The flows that left no trace: Very large-volume turbidity currents that bypassed sediment through submarine channels without eroding the sea floor
The flows that left no trace: Very large-volume turbidity currents that bypassed sediment through submarine channels without eroding the sea floor
Turbidity currents are an important process for transporting sediment from the continental shelf to the deep ocean. Submarine channels are often conduits for these flows, exerting a first order control on turbidity current flow processes and resulting deposit geometries. Here we present a detailed examination of the Madeira Channel System, offshore northwest Africa, using shallow seismic profiles, swath bathymetric data and a suite of sediment cores. This shallow (<20 m deep) channel system is unusual because it was fed infrequently, on average once every 10, 000 years, by very large volume (>100 km3) turbidity currents. It therefore differs markedly from most submarine channels which have well developed levees, formed by much more frequent flows. A northern and a southern channel comprise the Madeira Channel System, and channel initiation is associated with subtle but distinct increases in sea-floor gradient from 0.02° to 0.06°. Most of the turbidity currents passing through the northern channel deposited laterally extensive (>5 km), thin (5–10 cm) ripple cross-laminated sands along the channel margins, but deposited no sand or mud in the channel axis. Moreover, these flows failed to erode sediment in the channel axis, despite being powerful enough to efficiently bypass sediment in very large volumes. The flows were able to reach an equilibrium state (autosuspension) whereby they efficiently bypassed their sediment loads down slope, leaving no trace of their passing.
Turbidity currents, Submarine channels, Bypass, Agadir basin, Moroccan Turbidite system, Turbidites, Sea-floor gradient, Madeira Channels, Sediment cores
186-205
Stevenson, Christopher J.
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Talling, Peter J.
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Wynn, Russell B.
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Masson, Douglas G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
Hunt, James E.
eb7fbfb5-b1c9-4436-b7f6-18c8d13b7a0b
Frenz, Michael
8c9cae60-8127-447e-91fb-94a442444f75
Akhmetzhanhov, Andrey
758ad7d3-0fb1-4245-ae65-5416f8839b4a
Cronin, Bryan T.
1a3a739f-1423-400d-9fec-d3e4136f5c16
2013
Stevenson, Christopher J.
4dd8706f-1d26-437c-95d0-6e131a5ec078
Talling, Peter J.
1cbac5ec-a9f8-4868-94fe-6203f30b47cf
Wynn, Russell B.
72ccd765-9240-45f8-9951-4552b497475a
Masson, Douglas G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
Hunt, James E.
eb7fbfb5-b1c9-4436-b7f6-18c8d13b7a0b
Frenz, Michael
8c9cae60-8127-447e-91fb-94a442444f75
Akhmetzhanhov, Andrey
758ad7d3-0fb1-4245-ae65-5416f8839b4a
Cronin, Bryan T.
1a3a739f-1423-400d-9fec-d3e4136f5c16
Stevenson, Christopher J., Talling, Peter J., Wynn, Russell B., Masson, Douglas G., Hunt, James E., Frenz, Michael, Akhmetzhanhov, Andrey and Cronin, Bryan T.
(2013)
The flows that left no trace: Very large-volume turbidity currents that bypassed sediment through submarine channels without eroding the sea floor.
Marine and Petroleum Geology, 41, .
(doi:10.1016/j.marpetgeo.2012.02.008).
Abstract
Turbidity currents are an important process for transporting sediment from the continental shelf to the deep ocean. Submarine channels are often conduits for these flows, exerting a first order control on turbidity current flow processes and resulting deposit geometries. Here we present a detailed examination of the Madeira Channel System, offshore northwest Africa, using shallow seismic profiles, swath bathymetric data and a suite of sediment cores. This shallow (<20 m deep) channel system is unusual because it was fed infrequently, on average once every 10, 000 years, by very large volume (>100 km3) turbidity currents. It therefore differs markedly from most submarine channels which have well developed levees, formed by much more frequent flows. A northern and a southern channel comprise the Madeira Channel System, and channel initiation is associated with subtle but distinct increases in sea-floor gradient from 0.02° to 0.06°. Most of the turbidity currents passing through the northern channel deposited laterally extensive (>5 km), thin (5–10 cm) ripple cross-laminated sands along the channel margins, but deposited no sand or mud in the channel axis. Moreover, these flows failed to erode sediment in the channel axis, despite being powerful enough to efficiently bypass sediment in very large volumes. The flows were able to reach an equilibrium state (autosuspension) whereby they efficiently bypassed their sediment loads down slope, leaving no trace of their passing.
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Published date: 2013
Keywords:
Turbidity currents, Submarine channels, Bypass, Agadir basin, Moroccan Turbidite system, Turbidites, Sea-floor gradient, Madeira Channels, Sediment cores
Organisations:
Marine Geoscience
Identifiers
Local EPrints ID: 350149
URI: http://eprints.soton.ac.uk/id/eprint/350149
ISSN: 0264-8172
PURE UUID: 59d4819c-9cf2-400c-a79e-1a9dc58666ec
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Date deposited: 18 Mar 2013 17:03
Last modified: 14 Mar 2024 13:21
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Contributors
Author:
Christopher J. Stevenson
Author:
Peter J. Talling
Author:
Russell B. Wynn
Author:
Douglas G. Masson
Author:
James E. Hunt
Author:
Michael Frenz
Author:
Andrey Akhmetzhanhov
Author:
Bryan T. Cronin
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