Compound-specific stable isotope analysis of amino acids in pelagic shark vertebrae reveals baseline, trophic, and physiological effects on bulk protein isotope records
Compound-specific stable isotope analysis of amino acids in pelagic shark vertebrae reveals baseline, trophic, and physiological effects on bulk protein isotope records
Variations in stable carbon and nitrogen isotope compositions in incremental tissues of pelagic sharks can be used to infer aspects of their spatial and trophic ecology across life-histories. Interpretations from bulk tissue isotopic compositions are complicated, however, because multiple processes influence these values, including variations in primary producer isotope ratios and consumer diets and physiological processing of metabolites. Here we challenge inferences about shark tropho-spatial ecology drawn from bulk tissue isotope data using data for amino acids. Stable isotope compositions of individual amino acids can partition the isotopic variance in bulk tissue into components associated with primary production on the one hand, and diet and physiology on the other. The carbon framework of essential amino acids (EAAs) can be synthesised de novo only by plants, fungi and bacteria and must be acquired by consumers through the diet. Consequently, the carbon isotopic composition of EAAs in consumers reflects that of primary producers in the location of feeding, whereas that of non-essential amino acids (non-EAAs) is additionally influenced by trophic fractionation and isotope dynamics of metabolic processing. We determined isotope chronologies from vertebrae of individual blue sharks and porbeagles from the North Atlantic. We measured carbon and nitrogen isotope compositions in bulk collagen and carbon isotope compositions of amino acids. Despite variability among individuals, common ontogenetic patterns in bulk isotope compositions were seen in both species. However, while life-history movement inferences from bulk analyses for blue sharks were supported by carbon isotope data from essential amino acids, inferences for porbeagles were not, implying that the observed trends in bulk protein isotope compositions in porbeagles have a trophic or physiological explanation, or are suprious effects. We explored variations in carbon isotope compositions of non-essential amino acids, searching for systematic variations that might imply ontogenetic changes in physiological processing, but patterns were highly variable and did not explain variance in bulk protein δ13C values. Isotopic effects associated with metabolite processing may overwhelm spatial influences that are weak or inconsistently developed in bulk tissue isotope values, but interpreting mechanisms underpinning isotopic variation in patterns in non-essential amino acids remains challenging.
Magozzi, Sarah
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Thorrold, Simon R.
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Houghton, Leah
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Bendall, Victoria A.
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Hetherington, Stuart
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Mucientes, Gonzalo
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Natanson, Lisa J.
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Queiroz, Nuno
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Santos, Miguel N.
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Trueman, Clive N.
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1 September 2021
Magozzi, Sarah
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Thorrold, Simon R.
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Houghton, Leah
bb9ee351-78ce-4f0e-a90b-67f8ce1120d1
Bendall, Victoria A.
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Hetherington, Stuart
57671701-a752-4e90-8021-59c315b3ab4f
Mucientes, Gonzalo
b9e3388a-9fab-4982-8a7b-a5deb05c26b6
Natanson, Lisa J.
046edc89-019b-4e2f-97e6-e70ac8bbd5b7
Queiroz, Nuno
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Santos, Miguel N.
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Trueman, Clive N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Magozzi, Sarah, Thorrold, Simon R., Houghton, Leah, Bendall, Victoria A., Hetherington, Stuart, Mucientes, Gonzalo, Natanson, Lisa J., Queiroz, Nuno, Santos, Miguel N. and Trueman, Clive N.
(2021)
Compound-specific stable isotope analysis of amino acids in pelagic shark vertebrae reveals baseline, trophic, and physiological effects on bulk protein isotope records.
Frontiers in Marine Science, 8, [673016].
(doi:10.3389/fmars.2021.673016).
Abstract
Variations in stable carbon and nitrogen isotope compositions in incremental tissues of pelagic sharks can be used to infer aspects of their spatial and trophic ecology across life-histories. Interpretations from bulk tissue isotopic compositions are complicated, however, because multiple processes influence these values, including variations in primary producer isotope ratios and consumer diets and physiological processing of metabolites. Here we challenge inferences about shark tropho-spatial ecology drawn from bulk tissue isotope data using data for amino acids. Stable isotope compositions of individual amino acids can partition the isotopic variance in bulk tissue into components associated with primary production on the one hand, and diet and physiology on the other. The carbon framework of essential amino acids (EAAs) can be synthesised de novo only by plants, fungi and bacteria and must be acquired by consumers through the diet. Consequently, the carbon isotopic composition of EAAs in consumers reflects that of primary producers in the location of feeding, whereas that of non-essential amino acids (non-EAAs) is additionally influenced by trophic fractionation and isotope dynamics of metabolic processing. We determined isotope chronologies from vertebrae of individual blue sharks and porbeagles from the North Atlantic. We measured carbon and nitrogen isotope compositions in bulk collagen and carbon isotope compositions of amino acids. Despite variability among individuals, common ontogenetic patterns in bulk isotope compositions were seen in both species. However, while life-history movement inferences from bulk analyses for blue sharks were supported by carbon isotope data from essential amino acids, inferences for porbeagles were not, implying that the observed trends in bulk protein isotope compositions in porbeagles have a trophic or physiological explanation, or are suprious effects. We explored variations in carbon isotope compositions of non-essential amino acids, searching for systematic variations that might imply ontogenetic changes in physiological processing, but patterns were highly variable and did not explain variance in bulk protein δ13C values. Isotopic effects associated with metabolite processing may overwhelm spatial influences that are weak or inconsistently developed in bulk tissue isotope values, but interpreting mechanisms underpinning isotopic variation in patterns in non-essential amino acids remains challenging.
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fmars-08-673016
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Accepted/In Press date: 27 July 2021
Published date: 1 September 2021
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Local EPrints ID: 491073
URI: http://eprints.soton.ac.uk/id/eprint/491073
ISSN: 2296-7745
PURE UUID: b10fe8ba-0618-4411-a5c1-c1504a072504
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Date deposited: 11 Jun 2024 23:49
Last modified: 12 Jun 2024 01:39
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Author:
Sarah Magozzi
Author:
Simon R. Thorrold
Author:
Leah Houghton
Author:
Victoria A. Bendall
Author:
Stuart Hetherington
Author:
Gonzalo Mucientes
Author:
Lisa J. Natanson
Author:
Nuno Queiroz
Author:
Miguel N. Santos
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