Toward a better understanding of fish-based contribution to ocean carbon flux
Toward a better understanding of fish-based contribution to ocean carbon flux
Fishes are the dominant vertebrates in the ocean, yet we know little of their contribution to carbon export flux at regional to global scales. We synthesize the existing information on fish-based carbon flux in coastal and pelagic waters, identify gaps and challenges in measuring this flux and approaches to address them, and recommend research priorities. Based on our synthesis of passive (fecal pellet sinking) and active (migratory) flux of fishes, we estimated that fishes contribute an average (± standard deviation) of about 16.1% (± 13%) to total carbon flux out of the euphotic zone. Using the mean value of model-generated global carbon flux estimates, this equates to an annual flux of 1.5 ± 1.2 Pg C yr−1. High variability in estimations of the fish-based contribution to total carbon flux among previous field studies and reported here highlight significant methodological variations and observational gaps in our present knowledge. Community-adopted methodological standards, improved and more frequent measurements of biomass and passive and active fluxes of fishes, and stronger linkages between observations and models will decrease uncertainty, increase our confidence in the estimation of fish-based carbon flux, and enable identification of controlling factors to account for spatial and temporal variability. Better constraints on this key component of the biological pump will provide a baseline for understanding how ongoing climate change and harvest will affect the role fishes play in carbon flux.
1639-1664
Trueman, Clive
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Saba, Grace K.
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Burd, A.B.
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Dunne, J.P.
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Hernández-León, Santiago
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Martin, Angela H.
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Rose, Kenneth
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Salisbury, Joe
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Steinberg, D.K.
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Wilson, Rod W.
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Wilson, Stephanie
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2021
Trueman, Clive
d00d3bd6-a47b-4d47-89ae-841c3d506205
Saba, Grace K.
d538f2d3-7ede-4fcd-a176-75e48b3ce0bd
Burd, A.B.
38684d45-a2ff-44e7-b4ff-7bf25b77a920
Dunne, J.P.
8ccd3d76-7ce1-41de-b8aa-c4ed36ab576e
Hernández-León, Santiago
85cd3d5f-7225-4869-946b-24068e67e87e
Martin, Angela H.
424ac7b5-4e3d-4157-aeeb-0408f0c6dede
Rose, Kenneth
c10a4173-5ce4-4982-8b85-7cb2cf4660a4
Salisbury, Joe
8d6ecfb2-27ca-428e-96dd-e1bb8229b140
Steinberg, D.K.
a13f5f83-79e6-4982-ae05-49c8fd563595
Wilson, Rod W.
34791b03-c705-4911-831a-75e88679dcfb
Wilson, Stephanie
4a105e8e-1cb7-435a-b4c2-3a60dad05d8a
Trueman, Clive, Saba, Grace K., Burd, A.B., Dunne, J.P., Hernández-León, Santiago, Martin, Angela H., Rose, Kenneth, Salisbury, Joe, Steinberg, D.K., Wilson, Rod W. and Wilson, Stephanie
(2021)
Toward a better understanding of fish-based contribution to ocean carbon flux.
Limnology and Oceanography, 66 (1639-1664), .
(doi:10.1002/lno.11709).
Abstract
Fishes are the dominant vertebrates in the ocean, yet we know little of their contribution to carbon export flux at regional to global scales. We synthesize the existing information on fish-based carbon flux in coastal and pelagic waters, identify gaps and challenges in measuring this flux and approaches to address them, and recommend research priorities. Based on our synthesis of passive (fecal pellet sinking) and active (migratory) flux of fishes, we estimated that fishes contribute an average (± standard deviation) of about 16.1% (± 13%) to total carbon flux out of the euphotic zone. Using the mean value of model-generated global carbon flux estimates, this equates to an annual flux of 1.5 ± 1.2 Pg C yr−1. High variability in estimations of the fish-based contribution to total carbon flux among previous field studies and reported here highlight significant methodological variations and observational gaps in our present knowledge. Community-adopted methodological standards, improved and more frequent measurements of biomass and passive and active fluxes of fishes, and stronger linkages between observations and models will decrease uncertainty, increase our confidence in the estimation of fish-based carbon flux, and enable identification of controlling factors to account for spatial and temporal variability. Better constraints on this key component of the biological pump will provide a baseline for understanding how ongoing climate change and harvest will affect the role fishes play in carbon flux.
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Limnology Oceanography - 2021 - Saba - Toward a better understanding of fish‐based contribution to ocean carbon flux
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Published date: 2021
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Local EPrints ID: 471347
URI: http://eprints.soton.ac.uk/id/eprint/471347
ISSN: 0024-3590
PURE UUID: edff8650-3702-4c77-83cd-181346559624
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Date deposited: 03 Nov 2022 17:57
Last modified: 17 Mar 2024 02:58
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Contributors
Author:
Grace K. Saba
Author:
A.B. Burd
Author:
J.P. Dunne
Author:
Santiago Hernández-León
Author:
Angela H. Martin
Author:
Kenneth Rose
Author:
Joe Salisbury
Author:
D.K. Steinberg
Author:
Rod W. Wilson
Author:
Stephanie Wilson
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