Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes?

The swim bladder provides a mechanism for buoyancy regulation in teleosts. However, in certain species, its location can result in an unstable body position, with associated energetic costs assumed for maintaining posture in addition to the energetic demands from swim bladder volume regulation. Dire...

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Main Authors: Ciancio, J.E., Venerus, L.A., Trobbiani, G.A., Beltramino, L.E., Gleiss, A.C., Wright, S., Norman, B., Holton, M., Wilson, R.P.
Format: Article in Journal/Newspaper
Language:English
Published: Springer Verlag 2016
Subjects:
Argentine
atlantic cod
Gadus morhua
Online Access:https://researchrepository.murdoch.edu.au/id/eprint/30680/
id ftmurdochuniv:oai:researchrepository.murdoch.edu.au:30680
record_format openpolar
spelling ftmurdochuniv:oai:researchrepository.murdoch.edu.au:30680 2023-05-15T15:27:25+02:00 Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes? Ciancio, J.E. Venerus, L.A. Trobbiani, G.A. Beltramino, L.E. Gleiss, A.C. Wright, S. Norman, B. Holton, M. Wilson, R.P. 2016 https://researchrepository.murdoch.edu.au/id/eprint/30680/ eng eng Springer Verlag https://researchrepository.murdoch.edu.au/id/eprint/30680/ full_text_status:none © 2016 Springer-Verlag Berlin Heidelberg Ciancio, J.E., Venerus, L.A., Trobbiani, G.A., Beltramino, L.E., Gleiss, A.C. <https://researchrepository.murdoch.edu.au/view/author/Gleiss, Adrian.html>, Wright, S., Norman, B. <https://researchrepository.murdoch.edu.au/view/author/Norman, Bradley.html>, Holton, M. and Wilson, R.P. (2016) Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes? Marine Biology, 163:90 . Journal Article 2016 ftmurdochuniv 2020-01-05T18:56:13Z The swim bladder provides a mechanism for buoyancy regulation in teleosts. However, in certain species, its location can result in an unstable body position, with associated energetic costs assumed for maintaining posture in addition to the energetic demands from swim bladder volume regulation. Direct observations show that some body-compressed, cave-refuging teleosts that nominally operate near neutral buoyancy may adopt unusual body attitudes within crevices. We hypothesize that these fishes may relax their buoyancy and posture control mechanisms during periods of rest. A prediction derived from this is that resting fish may adopt a wide range of roll angles (i.e., rotation about their longitudinal axis) inside caves. To quantify this behavior and for testing this hypothesis, triaxial accelerometers were deployed on free-living, cave-refuging Argentine sea bass Acanthistius patachonicus, and the relationship between roll angle and a proxy for activity (defined as the vectorial dynamic body acceleration, VeDBA) was analyzed. The results were compared with data available for three other species of fishes with disparate body forms and lifestyles: the pelagic whale shark Rhincodon typus, the dorsoventrally compressed benthic great sculpin Myoxocephalus polyacanthocephalus, and the fusiform and demersal Atlantic cod Gadus morhua. Inactive Argentine sea bass adopted a wide variety of roll angles, including extreme ones exceeding 80°, but had lower roll angles closer to an upright posture primarily associated with higher activity levels. In contrast, the great sculpin and Atlantic cod both rested at a close to upright roll angle but had higher activity levels associated with larger roll angles. Whale shark did not rest for the duration of the recorded period and also showed higher activity levels associated with larger roll angles. We propose that relaxation of buoyancy and posture control may help to reduce the metabolic rate in laterally compressed, cave-refuging fishes during periods of rest within crevices. Article in Journal/Newspaper atlantic cod Gadus morhua Murdoch University: Murdoch Research Repository Argentine
institution Open Polar
collection Murdoch University: Murdoch Research Repository
op_collection_id ftmurdochuniv
language English
description The swim bladder provides a mechanism for buoyancy regulation in teleosts. However, in certain species, its location can result in an unstable body position, with associated energetic costs assumed for maintaining posture in addition to the energetic demands from swim bladder volume regulation. Direct observations show that some body-compressed, cave-refuging teleosts that nominally operate near neutral buoyancy may adopt unusual body attitudes within crevices. We hypothesize that these fishes may relax their buoyancy and posture control mechanisms during periods of rest. A prediction derived from this is that resting fish may adopt a wide range of roll angles (i.e., rotation about their longitudinal axis) inside caves. To quantify this behavior and for testing this hypothesis, triaxial accelerometers were deployed on free-living, cave-refuging Argentine sea bass Acanthistius patachonicus, and the relationship between roll angle and a proxy for activity (defined as the vectorial dynamic body acceleration, VeDBA) was analyzed. The results were compared with data available for three other species of fishes with disparate body forms and lifestyles: the pelagic whale shark Rhincodon typus, the dorsoventrally compressed benthic great sculpin Myoxocephalus polyacanthocephalus, and the fusiform and demersal Atlantic cod Gadus morhua. Inactive Argentine sea bass adopted a wide variety of roll angles, including extreme ones exceeding 80°, but had lower roll angles closer to an upright posture primarily associated with higher activity levels. In contrast, the great sculpin and Atlantic cod both rested at a close to upright roll angle but had higher activity levels associated with larger roll angles. Whale shark did not rest for the duration of the recorded period and also showed higher activity levels associated with larger roll angles. We propose that relaxation of buoyancy and posture control may help to reduce the metabolic rate in laterally compressed, cave-refuging fishes during periods of rest within crevices.
format Article in Journal/Newspaper
author Ciancio, J.E.
Venerus, L.A.
Trobbiani, G.A.
Beltramino, L.E.
Gleiss, A.C.
Wright, S.
Norman, B.
Holton, M.
Wilson, R.P.
spellingShingle Ciancio, J.E.
Venerus, L.A.
Trobbiani, G.A.
Beltramino, L.E.
Gleiss, A.C.
Wright, S.
Norman, B.
Holton, M.
Wilson, R.P.
Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes?
author_facet Ciancio, J.E.
Venerus, L.A.
Trobbiani, G.A.
Beltramino, L.E.
Gleiss, A.C.
Wright, S.
Norman, B.
Holton, M.
Wilson, R.P.
author_sort Ciancio, J.E.
title Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes?
title_short Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes?
title_full Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes?
title_fullStr Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes?
title_full_unstemmed Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes?
title_sort extreme roll angles in argentine sea bass: could refuge ease posture and buoyancy control of marine coastal fishes?
publisher Springer Verlag
publishDate 2016
url https://researchrepository.murdoch.edu.au/id/eprint/30680/
geographic Argentine
geographic_facet Argentine
genre atlantic cod
Gadus morhua
genre_facet atlantic cod
Gadus morhua
op_source Ciancio, J.E., Venerus, L.A., Trobbiani, G.A., Beltramino, L.E., Gleiss, A.C. <https://researchrepository.murdoch.edu.au/view/author/Gleiss, Adrian.html>, Wright, S., Norman, B. <https://researchrepository.murdoch.edu.au/view/author/Norman, Bradley.html>, Holton, M. and Wilson, R.P. (2016) Extreme roll angles in Argentine sea bass: Could refuge ease posture and buoyancy control of marine coastal fishes? Marine Biology, 163:90 .
op_relation https://researchrepository.murdoch.edu.au/id/eprint/30680/
full_text_status:none
op_rights © 2016 Springer-Verlag Berlin Heidelberg
_version_ 1766357858013675520

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