Morphology, age and sediment dynamics of the upper headwall of the Sahara Slide Complex, Northwest Africa: evidence for a large Late Holocene failure
Morphology, age and sediment dynamics of the upper headwall of the Sahara Slide Complex, Northwest Africa: evidence for a large Late Holocene failure
The Sahara Slide Complex in Northwest Africa is a giant submarine landslide with an estimated run-out length of ~ 900 km. We present newly acquired high-resolution multibeam bathymetry, sidescan sonar, and sub-bottom profiler data to investigate seafloor morphology, sediment dynamics and the timing of formation of the upper headwall area of the Sahara Slide Complex. The data reveal a ~ 35-km wide upper headwall,opening towards the northwest, with multiple slide scarps, glide planes, plateaus, lobes, slide blocks and slide debris. The slide scarps were generated by retrogressive failure events associated with two types of mass movements: translational sliding and gravitational spreading. As a result of this evolution, three different glide planes (GP I, II, and III) can be distinguished approximately 100 m, 50 m and 20 m below the seafloor. These glide planes are widespread and suggest failure along pronounced, continuous weak layers. Our data suggest an age of only about 2 ka for the failure of the upper headwall area, a date much younger than that derived for landslide deposits on the lower reaches of the Sahara Slide Complex, which are dated at 50–60 ka. The young age of the failure contradicts the postulate of a stable slope offshore Northwest Africa during sea-level highstands. Such an observation suggests that submarine-landslide risk along the continental margin of Northwest Africa should be reassessed based on a robust dating of proximal and distal slope failures.
109-123
Li, Wei
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Alves, Tiago M.
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Urlaub, Morelia
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Georgiopoulou, Aggeliki
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Klaucke, Ingo
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Wynn, Russell B.
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Gross, Felix
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Meyer, Mathias
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Repschläger, Janne
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Berndt, Christian
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Krastel, Sebastian
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1 November 2017
Li, Wei
ab5e097b-b347-4edf-95dd-2b245edf0f81
Alves, Tiago M.
758a8470-5adc-4913-b210-2059495a8e5c
Urlaub, Morelia
7dd888d5-083c-490d-9fe5-1d13bd7f08e7
Georgiopoulou, Aggeliki
1cc90c8c-49e7-4be1-9117-851793dcfe57
Klaucke, Ingo
d31ff73b-52b1-4667-bdf6-49b79a2367b0
Wynn, Russell B.
72ccd765-9240-45f8-9951-4552b497475a
Gross, Felix
272ac70d-04d5-43ba-8d97-4a4f8f86a8fd
Meyer, Mathias
d6e858b6-1aa6-4732-84b9-917a5b00f3a7
Repschläger, Janne
0ceb7a68-6cdb-4759-b8b3-93a962c10622
Berndt, Christian
29364362-5d52-4b1b-82b9-e799fcc4d7ed
Krastel, Sebastian
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Li, Wei, Alves, Tiago M., Urlaub, Morelia, Georgiopoulou, Aggeliki, Klaucke, Ingo, Wynn, Russell B., Gross, Felix, Meyer, Mathias, Repschläger, Janne, Berndt, Christian and Krastel, Sebastian
(2017)
Morphology, age and sediment dynamics of the upper headwall of the Sahara Slide Complex, Northwest Africa: evidence for a large Late Holocene failure.
Marine Geology, 393, .
(doi:10.1016/j.margeo.2016.11.013).
Abstract
The Sahara Slide Complex in Northwest Africa is a giant submarine landslide with an estimated run-out length of ~ 900 km. We present newly acquired high-resolution multibeam bathymetry, sidescan sonar, and sub-bottom profiler data to investigate seafloor morphology, sediment dynamics and the timing of formation of the upper headwall area of the Sahara Slide Complex. The data reveal a ~ 35-km wide upper headwall,opening towards the northwest, with multiple slide scarps, glide planes, plateaus, lobes, slide blocks and slide debris. The slide scarps were generated by retrogressive failure events associated with two types of mass movements: translational sliding and gravitational spreading. As a result of this evolution, three different glide planes (GP I, II, and III) can be distinguished approximately 100 m, 50 m and 20 m below the seafloor. These glide planes are widespread and suggest failure along pronounced, continuous weak layers. Our data suggest an age of only about 2 ka for the failure of the upper headwall area, a date much younger than that derived for landslide deposits on the lower reaches of the Sahara Slide Complex, which are dated at 50–60 ka. The young age of the failure contradicts the postulate of a stable slope offshore Northwest Africa during sea-level highstands. Such an observation suggests that submarine-landslide risk along the continental margin of Northwest Africa should be reassessed based on a robust dating of proximal and distal slope failures.
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Accepted/In Press date: 26 November 2016
Published date: 1 November 2017
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Local EPrints ID: 416247
URI: http://eprints.soton.ac.uk/id/eprint/416247
ISSN: 0025-3227
PURE UUID: 16a0feea-f97c-4206-a67e-b554389f526b
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Date deposited: 11 Dec 2017 17:30
Last modified: 15 Mar 2024 17:22
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Author:
Wei Li
Author:
Tiago M. Alves
Author:
Morelia Urlaub
Author:
Aggeliki Georgiopoulou
Author:
Ingo Klaucke
Author:
Russell B. Wynn
Author:
Felix Gross
Author:
Mathias Meyer
Author:
Janne Repschläger
Author:
Christian Berndt
Author:
Sebastian Krastel
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