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Will the declining sea ice extent in the Arctic cause a reversal of net benthic-pelagic exchange directions?

Will the declining sea ice extent in the Arctic cause a reversal of net benthic-pelagic exchange directions?
Will the declining sea ice extent in the Arctic cause a reversal of net benthic-pelagic exchange directions?
In the Arctic, loss of sea ice due to climate change and the northward shift of the Polar Front are predicted to affect many ecosystem processes such as the ecologically important process of particulate and dissolved matter exchange between the seafloor and the water column. In this study, we show for the first time that a change from an ice-covered, Arctic water-dominated system to an Atlantic -dominated ice-free one is likely to reverse seafloor-water exchange directions. A north – south transect across the Barents Sea was studied over two years with differing sea ice cover conditions, recording biological, biogeochemical, hydrographic, geophysical, and oceanographic data. There was a clear difference between the direction and magnitude of key benthic-pelagic fluxes present at Atlantic-dominated environments, and those in Arctic water – dominated ones. Currently, the southern Barents Sea exhibits a net downward flux of dissolved matter and a net upward flux of particulates, while in the northern region solutes fluctuate upwards and particulates downward, making the North a more depositional region that promotes near-surface primary productivity. Broad scale assessments of net fluxes in rapidly changing ecosystems should be employed to monitor impacts of climate change and anthropogenic activities.
Arctic Ocean, Benthic-pelagic exchange, Biogeochemical cycling, Climate change, Particles, Sea ice, Solutes
0924-7963
Ruhl, Saskia
725215f8-08a4-4fb8-8284-2d6b3efd75cb
Thompson, Charlie
2a304aa6-761e-4d99-b227-cedb67129bfb
Queiros, Ana M.
ab8db559-099f-4735-a0a5-7ed1b8c7c5d3
Hopkins, Joanne E.
b31b2eba-76cc-4bad-9757-ff1de87fedb0
Henley, Sian F.
cd7c7f77-8494-46ad-98a9-08907fa6e06b
Widdicombe, Stephen
3ecf2b3e-6b3f-4f2f-86c5-baf070e8c82b
Ruhl, Saskia
725215f8-08a4-4fb8-8284-2d6b3efd75cb
Thompson, Charlie
2a304aa6-761e-4d99-b227-cedb67129bfb
Queiros, Ana M.
ab8db559-099f-4735-a0a5-7ed1b8c7c5d3
Hopkins, Joanne E.
b31b2eba-76cc-4bad-9757-ff1de87fedb0
Henley, Sian F.
cd7c7f77-8494-46ad-98a9-08907fa6e06b
Widdicombe, Stephen
3ecf2b3e-6b3f-4f2f-86c5-baf070e8c82b

Ruhl, Saskia, Thompson, Charlie, Queiros, Ana M., Hopkins, Joanne E., Henley, Sian F. and Widdicombe, Stephen (2025) Will the declining sea ice extent in the Arctic cause a reversal of net benthic-pelagic exchange directions? Journal of Marine Systems, 249, [104067]. (doi:10.1016/j.jmarsys.2025.104067).

Record type: Article

Abstract

In the Arctic, loss of sea ice due to climate change and the northward shift of the Polar Front are predicted to affect many ecosystem processes such as the ecologically important process of particulate and dissolved matter exchange between the seafloor and the water column. In this study, we show for the first time that a change from an ice-covered, Arctic water-dominated system to an Atlantic -dominated ice-free one is likely to reverse seafloor-water exchange directions. A north – south transect across the Barents Sea was studied over two years with differing sea ice cover conditions, recording biological, biogeochemical, hydrographic, geophysical, and oceanographic data. There was a clear difference between the direction and magnitude of key benthic-pelagic fluxes present at Atlantic-dominated environments, and those in Arctic water – dominated ones. Currently, the southern Barents Sea exhibits a net downward flux of dissolved matter and a net upward flux of particulates, while in the northern region solutes fluctuate upwards and particulates downward, making the North a more depositional region that promotes near-surface primary productivity. Broad scale assessments of net fluxes in rapidly changing ecosystems should be employed to monitor impacts of climate change and anthropogenic activities.

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Accepted/In Press date: 12 April 2025
e-pub ahead of print date: 29 April 2025
Published date: 8 May 2025
Keywords: Arctic Ocean, Benthic-pelagic exchange, Biogeochemical cycling, Climate change, Particles, Sea ice, Solutes

Identifiers

Local EPrints ID: 502638
URI: http://eprints.soton.ac.uk/id/eprint/502638
DOI: doi:10.1016/j.jmarsys.2025.104067
ISSN: 0924-7963
PURE UUID: 02d12c70-94d3-4588-a61a-9166751326c9
ORCID for Saskia Ruhl: ORCID iD orcid.org/0000-0002-4650-6045
ORCID for Charlie Thompson: ORCID iD orcid.org/0000-0003-1105-6838

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Date deposited: 02 Jul 2025 17:00
Last modified: 22 Aug 2025 01:46

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Contributors

Author: Saskia Ruhl ORCID iD
Author: Charlie Thompson ORCID iD
Author: Ana M. Queiros
Author: Joanne E. Hopkins
Author: Sian F. Henley
Author: Stephen Widdicombe

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