Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic

Two Sediment gravity cores and a multicore collected from contourite sediment drifts north and south of the Wyville Thomson Ridge provide a detailed textural record of bottom-current variability since the last glaciation. Four radiocarbon dates indicate that collectively the cores span the last c. 4...

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Published in:Scottish Journal of Geology
Main Authors: McIntyre, Kate, Howe, John
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
NORTHEASTERN ATLANTIC
DEEP-OCEAN
SEA
CLIMATE MODEL
CURRENT PATHWAYS
SEDIMENT DRIFTS
GREENLAND ICE
Geology
STRATIGRAPHY
CONTINENTAL-MARGIN
FAEROE-SHETLAND CHANNEL
Faroe Bank
Greenland
Norwegian Sea
Rockall Trough
Wyville Thomson Ridge
Wyville-Thomson Ridge
North Atlantic Deep Water
North Atlantic
Online Access:https://pure.uhi.ac.uk/en/publications/596ffce6-2e02-4437-b912-46cc614d4f0b
https://doi.org/10.1144/0036-9276/01-375
id ftuhipublicatio:oai:pure.atira.dk:publications/596ffce6-2e02-4437-b912-46cc614d4f0b
record_format openpolar
spelling ftuhipublicatio:oai:pure.atira.dk:publications/596ffce6-2e02-4437-b912-46cc614d4f0b 2024-02-04T10:00:56+01:00 Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic McIntyre, Kate Howe, John 2009 https://pure.uhi.ac.uk/en/publications/596ffce6-2e02-4437-b912-46cc614d4f0b https://doi.org/10.1144/0036-9276/01-375 eng eng info:eu-repo/semantics/restrictedAccess McIntyre , K & Howe , J 2009 , ' Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic ' , SCOT J GEOL , vol. 45 , no. Pt No. Part 1 , pp. 43-57 . https://doi.org/10.1144/0036-9276/01-375 NORTHEASTERN ATLANTIC DEEP-OCEAN SEA CLIMATE MODEL CURRENT PATHWAYS SEDIMENT DRIFTS GREENLAND ICE Geology STRATIGRAPHY CONTINENTAL-MARGIN FAEROE-SHETLAND CHANNEL article 2009 ftuhipublicatio https://doi.org/10.1144/0036-9276/01-375 2024-01-11T23:20:57Z Two Sediment gravity cores and a multicore collected from contourite sediment drifts north and south of the Wyville Thomson Ridge provide a detailed textural record of bottom-current variability since the last glaciation. Four radiocarbon dates indicate that collectively the cores span the last c. 40 ka including the last stadial-interstadial cycle. The Northern Rockall Trough drift cores contain contouritic sediments of Last Glacial Maximum to Holocene age (c. 18 ka to present). The core from the Faroe Bank Channel contains glaciomarine contouritic sediments of mid-Devensian to Holocene age (c. 40 ka to present). Both gravity cores were analysed for magnetic susceptibility. wet bulk density, fractional porosity and P-wave velocity further to detailed (1 cm interval) grain-size analyses. The mean sortable silt fraction (10 to 63 mu m) of the grain-size data is used to reconstruct the ancestral flow of two different water masses: Norwegian Sea Deep Water in the Faroc Bank Channel and North Atlantic Deep Water in the Northern Rockall Trough. During glaciation. the flow of both water masses was suppressed. although still active, with mean sortable silt values of between 25 and 30 pill during the Last Glacial Maximum. Ice-rafted debris dated at 37 935 C-14 years in the Faroe Bank Channel may correspond to Heinrich Event H4. The bottom-current response to the climate amelioration of the early Holocene is one of l steady increase in flow. This response is noted at both sites suggesting a deep-water connectivity between the Northern Rockall Trough and Faroe Bank Channel. Present day flow of North Atlantic Deep Water in the Northern Rockall Trough has been measured at up to 11 cm s(-1) corresponding to mean sortable silt values of 36 to 40 pin, compared to glacial and stadial values of <30 mu m, suggesting weaker North Atlantic and Norwegian Sea Deep Water flows of <10 cm s(-1) during this time. Article in Journal/Newspaper Greenland North Atlantic Deep Water North Atlantic Norwegian Sea University of the Highlands and Islands: Research Database of UHI Faroe Bank ENVELOPE(-8.667,-8.667,60.917,60.917) Greenland Norwegian Sea Rockall Trough ENVELOPE(-15.036,-15.036,53.825,53.825) Wyville Thomson Ridge ENVELOPE(-7.500,-7.500,60.250,60.250) Wyville-Thomson Ridge ENVELOPE(-7.250,-7.250,60.000,60.000) Scottish Journal of Geology 45 1 43 57
institution Open Polar
collection University of the Highlands and Islands: Research Database of UHI
