A modern canyon-fed sandy turbidite system of the Norwegian continental margin

The sedimentary processes and evolution of a presumably old but still relatively recent active canyon-fed sandy turbidite system on the Norwegian continental margin, the Andoya Canyon - Lofoten Basin Channel system, were studied using high-resolution seismic, deep-towed side-scan sonar records and c...

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Main Authors: Laberg, J.S., Vorren, T.O., Kenyon, N.H., Ivanov, M., Andersen, E.S.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2005
Subjects:
Lofoten
Lofoten Basin
Online Access:http://nora.nerc.ac.uk/id/eprint/124108/
id ftnerc:oai:nora.nerc.ac.uk:124108
record_format openpolar
spelling ftnerc:oai:nora.nerc.ac.uk:124108 2023-05-15T17:08:16+02:00 A modern canyon-fed sandy turbidite system of the Norwegian continental margin Laberg, J.S. Vorren, T.O. Kenyon, N.H. Ivanov, M. Andersen, E.S. 2005 http://nora.nerc.ac.uk/id/eprint/124108/ unknown Laberg, J.S.; Vorren, T.O.; Kenyon, N.H.; Ivanov, M.; Andersen, E.S. 2005 A modern canyon-fed sandy turbidite system of the Norwegian continental margin. Norwegian Journal of Geology, 85. 267-277. Publication - Article PeerReviewed 2005 ftnerc 2023-02-04T19:34:32Z The sedimentary processes and evolution of a presumably old but still relatively recent active canyon-fed sandy turbidite system on the Norwegian continental margin, the Andoya Canyon - Lofoten Basin Channel system, were studied using high-resolution seismic, deep-towed side-scan sonar records and cores (gravity and vibro cores). The canyon has a length of about 40 km and represents a continental slope incision of up to 1100 m. From the canyon mouth, a deep-sea channel up to 30 m deep and 3 km wide continues for approximately 200 km into the deepest part of the Lofoten Basin. The most recent activity of this system was deposition of coarse-grained sediments from turbidity currents as indicated by sediment waves on the canyon floor, thin sand layers within the levees and a sandy lobe at the channel mouth. From this modern system we suggest that there are a number of features that could be of relevance for hydrocarbon exploration of deep-water turbidite systems: a) this canyon-fed system probably received sand from piracy of shelf sediments and/or canyon wall erosion, b) the sandy deposits are located in the deepest part of the basin, about 200 km outside the canyon mouth, c) the sandy lobe is connected to the source area by a straight channel with poorly developed mud-rich levees, d) the sandy deposits have a sheet-like or tabular geometry, e) post-depositional deformation of the sand could be widespread suggesting rapid sand deposition. Thus, modern, canyon-fed sandy turbidite systems provide additional data relevant for future hydrocarbon prospecting in deep-water areas. Article in Journal/Newspaper Lofoten Natural Environment Research Council: NERC Open Research Archive Lofoten Lofoten Basin ENVELOPE(4.000,4.000,70.000,70.000)
institution Open Polar
collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language unknown
description The sedimentary processes and evolution of a presumably old but still relatively recent active canyon-fed sandy turbidite system on the Norwegian continental margin, the Andoya Canyon - Lofoten Basin Channel system, were studied using high-resolution seismic, deep-towed side-scan sonar records and cores (gravity and vibro cores). The canyon has a length of about 40 km and represents a continental slope incision of up to 1100 m. From the canyon mouth, a deep-sea channel up to 30 m deep and 3 km wide continues for approximately 200 km into the deepest part of the Lofoten Basin. The most recent activity of this system was deposition of coarse-grained sediments from turbidity currents as indicated by sediment waves on the canyon floor, thin sand layers within the levees and a sandy lobe at the channel mouth. From this modern system we suggest that there are a number of features that could be of relevance for hydrocarbon exploration of deep-water turbidite systems: a) this canyon-fed system probably received sand from piracy of shelf sediments and/or canyon wall erosion, b) the sandy deposits are located in the deepest part of the basin, about 200 km outside the canyon mouth, c) the sandy lobe is connected to the source area by a straight channel with poorly developed mud-rich levees, d) the sandy deposits have a sheet-like or tabular geometry, e) post-depositional deformation of the sand could be widespread suggesting rapid sand deposition. Thus, modern, canyon-fed sandy turbidite systems provide additional data relevant for future hydrocarbon prospecting in deep-water areas.
format Article in Journal/Newspaper
author Laberg, J.S.
Vorren, T.O.
Kenyon, N.H.
Ivanov, M.
Andersen, E.S.
spellingShingle Laberg, J.S.
Vorren, T.O.
Kenyon, N.H.
Ivanov, M.
Andersen, E.S.
A modern canyon-fed sandy turbidite system of the Norwegian continental margin
author_facet Laberg, J.S.
Vorren, T.O.
Kenyon, N.H.
Ivanov, M.
Andersen, E.S.
author_sort Laberg, J.S.
title A modern canyon-fed sandy turbidite system of the Norwegian continental margin
title_short A modern canyon-fed sandy turbidite system of the Norwegian continental margin
title_full A modern canyon-fed sandy turbidite system of the Norwegian continental margin
title_fullStr A modern canyon-fed sandy turbidite system of the Norwegian continental margin
title_full_unstemmed A modern canyon-fed sandy turbidite system of the Norwegian continental margin
title_sort modern canyon-fed sandy turbidite system of the norwegian continental margin
publishDate 2005
url http://nora.nerc.ac.uk/id/eprint/124108/
long_lat ENVELOPE(4.000,4.000,70.000,70.000)
geographic Lofoten
Lofoten Basin
geographic_facet Lofoten
Lofoten Basin
genre Lofoten
genre_facet Lofoten
op_relation Laberg, J.S.; Vorren, T.O.; Kenyon, N.H.; Ivanov, M.; Andersen, E.S. 2005 A modern canyon-fed sandy turbidite system of the Norwegian continental margin. Norwegian Journal of Geology, 85. 267-277.
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