Sediment transport and turbidite architecture in the submarine Dakar Canyon off Senegal, NW-Africa
Sediment transport and turbidite architecture in the submarine Dakar Canyon off Senegal, NW-Africa
The submarine Dakar Canyon incises the continental margin at the transition of the hyperarid Sahara to the semiarid Sahel Zone, and acts as an effective pathway for gravity-driven sediment transport. Four gravity cores recovered directly from the canyon axis were investigated in order to reconstruct the sedimentation processes in the Dakar Canyon during the Late Quaternary. In addition, a hemipelagic record from the northern levee of the canyon was analysed for monitoring background sediment supply, which is dominated by dust input in the area. Coarse terrigenous silt size data and high Ti/Ca ratios reflect overall increased higher dust supply during the last two peak glacials. During these times wide-extensive sand sea covered the exposed shelf almost completely. However, in interglacial periods wind stress diminished considerably and only minor amounts of dust were supplied to the outer shelf and continental slope. Two major periods of turbidite depositions are recorded in intervals from final glacial sea level lowstands to early deglacial sea level rise of the last two glacial/interglacial cycles (i.e. between 141 and 131 kyr BP and from 23.2 to 14.2 kyr BP). These turbidite deposits consist of sandy to silty sediments. Detailed grain size analyses were used to reconstruct the sedimentary characteristics and flow processes of these turbidity currents. A much higher frequency in turbidite activity occur around 135 kyr BP in contrast to the second interval around 18 kyr BP, suggesting a higher sediment budget in the source area. Based on the sedimentological investigation of the turbidites we provide a schematic model for the sedimentation processes in the Dakar Canyon.
Submarine Dakar Canyon, Sedimentation processes, Turbidity currents, NW-Africa, Sea-level
196-208
Pierau, Roberto
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Henrich, Rüdiger
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Preiß-Daimler, Inga
ecc6d930-d662-40a2-b0a1-b921fcce11db
Krastel, Sebastian
4d9bf243-610a-4875-8c03-cd975c9f8542
Geersen, Jacob
abcf5f76-3608-4322-ab54-7bfb8dfcaf2d
May 2011
Pierau, Roberto
1a30706d-9a60-4576-8894-a0a6f5bf9145
Henrich, Rüdiger
243d4193-683d-455a-9c4e-e90c6000e465
Preiß-Daimler, Inga
ecc6d930-d662-40a2-b0a1-b921fcce11db
Krastel, Sebastian
4d9bf243-610a-4875-8c03-cd975c9f8542
Geersen, Jacob
abcf5f76-3608-4322-ab54-7bfb8dfcaf2d
Pierau, Roberto, Henrich, Rüdiger, Preiß-Daimler, Inga, Krastel, Sebastian and Geersen, Jacob
(2011)
Sediment transport and turbidite architecture in the submarine Dakar Canyon off Senegal, NW-Africa.
Journal of African Earth Sciences, 60 (3), .
(doi:10.1016/j.jafrearsci.2011.02.010).
Abstract
The submarine Dakar Canyon incises the continental margin at the transition of the hyperarid Sahara to the semiarid Sahel Zone, and acts as an effective pathway for gravity-driven sediment transport. Four gravity cores recovered directly from the canyon axis were investigated in order to reconstruct the sedimentation processes in the Dakar Canyon during the Late Quaternary. In addition, a hemipelagic record from the northern levee of the canyon was analysed for monitoring background sediment supply, which is dominated by dust input in the area. Coarse terrigenous silt size data and high Ti/Ca ratios reflect overall increased higher dust supply during the last two peak glacials. During these times wide-extensive sand sea covered the exposed shelf almost completely. However, in interglacial periods wind stress diminished considerably and only minor amounts of dust were supplied to the outer shelf and continental slope. Two major periods of turbidite depositions are recorded in intervals from final glacial sea level lowstands to early deglacial sea level rise of the last two glacial/interglacial cycles (i.e. between 141 and 131 kyr BP and from 23.2 to 14.2 kyr BP). These turbidite deposits consist of sandy to silty sediments. Detailed grain size analyses were used to reconstruct the sedimentary characteristics and flow processes of these turbidity currents. A much higher frequency in turbidite activity occur around 135 kyr BP in contrast to the second interval around 18 kyr BP, suggesting a higher sediment budget in the source area. Based on the sedimentological investigation of the turbidites we provide a schematic model for the sedimentation processes in the Dakar Canyon.
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Published date: May 2011
Keywords:
Submarine Dakar Canyon, Sedimentation processes, Turbidity currents, NW-Africa, Sea-level
Organisations:
Geology & Geophysics
Identifiers
Local EPrints ID: 338899
URI: http://eprints.soton.ac.uk/id/eprint/338899
ISSN: 1464-343X
PURE UUID: af80f568-dc9c-47d4-9505-04b0593778d1
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Date deposited: 17 May 2012 13:39
Last modified: 14 Mar 2024 11:06
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Contributors
Author:
Roberto Pierau
Author:
Rüdiger Henrich
Author:
Inga Preiß-Daimler
Author:
Sebastian Krastel
Author:
Jacob Geersen
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