Investigations of the bottom current sculpted margin of Hatton Bank, NE Atlantic
Investigations of the bottom current sculpted margin of Hatton Bank, NE Atlantic
The northwest Hatton Bank margin is an ideal locality to demonstrate the interaction between bottom currents and slope configuration in controlling the distribution and morphology of bottom current deposits. The slope area investigated is isolated from any major terrigenous sediment supply and at present is influenced by the Deep Northern Boundary Current (DNBC). Swath bathymetry and high resolution acoustic data allow us to evaluate both local and regional controls on slope sedimentation and the possible mechanisms for bottom-current velocity variability across a slope setting within the NW European continental margin. The slope exhibits sculpting by bottom currents that flow in a predominantly southwest to northeast direction, and is only locally modified by slope failures. Positive relief features such as the Endymion Spur play an important role in constraining and accelerating bottom-current flow and, consequently, in redistributing sediment along the margin. We demonstrate that the size, morphology and distribution of bottom-current deposits along the slope vary as a function of the interaction between bottom currents, regional slope orientation and local seafloor topography.
170-184
MacLachlan, S.E.
a6c1b5e7-066a-45f5-a6bd-15cbcf127758
Elliott, G.M.
a8d56318-2ac4-4d18-93bf-16e97d37e074
Parson, L.M.
8985a003-911e-402e-a858-3ecbd09d6771
7 August 2008
MacLachlan, S.E.
a6c1b5e7-066a-45f5-a6bd-15cbcf127758
Elliott, G.M.
a8d56318-2ac4-4d18-93bf-16e97d37e074
Parson, L.M.
8985a003-911e-402e-a858-3ecbd09d6771
MacLachlan, S.E., Elliott, G.M. and Parson, L.M.
(2008)
Investigations of the bottom current sculpted margin of Hatton Bank, NE Atlantic.
Marine Geology, 253 (3-4), .
(doi:10.1016/j.margeo.2008.05.012).
Abstract
The northwest Hatton Bank margin is an ideal locality to demonstrate the interaction between bottom currents and slope configuration in controlling the distribution and morphology of bottom current deposits. The slope area investigated is isolated from any major terrigenous sediment supply and at present is influenced by the Deep Northern Boundary Current (DNBC). Swath bathymetry and high resolution acoustic data allow us to evaluate both local and regional controls on slope sedimentation and the possible mechanisms for bottom-current velocity variability across a slope setting within the NW European continental margin. The slope exhibits sculpting by bottom currents that flow in a predominantly southwest to northeast direction, and is only locally modified by slope failures. Positive relief features such as the Endymion Spur play an important role in constraining and accelerating bottom-current flow and, consequently, in redistributing sediment along the margin. We demonstrate that the size, morphology and distribution of bottom-current deposits along the slope vary as a function of the interaction between bottom currents, regional slope orientation and local seafloor topography.
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Published date: 7 August 2008
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Local EPrints ID: 54842
URI: http://eprints.soton.ac.uk/id/eprint/54842
ISSN: 0025-3227
PURE UUID: fbb2217c-fe72-4002-b0b0-9708ffe9ec9e
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Date deposited: 22 Jul 2008
Last modified: 15 Mar 2024 10:50
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Author:
S.E. MacLachlan
Author:
G.M. Elliott
Author:
L.M. Parson
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