The combined role of near-bed currents and sub-seafloor processes in the transport and pervasive burial of microplastics in submarine canyons
The combined role of near-bed currents and sub-seafloor processes in the transport and pervasive burial of microplastics in submarine canyons
Submarine canyons are important conduits for microplastic transport to the deep sea, but the processes involved in that transport and how faithfully seafloor deposits record trends in pollution remain unclear. We use sediment push cores for microplastic and sediment grain-size analysis from two transects across the Whittard Canyon, UK, to investigate the roles of near-bed flows and sub-seafloor processes in the transport and burial of microplastics and semi-synthetic microfibres. Microplastic and microfibre pollution is pervasive across the canyon at both transects, from the thalweg and from 500 m higher on the flanks, despite turbidity currents being confined to the canyon thalweg. We calculate sediment accumulation rates from 210Pb dating and show that microplastic concentrations remain similar at sediment depths down to 10 cm. Throughout the Whittard Canyon there is an observed uniformity in the gradual decline in microfibre concentration with sediment depth, despite the variable sample locations and marked variations in sediment accumulation rates. Furthermore, the huge global increase in plastic production rates over time is not recorded, and microplastics are present in sediments that predate the mass production of plastic. The interaction of turbidity currents, deep tidally driven currents and sub-seafloor processes affects microfibre burial processes in the deep sea and shreds any potential signal that microplastics may provide as indicators of historical plastic production rates; complicating the use of microplastics as fully reliable markers of Anthropocene onset.
Keavney, Ed
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Kane, Ian A.
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Clare, Michael A.
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Hodgson, David M.
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Huvenne, Veerle A.I.
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Sumner, Esther J.
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Peakall, Jeff
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Mienis, Furu
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Kranenburg, Jonathon
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1 July 2025
Keavney, Ed
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Kane, Ian A.
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Clare, Michael A.
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Hodgson, David M.
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Huvenne, Veerle A.I.
f22be3e2-708c-491b-b985-a438470fa053
Sumner, Esther J.
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Peakall, Jeff
7d96abd2-5db3-4bae-b8cd-ac86574e19cc
Mienis, Furu
2e7bcdec-7e32-4b9d-85a5-6a2bfcf6bc2c
Kranenburg, Jonathon
98221192-91d1-42fd-bd42-f9dbbae33979
Keavney, Ed, Kane, Ian A., Clare, Michael A., Hodgson, David M., Huvenne, Veerle A.I., Sumner, Esther J., Peakall, Jeff, Mienis, Furu and Kranenburg, Jonathon
(2025)
The combined role of near-bed currents and sub-seafloor processes in the transport and pervasive burial of microplastics in submarine canyons.
Journal of the Geological Society, 182 (5), [jgs2024-228].
(doi:10.1144/jgs2024-228).
Abstract
Submarine canyons are important conduits for microplastic transport to the deep sea, but the processes involved in that transport and how faithfully seafloor deposits record trends in pollution remain unclear. We use sediment push cores for microplastic and sediment grain-size analysis from two transects across the Whittard Canyon, UK, to investigate the roles of near-bed flows and sub-seafloor processes in the transport and burial of microplastics and semi-synthetic microfibres. Microplastic and microfibre pollution is pervasive across the canyon at both transects, from the thalweg and from 500 m higher on the flanks, despite turbidity currents being confined to the canyon thalweg. We calculate sediment accumulation rates from 210Pb dating and show that microplastic concentrations remain similar at sediment depths down to 10 cm. Throughout the Whittard Canyon there is an observed uniformity in the gradual decline in microfibre concentration with sediment depth, despite the variable sample locations and marked variations in sediment accumulation rates. Furthermore, the huge global increase in plastic production rates over time is not recorded, and microplastics are present in sediments that predate the mass production of plastic. The interaction of turbidity currents, deep tidally driven currents and sub-seafloor processes affects microfibre burial processes in the deep sea and shreds any potential signal that microplastics may provide as indicators of historical plastic production rates; complicating the use of microplastics as fully reliable markers of Anthropocene onset.
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Keavney et al 2025
- Accepted Manuscript
Text
jgs2024-228
- Version of Record
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Accepted/In Press date: 1 May 2025
e-pub ahead of print date: 12 May 2025
Published date: 1 July 2025
Identifiers
Local EPrints ID: 502731
URI: http://eprints.soton.ac.uk/id/eprint/502731
ISSN: 0016-7649
PURE UUID: ec373063-50ef-405d-9790-2f6eaade5068
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Date deposited: 07 Jul 2025 16:46
Last modified: 11 Sep 2025 02:23
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Contributors
Author:
Ed Keavney
Author:
Ian A. Kane
Author:
Michael A. Clare
Author:
David M. Hodgson
Author:
Veerle A.I. Huvenne
Author:
Jeff Peakall
Author:
Furu Mienis
Author:
Jonathon Kranenburg
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