op_collection_id ftuhipublicatio
language English
topic NORTHEASTERN ATLANTIC
DEEP-OCEAN
SEA
CLIMATE MODEL
CURRENT PATHWAYS
SEDIMENT DRIFTS
GREENLAND ICE
Geology
STRATIGRAPHY
CONTINENTAL-MARGIN
FAEROE-SHETLAND CHANNEL
spellingShingle NORTHEASTERN ATLANTIC
DEEP-OCEAN
SEA
CLIMATE MODEL
CURRENT PATHWAYS
SEDIMENT DRIFTS
GREENLAND ICE
Geology
STRATIGRAPHY
CONTINENTAL-MARGIN
FAEROE-SHETLAND CHANNEL
McIntyre, Kate
Howe, John
Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic
topic_facet NORTHEASTERN ATLANTIC
DEEP-OCEAN
SEA
CLIMATE MODEL
CURRENT PATHWAYS
SEDIMENT DRIFTS
GREENLAND ICE
Geology
STRATIGRAPHY
CONTINENTAL-MARGIN
FAEROE-SHETLAND CHANNEL
description Two Sediment gravity cores and a multicore collected from contourite sediment drifts north and south of the Wyville Thomson Ridge provide a detailed textural record of bottom-current variability since the last glaciation. Four radiocarbon dates indicate that collectively the cores span the last c. 40 ka including the last stadial-interstadial cycle. The Northern Rockall Trough drift cores contain contouritic sediments of Last Glacial Maximum to Holocene age (c. 18 ka to present). The core from the Faroe Bank Channel contains glaciomarine contouritic sediments of mid-Devensian to Holocene age (c. 40 ka to present). Both gravity cores were analysed for magnetic susceptibility. wet bulk density, fractional porosity and P-wave velocity further to detailed (1 cm interval) grain-size analyses. The mean sortable silt fraction (10 to 63 mu m) of the grain-size data is used to reconstruct the ancestral flow of two different water masses: Norwegian Sea Deep Water in the Faroc Bank Channel and North Atlantic Deep Water in the Northern Rockall Trough. During glaciation. the flow of both water masses was suppressed. although still active, with mean sortable silt values of between 25 and 30 pill during the Last Glacial Maximum. Ice-rafted debris dated at 37 935 C-14 years in the Faroe Bank Channel may correspond to Heinrich Event H4. The bottom-current response to the climate amelioration of the early Holocene is one of l steady increase in flow. This response is noted at both sites suggesting a deep-water connectivity between the Northern Rockall Trough and Faroe Bank Channel. Present day flow of North Atlantic Deep Water in the Northern Rockall Trough has been measured at up to 11 cm s(-1) corresponding to mean sortable silt values of 36 to 40 pin, compared to glacial and stadial values of <30 mu m, suggesting weaker North Atlantic and Norwegian Sea Deep Water flows of <10 cm s(-1) during this time.
format Article in Journal/Newspaper
author McIntyre, Kate
Howe, John
author_facet McIntyre, Kate
Howe, John
author_sort McIntyre, Kate
title Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic
title_short Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic
title_full Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic
title_fullStr Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic
title_full_unstemmed Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic
title_sort bottom-current variability during the last glacial-deglacial transition, northern rockall trough and faroe bank channel, ne atlantic
publishDate 2009
url https://pure.uhi.ac.uk/en/publications/596ffce6-2e02-4437-b912-46cc614d4f0b
https://doi.org/10.1144/0036-9276/01-375
long_lat ENVELOPE(-8.667,-8.667,60.917,60.917)
ENVELOPE(-15.036,-15.036,53.825,53.825)
ENVELOPE(-7.500,-7.500,60.250,60.250)
ENVELOPE(-7.250,-7.250,60.000,60.000)
geographic Faroe Bank
Greenland
Norwegian Sea
Rockall Trough
Wyville Thomson Ridge
Wyville-Thomson Ridge
geographic_facet Faroe Bank
Greenland
Norwegian Sea
Rockall Trough
Wyville Thomson Ridge
Wyville-Thomson Ridge
genre Greenland
North Atlantic Deep Water
North Atlantic
Norwegian Sea
genre_facet Greenland
North Atlantic Deep Water
North Atlantic
Norwegian Sea
op_source McIntyre , K & Howe , J 2009 , ' Bottom-current variability during the last glacial-deglacial transition, Northern Rockall Trough and Faroe Bank Channel, NE Atlantic ' , SCOT J GEOL , vol. 45 , no. Pt No. Part 1 , pp. 43-57 . https://doi.org/10.1144/0036-9276/01-375
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1144/0036-9276/01-375
container_title Scottish Journal of Geology
container_volume 45
container_issue 1
container_start_page 43
op_container_end_page 57
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