Thermal acclimation of tropical coral reef fishes to global heat waves
Thermal acclimation of tropical coral reef fishes to global heat waves
As climate-driven heat waves become more frequent and intense, there is increasing urgency to understand how thermally sensitive species are responding. Acute heating events lasting days to months may elicit acclimation responses to improve performance and survival. However, the coordination of acclimation responses remains largely unknown for most stenothermal species. We documented the chronology of 18 metabolic and cardiorespiratory changes that occur in the gills, blood, spleen, and muscles when tropical coral reef fishes are thermally stressed (+3.0°C above ambient). Using representative coral reef fishes (Caesio cuning and Cheilodipterus quinquelineatus) separated by >100 million years of evolution and with stark differences in major life-history characteristics (i.e. lifespan, habitat use, mobility, etc.), we show that exposure duration illicited coordinated responses in 13 tissue and organ systems over 5 weeks. The onset and duration of biomarker responses differed between species, with C. cuning – an active, mobile species – initiating acclimation responses to unavoidable thermal stress within the first week of heat exposure; conversely, C. quinquelineatus – a sessile, territorial species – exhibited comparatively reduced acclimation responses that were delayed through time. Seven biomarkers, including red muscle citrate synthase and lactate dehydrogenase activities, blood glucose and hemoglobin concentrations, spleen somatic index, and gill lamellar perimeter and width, proved critical in evaluating acclimation progression and completion, as these provided consistent evaluation of thermal responses across species.
Johansen, Jacob L.
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Nadler, Lauren E.
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Habary, Adam
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Bowden, Alyssa J.
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Rummer, Jodie
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26 January 2021
Johansen, Jacob L.
48aa2c7d-5ed0-4f10-af6f-39032ca1f70d
Nadler, Lauren E.
1d1f8e6a-e951-41f5-888c-cfcb4b4b19dc
Habary, Adam
5ae67cee-a35d-4535-8d48-ce911f316b5b
Bowden, Alyssa J.
cc830314-9ed6-4309-8a10-813f012591f4
Rummer, Jodie
79961152-bfd4-4318-b49b-ab015b57e26c
Johansen, Jacob L., Nadler, Lauren E., Habary, Adam, Bowden, Alyssa J. and Rummer, Jodie
(2021)
Thermal acclimation of tropical coral reef fishes to global heat waves.
eLife.
(doi:10.7554/eLife.59162).
Abstract
As climate-driven heat waves become more frequent and intense, there is increasing urgency to understand how thermally sensitive species are responding. Acute heating events lasting days to months may elicit acclimation responses to improve performance and survival. However, the coordination of acclimation responses remains largely unknown for most stenothermal species. We documented the chronology of 18 metabolic and cardiorespiratory changes that occur in the gills, blood, spleen, and muscles when tropical coral reef fishes are thermally stressed (+3.0°C above ambient). Using representative coral reef fishes (Caesio cuning and Cheilodipterus quinquelineatus) separated by >100 million years of evolution and with stark differences in major life-history characteristics (i.e. lifespan, habitat use, mobility, etc.), we show that exposure duration illicited coordinated responses in 13 tissue and organ systems over 5 weeks. The onset and duration of biomarker responses differed between species, with C. cuning – an active, mobile species – initiating acclimation responses to unavoidable thermal stress within the first week of heat exposure; conversely, C. quinquelineatus – a sessile, territorial species – exhibited comparatively reduced acclimation responses that were delayed through time. Seven biomarkers, including red muscle citrate synthase and lactate dehydrogenase activities, blood glucose and hemoglobin concentrations, spleen somatic index, and gill lamellar perimeter and width, proved critical in evaluating acclimation progression and completion, as these provided consistent evaluation of thermal responses across species.
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elife-59162-v1
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Accepted/In Press date: 5 January 2021
Published date: 26 January 2021
Identifiers
Local EPrints ID: 471657
URI: http://eprints.soton.ac.uk/id/eprint/471657
ISSN: 2050-084X
PURE UUID: edecbb68-8720-473c-8f83-7d09cd1b4e13
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Date deposited: 15 Nov 2022 18:21
Last modified: 17 Mar 2024 04:16
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Author:
Jacob L. Johansen
Author:
Lauren E. Nadler
Author:
Adam Habary
Author:
Alyssa J. Bowden
Author:
Jodie Rummer
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