Tracing the geographic origin of Atlantic cod products using stable isotope analysis
Tracing the geographic origin of Atlantic cod products using stable isotope analysis
Rationale: Increasing demand for fish and seafood means that the traceability of marine products is becoming ever more important for consumers, producers and regulators. Highly complex and globalised supply networks create challenges for verifying a stated catch region. Atlantic cod is one of the most commercially important species in the northeast Atlantic. Several regional fisheries supply cod into the trade network, of which some are at greater risk of overexploitation than others. Tools allowing retrospective testing of spatial origin would significantly assist sustainable harvesting of fish, reducing incentives for illegal fishing and fraud. Methods: Here, we investigate whether stable isotope ratios of carbon, nitrogen and sulphur can be used to retrospectively identify the catch region of Atlantic cod (Gadus morhua). We measured the isotopic composition of muscle tissue from 377 cod from 10 catch regions across the northeast Atlantic and then applied three different assignment methods to classify cod by region of most likely origin. The assignment method developed was subsequently tested using independently sourced, known-origin samples. Results: Individual cod could be traced back to their true origin with an average assignment accuracy of 70–79% and over 90% accuracy for certain regions. Assignment success rates comparable to those using genetic techniques were achieved when assigning among restricted and pre-selected regions. However, assignment accuracy to the fishery region estimated from independent samples across the whole geographic range of cod averaged ~25% overall, highlighting the need for careful application of isotope-based approaches. Conclusion: Stable isotope techniques can provide effective tools to test for origin in Atlantic cod, but not all catch regions are isotopically distinct. Stable isotopes could be combined with genetic techniques to result in higher assignment accuracy than could be achieved using either method independently. Assignment potential can be estimated from reference datasets, but estimates of realistic assignment accuracy require independently collected data.
Wilson, Juliet S.E.
5174d0f6-dbbf-4e50-b5b5-2a82d771bd6d
McGill, Rona A.R.
027e4906-0c76-491e-a403-5f6388218fee
Steingrund, Petur
c2cd54f8-8cbc-4a7e-b161-10fcaffaf8c7
Trueman, Clive N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Wilson, Juliet S.E.
5174d0f6-dbbf-4e50-b5b5-2a82d771bd6d
McGill, Rona A.R.
027e4906-0c76-491e-a403-5f6388218fee
Steingrund, Petur
c2cd54f8-8cbc-4a7e-b161-10fcaffaf8c7
Trueman, Clive N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Wilson, Juliet S.E., McGill, Rona A.R., Steingrund, Petur and Trueman, Clive N.
(2024)
Tracing the geographic origin of Atlantic cod products using stable isotope analysis.
Rapid Communications in Mass Spectrometry, [e9861].
(doi:10.1002/rcm.9861).
Abstract
Rationale: Increasing demand for fish and seafood means that the traceability of marine products is becoming ever more important for consumers, producers and regulators. Highly complex and globalised supply networks create challenges for verifying a stated catch region. Atlantic cod is one of the most commercially important species in the northeast Atlantic. Several regional fisheries supply cod into the trade network, of which some are at greater risk of overexploitation than others. Tools allowing retrospective testing of spatial origin would significantly assist sustainable harvesting of fish, reducing incentives for illegal fishing and fraud. Methods: Here, we investigate whether stable isotope ratios of carbon, nitrogen and sulphur can be used to retrospectively identify the catch region of Atlantic cod (Gadus morhua). We measured the isotopic composition of muscle tissue from 377 cod from 10 catch regions across the northeast Atlantic and then applied three different assignment methods to classify cod by region of most likely origin. The assignment method developed was subsequently tested using independently sourced, known-origin samples. Results: Individual cod could be traced back to their true origin with an average assignment accuracy of 70–79% and over 90% accuracy for certain regions. Assignment success rates comparable to those using genetic techniques were achieved when assigning among restricted and pre-selected regions. However, assignment accuracy to the fishery region estimated from independent samples across the whole geographic range of cod averaged ~25% overall, highlighting the need for careful application of isotope-based approaches. Conclusion: Stable isotope techniques can provide effective tools to test for origin in Atlantic cod, but not all catch regions are isotopically distinct. Stable isotopes could be combined with genetic techniques to result in higher assignment accuracy than could be achieved using either method independently. Assignment potential can be estimated from reference datasets, but estimates of realistic assignment accuracy require independently collected data.
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Rapid Comm Mass Spectrometry - 2024 - Wilson - Tracing the geographic origin of Atlantic cod products using stable isotope
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Accepted/In Press date: 15 June 2024
e-pub ahead of print date: 22 July 2024
Identifiers
Local EPrints ID: 499498
URI: http://eprints.soton.ac.uk/id/eprint/499498
ISSN: 0951-4198
PURE UUID: 261ed049-b05d-4a2a-9493-5c9930466031
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Date deposited: 21 Mar 2025 17:50
Last modified: 22 Aug 2025 01:51
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Author:
Rona A.R. McGill
Author:
Petur Steingrund
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