Patterns and processes of sediment dispersal on the continental slope off Nice, SE France
Patterns and processes of sediment dispersal on the continental slope off Nice, SE France
The distribution of surficial sediments and sediment dispersion patterns on the steep continental slope off Nice (SE France) have been studied using side-scan sonar, 3.5 kHz profiles, short piston cores and bottom photographs. The input of terrigenous material to the Baie des Anges, a submarine embayment bounded by two prominent ridges, is dominated by fluvial input from the Var River, the Paillon River being only a minor source. The Var River provides very coarse bedload material (gravel and cobble) directly to the head of the Var Canyon. Gravel and cobble deposits are found all along the Var Canyon and the Upper Fan Valley of the Var submarine fan and have been shaped into gravel waves. The fine particles (suspension load) are separated from the coarse bedload upon entering the sea and form up to 60-m thick deposits on the uppermost continental slope of the Baie des Anges. These deposits are formed by settling out of sediment plumes. The presence of silt and fine sand laminae that decrease in thickness and frequency away from the Var River mouth indicate the influence of meso- and hyperpycnal flows on these plume deposits. Areas outside the Baie des Anges are not connected to major fluvial input and receive only hemipelagic sediments. These primary deposits are highly unstable and sediment failure due to seismic loading, sedimentary loading or undercutting is frequent. Sediment failure produces secondary sediment gravity flows that export most of the material to the basin, but also produce turbidity-current over-spill deposits on ridges bounding the slope canyons and on terraces within the Var Canyon. Slump and debris-flow deposits are also observed. At least some of these secondary flows erode the continental slope as cross-cutting chutes on the upper continental slope and erosional scours in the Upper Fan Valley demonstrate. Modern sediment dispersal patterns on the continental slope off Nice are proposed as a modern analogue to lowstand conditions on continental margins. In fact, the absence of a continental shelf together with a steep slope strongly reduces the influence of sealevel on the physiography of the margin.
continental slope, sediment dispersion, fluvial input, sediment plumes, slope failure, sediment-gravity flows
405-422
Klaucke, Ingo
d31ff73b-52b1-4667-bdf6-49b79a2367b0
Bruno Savoye, Bruno
894eefcf-d837-4cbc-89d4-728e58c7dde3
Cochonat, Pierre
b3715159-722c-4956-9aa5-d6adc748fabc
5 January 2000
Klaucke, Ingo
d31ff73b-52b1-4667-bdf6-49b79a2367b0
Bruno Savoye, Bruno
894eefcf-d837-4cbc-89d4-728e58c7dde3
Cochonat, Pierre
b3715159-722c-4956-9aa5-d6adc748fabc
Klaucke, Ingo, Bruno Savoye, Bruno and Cochonat, Pierre
(2000)
Patterns and processes of sediment dispersal on the continental slope off Nice, SE France.
Marine Geology, 162 (2-4), .
(doi:10.1016/S0025-3227(99)00063-8).
Abstract
The distribution of surficial sediments and sediment dispersion patterns on the steep continental slope off Nice (SE France) have been studied using side-scan sonar, 3.5 kHz profiles, short piston cores and bottom photographs. The input of terrigenous material to the Baie des Anges, a submarine embayment bounded by two prominent ridges, is dominated by fluvial input from the Var River, the Paillon River being only a minor source. The Var River provides very coarse bedload material (gravel and cobble) directly to the head of the Var Canyon. Gravel and cobble deposits are found all along the Var Canyon and the Upper Fan Valley of the Var submarine fan and have been shaped into gravel waves. The fine particles (suspension load) are separated from the coarse bedload upon entering the sea and form up to 60-m thick deposits on the uppermost continental slope of the Baie des Anges. These deposits are formed by settling out of sediment plumes. The presence of silt and fine sand laminae that decrease in thickness and frequency away from the Var River mouth indicate the influence of meso- and hyperpycnal flows on these plume deposits. Areas outside the Baie des Anges are not connected to major fluvial input and receive only hemipelagic sediments. These primary deposits are highly unstable and sediment failure due to seismic loading, sedimentary loading or undercutting is frequent. Sediment failure produces secondary sediment gravity flows that export most of the material to the basin, but also produce turbidity-current over-spill deposits on ridges bounding the slope canyons and on terraces within the Var Canyon. Slump and debris-flow deposits are also observed. At least some of these secondary flows erode the continental slope as cross-cutting chutes on the upper continental slope and erosional scours in the Upper Fan Valley demonstrate. Modern sediment dispersal patterns on the continental slope off Nice are proposed as a modern analogue to lowstand conditions on continental margins. In fact, the absence of a continental shelf together with a steep slope strongly reduces the influence of sealevel on the physiography of the margin.
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Published date: 5 January 2000
Keywords:
continental slope, sediment dispersion, fluvial input, sediment plumes, slope failure, sediment-gravity flows
Identifiers
Local EPrints ID: 58849
URI: http://eprints.soton.ac.uk/id/eprint/58849
ISSN: 0025-3227
PURE UUID: 986a2ec8-9e75-49c8-bf7c-1b14c979a05f
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Date deposited: 18 Aug 2008
Last modified: 15 Mar 2024 11:12
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Author:
Ingo Klaucke
Author:
Bruno Bruno Savoye
Author:
Pierre Cochonat
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