Thermal sensitivity of field metabolic rate predicts differential futures for bluefin tuna juveniles across the Atlantic Ocean
Thermal sensitivity of field metabolic rate predicts differential futures for bluefin tuna juveniles across the Atlantic Ocean
Changing environmental temperatures impact the physiological performance of fishes, and consequently their distributions. A mechanistic understanding of the linkages between experienced temperature and the physiological response expressed within complex natural environments is often lacking, hampering efforts to project impacts especially when future conditions exceed previous experience. In this study, we use natural chemical tracers to determine the individual experienced temperatures and expressed field metabolic rates of Atlantic bluefin tuna (Thunnus thynnus) during their first year of life. Our findings reveal that the tuna exhibit a preference for temperatures 2–4 °C lower than those that maximise field metabolic rates, thereby avoiding temperatures warm enough to limit metabolic performance. Based on current IPCC projections, our results indicate that historically-important spawning and nursery grounds for bluefin tuna will become thermally limiting due to warming within the next 50 years. However, limiting global warming to below 2 °C would preserve habitat conditions in the Mediterranean Sea for this species. Our approach, which is based on field observations, provides predictions of animal performance and behaviour that are not constrained by laboratory conditions, and can be extended to any marine teleost species for which otoliths are available.
Trueman, Clive N.
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Artetxe-Arrate, Iraide
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Kerr, Lisa A.
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Meijers, Andrew J.S.
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Rooker, Jay R.
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Sivankutty, Rahul
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Arrizabalaga, Haritz
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Belmonte, Antonio
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Deguara, Simeon
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Goñi, Nicolas
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Rodriguez-Marin, Enrique
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Dettman, David L.
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Santos, Miguel Neves
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Karakulak, F. Saadet
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Tinti, Fausto
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Tsukahara, Yohei
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Fraile, Igaratza
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Trueman, Clive N.
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Artetxe-Arrate, Iraide
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Kerr, Lisa A.
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Meijers, Andrew J.S.
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Rooker, Jay R.
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Sivankutty, Rahul
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Arrizabalaga, Haritz
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Belmonte, Antonio
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Deguara, Simeon
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Goñi, Nicolas
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Rodriguez-Marin, Enrique
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Dettman, David L.
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Santos, Miguel Neves
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Karakulak, F. Saadet
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Tinti, Fausto
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Tsukahara, Yohei
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Fraile, Igaratza
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Trueman, Clive N., Artetxe-Arrate, Iraide, Kerr, Lisa A., Meijers, Andrew J.S., Rooker, Jay R., Sivankutty, Rahul, Arrizabalaga, Haritz, Belmonte, Antonio, Deguara, Simeon, Goñi, Nicolas, Rodriguez-Marin, Enrique, Dettman, David L., Santos, Miguel Neves, Karakulak, F. Saadet, Tinti, Fausto, Tsukahara, Yohei and Fraile, Igaratza
(2023)
Thermal sensitivity of field metabolic rate predicts differential futures for bluefin tuna juveniles across the Atlantic Ocean.
Nature Communications, 14, [7379].
(doi:10.1038/s41467-023-41930-2).
Abstract
Changing environmental temperatures impact the physiological performance of fishes, and consequently their distributions. A mechanistic understanding of the linkages between experienced temperature and the physiological response expressed within complex natural environments is often lacking, hampering efforts to project impacts especially when future conditions exceed previous experience. In this study, we use natural chemical tracers to determine the individual experienced temperatures and expressed field metabolic rates of Atlantic bluefin tuna (Thunnus thynnus) during their first year of life. Our findings reveal that the tuna exhibit a preference for temperatures 2–4 °C lower than those that maximise field metabolic rates, thereby avoiding temperatures warm enough to limit metabolic performance. Based on current IPCC projections, our results indicate that historically-important spawning and nursery grounds for bluefin tuna will become thermally limiting due to warming within the next 50 years. However, limiting global warming to below 2 °C would preserve habitat conditions in the Mediterranean Sea for this species. Our approach, which is based on field observations, provides predictions of animal performance and behaviour that are not constrained by laboratory conditions, and can be extended to any marine teleost species for which otoliths are available.
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s41467-023-41930-2
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Accepted/In Press date: 25 September 2023
e-pub ahead of print date: 27 November 2023
Identifiers
Local EPrints ID: 491038
URI: http://eprints.soton.ac.uk/id/eprint/491038
ISSN: 2041-1723
PURE UUID: b09281e0-f26e-4a21-b8eb-d283b9591093
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Date deposited: 11 Jun 2024 16:43
Last modified: 15 Jun 2024 01:39
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Contributors
Author:
Iraide Artetxe-Arrate
Author:
Lisa A. Kerr
Author:
Andrew J.S. Meijers
Author:
Jay R. Rooker
Author:
Rahul Sivankutty
Author:
Haritz Arrizabalaga
Author:
Antonio Belmonte
Author:
Simeon Deguara
Author:
Nicolas Goñi
Author:
Enrique Rodriguez-Marin
Author:
David L. Dettman
Author:
Miguel Neves Santos
Author:
F. Saadet Karakulak
Author:
Fausto Tinti
Author:
Yohei Tsukahara
Author:
Igaratza Fraile
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