Late Quaternary palaeoenvironment and chronology in the Traenadjupet Slide area offshore Norway
Late Quaternary palaeoenvironment and chronology in the Traenadjupet Slide area offshore Norway
The northern mid-Norwegian continental slope was studied based on high-resolution side-scan sonar data, multibeam bathymetry, high-resolution and multichannel seismics together with gravity cores. Sedimentary provinces identified include a partly buried slide on the eastern, inner Voring Plateau, an area dominated by glacigenic debris flows south-west of the Traenadjupet Slide, the Traenadjupet Slide, and an area of glacimarine sedimentation and a slide scar north-east of the Traenadjupet Slide. The Traenadjupet Slide affected an area of about 14100 km2 and mobilised about 900 km3 of sediments. Little is known about the areal extent and volume of the older events. The glacigenic debris flows and glacimarine sediments were deposited while the Fennoscandian ice sheet was at the shelf break during the late Weichselian glacial maximum (prior to 13.2 14C kyr BP). Hemipelagic and/or contouritic sedimentation prevailed during the Holocene period. Two large slide scars were probably formed sometime prior to or during the late Weichselian glacial maximum (inner Voring Plateau and north-east of the Traenadjupet Slide) and another during the mid-Holocene interglacial period immediately prior to 4000 14C kyr BP (the Traenadjupet Slide). The two older scars may represent one event or two separate events. Deposition of poorly permeable glacigenic sediments over high-water-content fine-grained hemipelagic and/or contourites may have prevented water escape and increased failure potential Thus continental slope areas of episodically high sediment input of glacigenic sediments are prone to failure as illustrated by this study, which has identified at least two large slope failures. Failures have occurred both during glacial maxima, periods of climate deterioration and low global eustatic sea level, and during interglacials as today with improved climatic conditions and a high global eustatic sea level
Norwegian Sea, glacigenic sediments, slides, late Quaternary
35-60
Laberg, J.S.
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Vorren, T.O.
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Mienert, J.
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Evans, D.
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Lindberg, B.
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Ottesen, D.
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Kenyon, N.H.
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Henriksen, S.
d3cfb4db-8bcf-42b4-80d8-d16368136704
2002
Laberg, J.S.
41e9660a-c05e-44a2-ab53-20f3daff5328
Vorren, T.O.
b91400c5-c39d-4970-948a-eb90037d6785
Mienert, J.
90ba1f28-5249-4663-ad09-b6abc8b46068
Evans, D.
f9eaedeb-d6ac-4b62-8d0b-718923316757
Lindberg, B.
9b4dcd62-8c6f-459f-9ba4-3545a49fe9bf
Ottesen, D.
213e4a70-6ff4-46f0-889a-90b061d55df5
Kenyon, N.H.
c9e9b414-ac6c-4264-8e63-7bf99196a869
Henriksen, S.
d3cfb4db-8bcf-42b4-80d8-d16368136704
Laberg, J.S., Vorren, T.O., Mienert, J., Evans, D., Lindberg, B., Ottesen, D., Kenyon, N.H. and Henriksen, S.
(2002)
Late Quaternary palaeoenvironment and chronology in the Traenadjupet Slide area offshore Norway.
Marine Geology, 188 (1-2), .
(doi:10.1016/S0025-3227(02)00274-8).
Abstract
The northern mid-Norwegian continental slope was studied based on high-resolution side-scan sonar data, multibeam bathymetry, high-resolution and multichannel seismics together with gravity cores. Sedimentary provinces identified include a partly buried slide on the eastern, inner Voring Plateau, an area dominated by glacigenic debris flows south-west of the Traenadjupet Slide, the Traenadjupet Slide, and an area of glacimarine sedimentation and a slide scar north-east of the Traenadjupet Slide. The Traenadjupet Slide affected an area of about 14100 km2 and mobilised about 900 km3 of sediments. Little is known about the areal extent and volume of the older events. The glacigenic debris flows and glacimarine sediments were deposited while the Fennoscandian ice sheet was at the shelf break during the late Weichselian glacial maximum (prior to 13.2 14C kyr BP). Hemipelagic and/or contouritic sedimentation prevailed during the Holocene period. Two large slide scars were probably formed sometime prior to or during the late Weichselian glacial maximum (inner Voring Plateau and north-east of the Traenadjupet Slide) and another during the mid-Holocene interglacial period immediately prior to 4000 14C kyr BP (the Traenadjupet Slide). The two older scars may represent one event or two separate events. Deposition of poorly permeable glacigenic sediments over high-water-content fine-grained hemipelagic and/or contourites may have prevented water escape and increased failure potential Thus continental slope areas of episodically high sediment input of glacigenic sediments are prone to failure as illustrated by this study, which has identified at least two large slope failures. Failures have occurred both during glacial maxima, periods of climate deterioration and low global eustatic sea level, and during interglacials as today with improved climatic conditions and a high global eustatic sea level
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Published date: 2002
Keywords:
Norwegian Sea, glacigenic sediments, slides, late Quaternary
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Local EPrints ID: 6040
URI: http://eprints.soton.ac.uk/id/eprint/6040
ISSN: 0025-3227
PURE UUID: c71ad3a8-9381-4f60-9665-99e7dec3b2bc
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Date deposited: 09 Jun 2004
Last modified: 15 Mar 2024 04:47
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Contributors
Author:
J.S. Laberg
Author:
T.O. Vorren
Author:
J. Mienert
Author:
D. Evans
Author:
B. Lindberg
Author:
D. Ottesen
Author:
N.H. Kenyon
Author:
S. Henriksen
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