1a-76f3-4ace-9d33-260d8c76ac93
Brandl, S.J.
ee1ea41e-617c-4301-b293-55c291850657
Bellwood, O.
a2d945f7-2b80-46ae-a23b-5f68cd8e8006
27 January 2014
Bellwood, D.R.
829e5839-9ac7-4f63-961c-8d0bf8caab8a
Goatley, C.H.R.
b158dc1a-76f3-4ace-9d33-260d8c76ac93
Brandl, S.J.
ee1ea41e-617c-4301-b293-55c291850657
Bellwood, O.
a2d945f7-2b80-46ae-a23b-5f68cd8e8006
Bellwood, D.R., Goatley, C.H.R., Brandl, S.J. and Bellwood, O.
(2014)
Fifty million years of herbivory on coral reefs: Fossils, fish and functional innovations.
Proceedings of the Royal Society B: Biological Sciences, 281, [20133046].
(doi:10.1098/rspb.2013.3046).
Abstract
The evolution of ecological processes on coral reefs was examined based on Eocene fossil fishes from Monte Bolca, Italy and extant species from the Great Barrier Reef, Australia. Using ecologically relevant morphological metrics, we investigated the evolution of herbivory in surgeonfishes (Acanthuridae) and rabbitfishes (Siganidae). Eocene and Recent surgeonfishes showed remarkable similarities, with grazers, browsers and even specialized, long-snouted forms having Eocene analogues. These long-snouted Eocene species were probably pair-forming, crevice-feeding forms like their Recent counterparts. Although Eocene surgeonfishes likely played a critical role as herbivores during the origins of modern coral reefs, they lacked the novel morphologies seen in modern Acanthurus and Siganus (including eyes positioned high above their low-set mouths). Today, these forms dominate coral reefs in both abundance and species richness and are associated with feeding on shallow, exposed algal turfs. The radiation of these new forms, and their expansion into new habitats in the Oligocene–Miocene, reflects the second phase in the development of fish herbivory on coral reefs that is closely associated with the exploitation of highly productive short algal turfs.
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Published date: 27 January 2014
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Local EPrints ID: 470191
URI: http://eprints.soton.ac.uk/id/eprint/470191
ISSN: 0962-8452
PURE UUID: 1c6b613e-61b2-4617-bbe4-40ef78cbb956
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Date deposited: 04 Oct 2022 16:47
Last modified: 17 Mar 2024 04:14
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Author:
D.R. Bellwood
Author:
C.H.R. Goatley
Author:
S.J. Brandl
Author:
O. Bellwood
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