Cold-water coral banks and submarine landslides: a review
Cold-water coral banks and submarine landslides: a review
This paper aims to review the relation between cold-water coral bank development and submarine landslides. Both are common features on continental margins, but so far it has not been reviewed which effect—if at all—they may have upon each other. Indirect and direct relations between coral banks and landslides are evaluated here, based on four case studies: the Magellan Mound Province in the Porcupine Seabight, where fossil coral banks appear partly on top of a buried slide deposit; the Sula Ridge Reef Complex and the Storegga landslide both off mid-Norway; and the Mauritania coral bank province, associated with the Mauritanian Slide Complex. For each of these locations, positive and negative relationships between both features are discussed, based on available datasets. Locally submarine landslides might directly favour coral bank development by creating substratum where corals can settle on, enhancing turbulence due to abrupt seabed morphological variations and, in some cases, causing fluid seepage. In turn, some of these processes may contribute to increased food availability and lower sedimentation rates. Landslides can also affect coral bank development by direct erosion of the coral banks, and by the instantaneous increase of turbidity, which may smother the corals. On the other hand, coral banks might have a stabilising function and delay or stop the headwall retrogradation of submarine landslides. Although local relationships can be deduced from these case studies, no general and direct relationship exists between submarine landslides and cold-water coral banks.
Cold-water coral banks, Submarine landslides, Storegga Slide, Mauritanian Slide complex, Porcupine Seabight
885-899
De Mol, Ben
6fc59452-d362-4a44-a6af-39207f78518c
Huvenne, Veerle
f22be3e2-708c-491b-b985-a438470fa053
Canals, Miquel
70ed5c8a-cc8a-4e56-9d0d-4bf5ee0fb479
June 2009
De Mol, Ben
6fc59452-d362-4a44-a6af-39207f78518c
Huvenne, Veerle
f22be3e2-708c-491b-b985-a438470fa053
Canals, Miquel
70ed5c8a-cc8a-4e56-9d0d-4bf5ee0fb479
De Mol, Ben, Huvenne, Veerle and Canals, Miquel
(2009)
Cold-water coral banks and submarine landslides: a review.
International Journal of Earth Sciences, 98 (4), .
(doi:10.1007/s00531-008-0372-6).
Abstract
This paper aims to review the relation between cold-water coral bank development and submarine landslides. Both are common features on continental margins, but so far it has not been reviewed which effect—if at all—they may have upon each other. Indirect and direct relations between coral banks and landslides are evaluated here, based on four case studies: the Magellan Mound Province in the Porcupine Seabight, where fossil coral banks appear partly on top of a buried slide deposit; the Sula Ridge Reef Complex and the Storegga landslide both off mid-Norway; and the Mauritania coral bank province, associated with the Mauritanian Slide Complex. For each of these locations, positive and negative relationships between both features are discussed, based on available datasets. Locally submarine landslides might directly favour coral bank development by creating substratum where corals can settle on, enhancing turbulence due to abrupt seabed morphological variations and, in some cases, causing fluid seepage. In turn, some of these processes may contribute to increased food availability and lower sedimentation rates. Landslides can also affect coral bank development by direct erosion of the coral banks, and by the instantaneous increase of turbidity, which may smother the corals. On the other hand, coral banks might have a stabilising function and delay or stop the headwall retrogradation of submarine landslides. Although local relationships can be deduced from these case studies, no general and direct relationship exists between submarine landslides and cold-water coral banks.
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Published date: June 2009
Keywords:
Cold-water coral banks, Submarine landslides, Storegga Slide, Mauritanian Slide complex, Porcupine Seabight
Identifiers
Local EPrints ID: 65112
URI: http://eprints.soton.ac.uk/id/eprint/65112
ISSN: 1437-3254
PURE UUID: 2bc67de5-5254-4bee-b68c-46348026aa4d
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Date deposited: 04 Feb 2009
Last modified: 16 Mar 2024 03:38
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Author:
Ben De Mol
Author:
Veerle Huvenne
Author:
Miquel Canals
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