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Carbon on the northwest European shelf:: Contemporary budget and future influences

Carbon on the northwest European shelf:: Contemporary budget and future influences
Carbon on the northwest European shelf:: Contemporary budget and future influences
A carbon budget for the northwest European continental shelf seas (NWES) was synthesized using available estimates for coastal, pelagic and benthic carbon stocks and flows. Key uncertainties were identified and the effect of future impacts on the carbon budget were assessed. The water of the shelf seas contains between 210 and 230 Tmol of carbon and absorbs between 1.3 and 3.3 Tmol from the atmosphere annually. Off-shelf transport and burial in the sediments account for 60–100 and 0–40% of carbon outputs from the NWES, respectively. Both of these fluxes remain poorly constrained by observations and resolving their magnitudes and relative importance is a key research priority. Pelagic and benthic carbon stocks are dominated by inorganic carbon. Shelf sediments contain the largest stock of carbon, with between 520 and 1600 Tmol stored in the top 0.1 m of the sea bed. Coastal habitats such as salt marshes and mud flats contain large amounts of carbon per unit area but their total carbon stocks are small compared to pelagic and benthic stocks due to their smaller spatial extent. The large pelagic stock of carbon will continue to increase due to the rising concentration of atmospheric CO2, with associated pH decrease. Pelagic carbon stocks and flows are also likely to be significantly affected by increasing acidity and temperature, and circulation changes but the net impact is uncertain. Benthic carbon stocks will be affected by increasing temperature and acidity, and decreasing oxygen concentrations, although the net impact of these interrelated changes on carbon stocks is uncertain and a major knowledge gap. The impact of bottom trawling on benthic carbon stocks is unique amongst the impacts we consider in that it is widespread and also directly manageable, although its net effect on the carbon budget is uncertain. Coastal habitats are vulnerable to sea level rise and are strongly impacted by management decisions. Local, national and regional actions have the potential to protect or enhance carbon storage, but ultimately global governance, via controls on emissions, has the greatest potential to influence the long-term fate of carbon stocks in the northwestern European continental shelf.
biogeochemistry, budget, carbon, coastal, impacts, marine, shelf
2296-7745
Legge, Oliver
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Johnson, Martin
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Hicks, Natalie
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Jickells, Tim
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Diesing, Markus
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Aldridge, John
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Andrews, Julian
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Artioli, Yuri
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Bakker, Dorothee C. E.
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Burrows, Michael T.
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Carr, Nealy
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Cripps, Gemma
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Felgate, Stacey L.
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Fernand, Liam
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Greenwood, Naomi
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Hartman, Susan
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Kröger, Silke
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Lessin, Gennadi
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Mahaffey, Claire
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Mayor, Daniel J.
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Parker, Ruth
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Queirós, Ana M.
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Shutler, Jamie D.
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Silva, Tiago
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Stahl, Henrik
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Tinker, Jonathan
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Underwood, Graham J. C.
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Van Der Molen, Johan
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Wakelin, Sarah
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Weston, Keith
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Williamson, Phillip
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Legge, Oliver
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Johnson, Martin
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Hicks, Natalie
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Jickells, Tim
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Diesing, Markus
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Aldridge, John
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Andrews, Julian
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Artioli, Yuri
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Burrows, Michael T.
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Carr, Nealy
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Cripps, Gemma
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Felgate, Stacey L.
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Fernand, Liam
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Greenwood, Naomi
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Hartman, Susan
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Kröger, Silke
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Lessin, Gennadi
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Mahaffey, Claire
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Mayor, Daniel J.
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Parker, Ruth
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Queirós, Ana M.
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Shutler, Jamie D.
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Silva, Tiago
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Stahl, Henrik
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Tinker, Jonathan
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Underwood, Graham J. C.
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Van Der Molen, Johan
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Wakelin, Sarah
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Weston, Keith
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Williamson, Phillip
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Legge, Oliver, Johnson, Martin, Hicks, Natalie, Jickells, Tim, Diesing, Markus, Aldridge, John, Andrews, Julian, Artioli, Yuri, Bakker, Dorothee C. E., Burrows, Michael T., Carr, Nealy, Cripps, Gemma, Felgate, Stacey L., Fernand, Liam, Greenwood, Naomi, Hartman, Susan, Kröger, Silke, Lessin, Gennadi, Mahaffey, Claire, Mayor, Daniel J., Parker, Ruth, Queirós, Ana M., Shutler, Jamie D., Silva, Tiago, Stahl, Henrik, Tinker, Jonathan, Underwood, Graham J. C., Van Der Molen, Johan, Wakelin, Sarah, Weston, Keith and Williamson, Phillip (2020) Carbon on the northwest European shelf:: Contemporary budget and future influences. Frontiers in Marine Science, 7 (143), [143]. (doi:10.3389/fmars.2020.00143).

