Tissue and size-related changes in the fatty acid and stable isotope signatures of the deep sea grenadier fish Coryphaenoides armatus from the Charlie-Gibbs Fracture Zone region of the Mid-Atlantic Ridge
Tissue and size-related changes in the fatty acid and stable isotope signatures of the deep sea grenadier fish Coryphaenoides armatus from the Charlie-Gibbs Fracture Zone region of the Mid-Atlantic Ridge
Coryphaenoides armatus is a cosmopolitan deep-sea fish that plays a major role in the ecology of abyssal ecosystems. We investigated the trophic ecology and physiology of this species by determining the ?13C, ?15N and fatty acid signatures of muscle, liver and ovary tissues of individuals collected from ?2700 m to the north and south of the Charlie-Gibbs Fracture Zone (CGFZ) of the Mid-Atlantic Ridge, NE Atlantic. Fatty acid and ?13C data both suggested that C. armatus shows an ontogenetic dietary shift, with the relative contributions of benthic and pelagic prey decreasing and increasing respectively as the animals grow. They also indicated that dietary overlap between animals living to the north and south of the CGFZ increases as they grow, suggesting that larger animals forage over greater distances and are not hindered by the presence of the CGFZ. Comparison of tissue-specific fatty acid signatures with previously published data suggests compositional homeostasis of the fatty acids 20:5(n?3) and 22:6(n?3) in the muscle, and 18:1(n?9) in the liver tissues. We ascribe this primarily to strict physiological requirements for these compounds, rather than simply to their abundance in the diet. We pose several speculative mechanisms to explain the observed trends in tissue-specific ?13C and ?15N values, illustrating some of the numerous processes that can influence the isotopic signatures of bulk tissues.
Coryphaenoides armatus, Diet, Fatty acid, Fractionation, Homeostasis, Stable isotope
421-430
Mayor, Daniel J.
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Sharples, Caroline J.
61ba9470-f6c3-415f-b387-1e5b8fae2708
Webster, Lynda
7651b239-c316-456e-b221-53d277469369
Walsham, Pamela
f69bc429-0830-4d28-9985-2f5a9ef6bcc2
Lacaze, Jean-Pierre
1b62a936-432a-429c-bff2-57eb459fd23e
Cousins, Nicola J.
993d86a3-434b-432f-acd7-9bc974062979
15 December 2013
Mayor, Daniel J.
a2a9c29e-ffdc-4858-ad65-3a235824a4c9
Sharples, Caroline J.
61ba9470-f6c3-415f-b387-1e5b8fae2708
Webster, Lynda
7651b239-c316-456e-b221-53d277469369
Walsham, Pamela
f69bc429-0830-4d28-9985-2f5a9ef6bcc2
Lacaze, Jean-Pierre
1b62a936-432a-429c-bff2-57eb459fd23e
Cousins, Nicola J.
993d86a3-434b-432f-acd7-9bc974062979
Mayor, Daniel J., Sharples, Caroline J., Webster, Lynda, Walsham, Pamela, Lacaze, Jean-Pierre and Cousins, Nicola J.
(2013)
Tissue and size-related changes in the fatty acid and stable isotope signatures of the deep sea grenadier fish Coryphaenoides armatus from the Charlie-Gibbs Fracture Zone region of the Mid-Atlantic Ridge.
Deep Sea Research Part II: Topical Studies in Oceanography, 98, .
(doi:10.1016/j.dsr2.2013.02.030).
Abstract
Coryphaenoides armatus is a cosmopolitan deep-sea fish that plays a major role in the ecology of abyssal ecosystems. We investigated the trophic ecology and physiology of this species by determining the ?13C, ?15N and fatty acid signatures of muscle, liver and ovary tissues of individuals collected from ?2700 m to the north and south of the Charlie-Gibbs Fracture Zone (CGFZ) of the Mid-Atlantic Ridge, NE Atlantic. Fatty acid and ?13C data both suggested that C. armatus shows an ontogenetic dietary shift, with the relative contributions of benthic and pelagic prey decreasing and increasing respectively as the animals grow. They also indicated that dietary overlap between animals living to the north and south of the CGFZ increases as they grow, suggesting that larger animals forage over greater distances and are not hindered by the presence of the CGFZ. Comparison of tissue-specific fatty acid signatures with previously published data suggests compositional homeostasis of the fatty acids 20:5(n?3) and 22:6(n?3) in the muscle, and 18:1(n?9) in the liver tissues. We ascribe this primarily to strict physiological requirements for these compounds, rather than simply to their abundance in the diet. We pose several speculative mechanisms to explain the observed trends in tissue-specific ?13C and ?15N values, illustrating some of the numerous processes that can influence the isotopic signatures of bulk tissues.
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Published date: 15 December 2013
Keywords:
Coryphaenoides armatus, Diet, Fatty acid, Fractionation, Homeostasis, Stable isotope
Organisations:
Marine Biogeochemistry
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Local EPrints ID: 380722
URI: http://eprints.soton.ac.uk/id/eprint/380722
ISSN: 0967-0645
PURE UUID: 72d3ac5c-8ec7-45d6-b6d0-80e2d49001a4
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Date deposited: 19 Aug 2015 10:14
Last modified: 14 Mar 2024 21:03
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Author:
Daniel J. Mayor
Author:
Caroline J. Sharples
Author:
Lynda Webster
Author:
Pamela Walsham
Author:
Jean-Pierre Lacaze
Author:
Nicola J. Cousins
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