Benthic biology influences sedimentation in submarine channel bends: coupling of biology, sedimentation, and flow
Benthic biology influences sedimentation in submarine channel bends: coupling of biology, sedimentation, and flow
Submarine channels are key features for the transport of flow and nutrients into deep water. Previous studies of their morphology and channel evolution have treated these systems as abiotic, and therefore assume that physical processes are solely responsible for morphological development. Here, a unique dataset is uti-lised that includes spatial measurements around a channel bend that hosts active sediment gravity flows. The data include flow velocity and density, alongside bed grain size and channel- floor benthic macrofauna. Analysis of these parameters demonstrate that while physical processes control the broadest scale variations in sedimentation around and across the channel, benthic biology plays a criti-cal role in stabilising sediment and trapping fines. This leads to much broader mixed grain sizes than would be expected from purely abiotic sedimentation, and the maintenance of sediment beds in positions where all the sediment should be actively migrating. Given that previous work has also shown that submarine channels can be biological hotspots, then the present study suggests that benthic biology probably plays a key role in channel morphology and evolution, and that these need to be considered both in the modern and when considering examples preserved in the rock record.
159-175
Azpiroz-Zabala, M.
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Sumner, E.J.
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Cartigny, M.J.B.
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Peakall, J.
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Clare, M.A.
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Darby, S.E.
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Parsons, D.R.
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Dorrell, R.M.
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Ozsoy, E.
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Tezcan, D.
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Wynn, R.B.
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Johnson, J.
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Azpiroz-Zabala, M.
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Sumner, E.J.
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Cartigny, M.J.B.
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Peakall, J.
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Clare, M.A.
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Darby, S.E.
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Parsons, D.R.
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Dorrell, R.M.
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Ozsoy, E.
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Tezcan, D.
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Wynn, R.B.
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Johnson, J.
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Azpiroz-Zabala, M., Sumner, E.J., Cartigny, M.J.B., Peakall, J., Clare, M.A., Darby, S.E., Parsons, D.R., Dorrell, R.M., Ozsoy, E., Tezcan, D., Wynn, R.B. and Johnson, J.
(2024)
Benthic biology influences sedimentation in submarine channel bends: coupling of biology, sedimentation, and flow.
The Depositional Record, 10 (1), .
(doi:10.1002/dep2.265).
Abstract
Submarine channels are key features for the transport of flow and nutrients into deep water. Previous studies of their morphology and channel evolution have treated these systems as abiotic, and therefore assume that physical processes are solely responsible for morphological development. Here, a unique dataset is uti-lised that includes spatial measurements around a channel bend that hosts active sediment gravity flows. The data include flow velocity and density, alongside bed grain size and channel- floor benthic macrofauna. Analysis of these parameters demonstrate that while physical processes control the broadest scale variations in sedimentation around and across the channel, benthic biology plays a criti-cal role in stabilising sediment and trapping fines. This leads to much broader mixed grain sizes than would be expected from purely abiotic sedimentation, and the maintenance of sediment beds in positions where all the sediment should be actively migrating. Given that previous work has also shown that submarine channels can be biological hotspots, then the present study suggests that benthic biology probably plays a key role in channel morphology and evolution, and that these need to be considered both in the modern and when considering examples preserved in the rock record.
Text
The Depositional Record - 2024 - Azpiroz‐Zabala - Benthic biology influences sedimentation in submarine channel bends
- Version of Record
More information
Accepted/In Press date: 15 December 2023
e-pub ahead of print date: 29 January 2024
Additional Information:
Funding information:
The authors would like to thank Professor Martin Solan from the University of Southampton for his support on identification of species present in the collected samples. This project was funded by Natural Environment Research Council (NERC) grants NE/F020511/1, NE/F020120/1 and NE/F020279/1.
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Local EPrints ID: 486658
URI: http://eprints.soton.ac.uk/id/eprint/486658
PURE UUID: 3994a97e-cc9d-44da-8de9-94be7beba7be
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Date deposited: 31 Jan 2024 17:30
Last modified: 18 Mar 2024 02:48
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Contributors
Author:
M. Azpiroz-Zabala
Author:
M.J.B. Cartigny
Author:
J. Peakall
Author:
M.A. Clare
Author:
D.R. Parsons
Author:
R.M. Dorrell
Author:
E. Ozsoy
Author:
D. Tezcan
Author:
R.B. Wynn
Author:
J. Johnson
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