Shoaling reduces metabolic rate in a gregarious coral reef fish species
Shoaling reduces metabolic rate in a gregarious coral reef fish species
Many animals live in groups because of the potential benefits associated with defense and foraging. Group living may also induce a ‘calming effect’ on individuals, reducing overall metabolic demand. This effect could occur by minimising the need for individual vigilance and reducing stress through social buffering. However, this effect has proved difficult to quantify. We examined the effect of shoaling on metabolism and body condition in the gregarious damselfish Chromis viridis. Using a novel respirometry methodology for social species, we found that the presence of shoal-mate visual and olfactory cues led to a reduction in the minimum metabolic rate of individuals. Fish held in isolation for 1 week also exhibited a reduction in body condition when compared with those held in shoals. These results indicate that social isolation as a result of environmental disturbance could have physiological consequences for gregarious species.
Nadler, Lauren E.
1d1f8e6a-e951-41f5-888c-cfcb4b4b19dc
Killen, Shaun S.
1264c6da-6ec7-4d54-8ceb-2d462626743c
McClure, Eva C.
02fde208-bdc1-46c8-8a61-0985ab1945e5
Munday, Philip L.
39a64c27-5412-497a-ab60-6eed8f2a6e56
McCormick, Mark I.
18c6b112-782f-443c-b4f5-fda311b3d344
15 September 2016
Nadler, Lauren E.
1d1f8e6a-e951-41f5-888c-cfcb4b4b19dc
Killen, Shaun S.
1264c6da-6ec7-4d54-8ceb-2d462626743c
McClure, Eva C.
02fde208-bdc1-46c8-8a61-0985ab1945e5
Munday, Philip L.
39a64c27-5412-497a-ab60-6eed8f2a6e56
McCormick, Mark I.
18c6b112-782f-443c-b4f5-fda311b3d344
Nadler, Lauren E., Killen, Shaun S., McClure, Eva C., Munday, Philip L. and McCormick, Mark I.
(2016)
Shoaling reduces metabolic rate in a gregarious coral reef fish species.
Journal of Experimental Biology, 219 (18), [139493].
(doi:10.1242/jeb.139493).
Abstract
Many animals live in groups because of the potential benefits associated with defense and foraging. Group living may also induce a ‘calming effect’ on individuals, reducing overall metabolic demand. This effect could occur by minimising the need for individual vigilance and reducing stress through social buffering. However, this effect has proved difficult to quantify. We examined the effect of shoaling on metabolism and body condition in the gregarious damselfish Chromis viridis. Using a novel respirometry methodology for social species, we found that the presence of shoal-mate visual and olfactory cues led to a reduction in the minimum metabolic rate of individuals. Fish held in isolation for 1 week also exhibited a reduction in body condition when compared with those held in shoals. These results indicate that social isolation as a result of environmental disturbance could have physiological consequences for gregarious species.
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Accepted/In Press date: 1 July 2016
Published date: 15 September 2016
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Local EPrints ID: 472549
URI: http://eprints.soton.ac.uk/id/eprint/472549
ISSN: 0022-0949
PURE UUID: c5ca1aa4-d27e-48cb-8bc5-2e6c554ab612
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Date deposited: 07 Dec 2022 18:07
Last modified: 17 Mar 2024 04:16
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Contributors
Author:
Lauren E. Nadler
Author:
Shaun S. Killen
Author:
Eva C. McClure
Author:
Philip L. Munday
Author:
Mark I. McCormick
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