Timing and significance of glacially influenced mass-wasting in the submarine channels of the Greenland Basin
Timing and significance of glacially influenced mass-wasting in the submarine channels of the Greenland Basin
The most extensive systems of submarine channels on the continental margins of the Norwegian–Greenland Sea occur in the Greenland Basin (72–75jN). Geophysical records show that these channels are up to 100-m deep, 4-km wide, and extend
for about 300 km from the middle continental slope off Northeast Greenland to the abyssal depths of the basin. Mass-wasting deposits in the form of debris flows and turbidity currents, as well as hemipelagic sediments, dominate sediment cores
recovered from the channels. Radiocarbon dates indicate that debris flow and turbidity current activity in the channels had ceased by 13,000 years BP and sedimentation rates show a corresponding order of magnitude decrease after this time. Masswasting in the submarine channels of the Greenland Basin therefore relates to full-glacial and deglacial conditions. This implies
a more extensive Late Weichselian ice sheet in Northeast Greenland than traditionally thought. The ice sheet extended onto the outer continental shelf and may have reached the shelf edge, delivering debris and sediment-laden meltwater onto the upper slope. Channel formation is most likely the product of turbidity-current activity during successive glaciations of the Northeast Greenland continental shelf. Holocene sediments from the channel systems are predominantly of hemipelagic origin and formed in a low energy, ice distal environment. The low gradient ( < 1j) channels of the Greenland Basin are therefore a glacially influenced sedimentary system. Contrasts in slope morphology and sediment architecture between the Greenland Basin and
trough-mouth fans elsewhere in the Norwegian–Greenland Sea are not the result of variations in slope gradient. Rather, these contrasts reflect the interplay between bedrock lithology of the continental shelf, rates of sediment delivery, sediment texture, meltwater volume and relative size of ice-sheet drainage basins.
Norwegian-Greenland Sea, Greenland Basin, submarine channels, turbidity currents, Late Weichselian, Greenland Ice Sheet
39-54
O Cofaigh, C.
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Dowdeswell, J.A.
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Evans, J.
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Kenyon, N.H.
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Taylor, J.
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Mienert, J.
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Wilken, M.
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2004
O Cofaigh, C.
91fb1f9f-dae4-4eda-a374-4cfb66b6d80d
Dowdeswell, J.A.
16ed2b24-8a71-4171-9ea6-6b5356e5d434
Evans, J.
f551701f-0ce1-4816-8a77-5a87eaf721a3
Kenyon, N.H.
c9e9b414-ac6c-4264-8e63-7bf99196a869
Taylor, J.
a98e31be-d5c2-4442-a3e9-472af9399f52
Mienert, J.
90ba1f28-5249-4663-ad09-b6abc8b46068
Wilken, M.
f14e6f5e-f878-4105-8600-f780630e0e17
O Cofaigh, C., Dowdeswell, J.A., Evans, J., Kenyon, N.H., Taylor, J., Mienert, J. and Wilken, M.
(2004)
Timing and significance of glacially influenced mass-wasting in the submarine channels of the Greenland Basin.
Marine Geology, 207 (1-4), .
(doi:10.1016/j.margeo.2004.02.009).
Abstract
The most extensive systems of submarine channels on the continental margins of the Norwegian–Greenland Sea occur in the Greenland Basin (72–75jN). Geophysical records show that these channels are up to 100-m deep, 4-km wide, and extend
for about 300 km from the middle continental slope off Northeast Greenland to the abyssal depths of the basin. Mass-wasting deposits in the form of debris flows and turbidity currents, as well as hemipelagic sediments, dominate sediment cores
recovered from the channels. Radiocarbon dates indicate that debris flow and turbidity current activity in the channels had ceased by 13,000 years BP and sedimentation rates show a corresponding order of magnitude decrease after this time. Masswasting in the submarine channels of the Greenland Basin therefore relates to full-glacial and deglacial conditions. This implies
a more extensive Late Weichselian ice sheet in Northeast Greenland than traditionally thought. The ice sheet extended onto the outer continental shelf and may have reached the shelf edge, delivering debris and sediment-laden meltwater onto the upper slope. Channel formation is most likely the product of turbidity-current activity during successive glaciations of the Northeast Greenland continental shelf. Holocene sediments from the channel systems are predominantly of hemipelagic origin and formed in a low energy, ice distal environment. The low gradient ( < 1j) channels of the Greenland Basin are therefore a glacially influenced sedimentary system. Contrasts in slope morphology and sediment architecture between the Greenland Basin and
trough-mouth fans elsewhere in the Norwegian–Greenland Sea are not the result of variations in slope gradient. Rather, these contrasts reflect the interplay between bedrock lithology of the continental shelf, rates of sediment delivery, sediment texture, meltwater volume and relative size of ice-sheet drainage basins.
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Published date: 2004
Keywords:
Norwegian-Greenland Sea, Greenland Basin, submarine channels, turbidity currents, Late Weichselian, Greenland Ice Sheet
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Local EPrints ID: 9859
URI: http://eprints.soton.ac.uk/id/eprint/9859
ISSN: 0025-3227
PURE UUID: 0f1cbaf5-0dec-43d8-8578-57c109ad6d2a
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Date deposited: 25 Oct 2004
Last modified: 15 Mar 2024 04:57
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Author:
C. O Cofaigh
Author:
J.A. Dowdeswell
Author:
J. Evans
Author:
N.H. Kenyon
Author:
J. Taylor
Author:
J. Mienert
Author:
M. Wilken
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