Record type: Article

Abstract

A carbon budget for the northwest European continental shelf seas (NWES) was synthesized using available estimates for coastal, pelagic and benthic carbon stocks and flows. Key uncertainties were identified and the effect of future impacts on the carbon budget were assessed. The water of the shelf seas contains between 210 and 230 Tmol of carbon and absorbs between 1.3 and 3.3 Tmol from the atmosphere annually. Off-shelf transport and burial in the sediments account for 60–100 and 0–40% of carbon outputs from the NWES, respectively. Both of these fluxes remain poorly constrained by observations and resolving their magnitudes and relative importance is a key research priority. Pelagic and benthic carbon stocks are dominated by inorganic carbon. Shelf sediments contain the largest stock of carbon, with between 520 and 1600 Tmol stored in the top 0.1 m of the sea bed. Coastal habitats such as salt marshes and mud flats contain large amounts of carbon per unit area but their total carbon stocks are small compared to pelagic and benthic stocks due to their smaller spatial extent. The large pelagic stock of carbon will continue to increase due to the rising concentration of atmospheric CO2, with associated pH decrease. Pelagic carbon stocks and flows are also likely to be significantly affected by increasing acidity and temperature, and circulation changes but the net impact is uncertain. Benthic carbon stocks will be affected by increasing temperature and acidity, and decreasing oxygen concentrations, although the net impact of these interrelated changes on carbon stocks is uncertain and a major knowledge gap. The impact of bottom trawling on benthic carbon stocks is unique amongst the impacts we consider in that it is widespread and also directly manageable, although its net effect on the carbon budget is uncertain. Coastal habitats are vulnerable to sea level rise and are strongly impacted by management decisions. Local, national and regional actions have the potential to protect or enhance carbon storage, but ultimately global governance, via controls on emissions, has the greatest potential to influence the long-term fate of carbon stocks in the northwestern European continental shelf.

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fmars-07-00143 - Version of Record
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Accepted/In Press date: 24 February 2020
Published date: 18 March 2020
Keywords: biogeochemistry, budget, carbon, coastal, impacts, marine, shelf

Identifiers

Local EPrints ID: 439792
URI: http://eprints.soton.ac.uk/id/eprint/439792
ISSN: 2296-7745
PURE UUID: bc985560-3bd2-4699-86c7-5bcd04cd4c36

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Date deposited: 04 May 2020 16:34
Last modified: 16 Mar 2024 07:46

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Contributors

Author: Oliver Legge
Author: Martin Johnson
Author: Natalie Hicks
Author: Tim Jickells
Author: Markus Diesing
Author: John Aldridge
Author: Julian Andrews
Author: Yuri Artioli
Author: Dorothee C. E. Bakker
Author: Michael T. Burrows
Author: Nealy Carr
Author: Gemma Cripps
Author: Stacey L. Felgate
Author: Liam Fernand
Author: Naomi Greenwood
Author: Susan Hartman
Author: Silke Kröger
Author: Gennadi Lessin
Author: Claire Mahaffey
Author: Daniel J. Mayor
Author: Ruth Parker
Author: Ana M. Queirós
Author: Jamie D. Shutler
Author: Tiago Silva
Author: Henrik Stahl
Author: Jonathan Tinker
Author: Graham J. C. Underwood
Author: Johan Van Der Molen
Author: Sarah Wakelin
Author: Keith Weston
Author: Phillip Williamson

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