Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications

High-resolution magnetic hysteresis measurements were carried out on three sediment cores, one from the North Atlantic and two from the Norwegian Sea. These measurements can be used to reconstruct changes in magnetic grain-size. Physical grain-size has been interpreted as a proxy for bottom current...

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Bibliographic Details
Main Author:	Wall, Torbjörn
Format:	Other/Unknown Material
Language:	English
Published:	Lunds universitet/Geologiska institutionen 2004
Subjects:	magnetic grain-size magnetic hysteresis loops Reykjanes Ridge Vøring plateau North Atlantic Norwegian Sea deep ocean currents Holocene magnetisk kornstorlek magnetiska hysteresis-lopar Reykjanesryggen Vøringplatån Nordatlanten Norska havet djuphavsströmmar Holocen Earth and Environmental Sciences Svalbard Reykjanes Vøring Plateau Birks
Online Access:	http://lup.lub.lu.se/student-papers/record/2340205

id	ftulundlupsp:oai:lup-student-papers.lub.lu.se:2340205
record_format	openpolar
spelling	ftulundlupsp:oai:lup-student-papers.lub.lu.se:2340205 2023-07-30T04:05:15+02:00 Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications Wall, Torbjörn 2004 application/pdf http://lup.lub.lu.se/student-papers/record/2340205 eng eng Lunds universitet/Geologiska institutionen http://lup.lub.lu.se/student-papers/record/2340205 magnetic grain-size magnetic hysteresis loops Reykjanes Ridge Vøring plateau North Atlantic Norwegian Sea deep ocean currents Holocene magnetisk kornstorlek magnetiska hysteresis-lopar Reykjanesryggen Vøringplatån Nordatlanten Norska havet djuphavsströmmar Holocen Earth and Environmental Sciences H1 2004 ftulundlupsp 2023-07-11T20:06:35Z High-resolution magnetic hysteresis measurements were carried out on three sediment cores, one from the North Atlantic and two from the Norwegian Sea. These measurements can be used to reconstruct changes in magnetic grain-size. Physical grain-size has been interpreted as a proxy for bottom current intensity (McCave et al. 1995) and this study shows that the hysteresis measurements can contribute as a proxy for near bottom currents in this region during the Holocene, but only when the magnetic measurements are combined with other proxy records. The magnetic grain-size record of one core from the Norwegian Sea has been compared with sea surface temperature reconstructions produced by Calvo et al. (2002) and Birks & Koç (2002). The dominant magnetic mineral in the sediment is low titanium content magnetite (titanomagnetite) and the grain-size variation is discussed as a potential of near-bottom current flow intensity during the Holocene. A core from the Vøring plateau (MD95-2011) shows that the magnetic grain-size has a significant positive correlation to SST during the Holocene. Maximum sediment grain-size was reached between 9000 to 6000 cal BP, which would imply that the THC was most active in the Norwegian Sea during the Holocene thermal maximum, as registered by SST and terrestrial reconstructions. The core LO09-14 on the Reykjanes Ridge in the North Atlantic shows the same behaviour during the first part of the Holocene, but after 7500 cal BP there are indications of a shift in the oceanographic conditions and at 3700 cal BP the magnetic mineral sediment source changed and the magnetic properties cannot be used to reconstruct near-bottom current flow intensity. Core M23258-2 from south of Svalbard does not show the same behaviour at all and the variable magnetic properties of the core appear to be dominated by ice-rafted-debris. Populärvetenskaplig sammanfattning: Fokus i denna studie är magnetiska kornstorleksvariationer i havssediment. Frågeställningen är: finns det en koppling mellan ... Other/Unknown Material North Atlantic Norwegian Sea Svalbard Lund University Publications Student Papers (LUP-SP) Svalbard Norwegian Sea Reykjanes ENVELOPE(-22.250,-22.250,65.467,65.467) Vøring Plateau ENVELOPE(4.000,4.000,67.000,67.000) Birks ENVELOPE(-62.163,-62.163,-65.290,-65.290)
institution	Open Polar
collection	Lund University Publications Student Papers (LUP-SP)
op_collection_id	ftulundlupsp
language	English
topic	magnetic grain-size magnetic hysteresis loops Reykjanes Ridge Vøring plateau North Atlantic Norwegian Sea deep ocean currents Holocene magnetisk kornstorlek magnetiska hysteresis-lopar Reykjanesryggen Vøringplatån Nordatlanten Norska havet djuphavsströmmar Holocen Earth and Environmental Sciences
spellingShingle	magnetic grain-size magnetic hysteresis loops Reykjanes Ridge Vøring plateau North Atlantic Norwegian Sea deep ocean currents Holocene magnetisk kornstorlek magnetiska hysteresis-lopar Reykjanesryggen Vøringplatån Nordatlanten Norska havet djuphavsströmmar Holocen Earth and Environmental Sciences Wall, Torbjörn Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications
topic_facet	magnetic grain-size magnetic hysteresis loops Reykjanes Ridge Vøring plateau North Atlantic Norwegian Sea deep ocean currents Holocene magnetisk kornstorlek magnetiska hysteresis-lopar Reykjanesryggen Vøringplatån Nordatlanten Norska havet djuphavsströmmar Holocen Earth and Environmental Sciences
description	High-resolution magnetic hysteresis measurements were carried out on three sediment cores, one from the North Atlantic and two from the Norwegian Sea. These measurements can be used to reconstruct changes in magnetic grain-size. Physical grain-size has been interpreted as a proxy for bottom current intensity (McCave et al. 1995) and this study shows that the hysteresis measurements can contribute as a proxy for near bottom currents in this region during the Holocene, but only when the magnetic measurements are combined with other proxy records. The magnetic grain-size record of one core from the Norwegian Sea has been compared with sea surface temperature reconstructions produced by Calvo et al. (2002) and Birks & Koç (2002). The dominant magnetic mineral in the sediment is low titanium content magnetite (titanomagnetite) and the grain-size variation is discussed as a potential of near-bottom current flow intensity during the Holocene. A core from the Vøring plateau (MD95-2011) shows that the magnetic grain-size has a significant positive correlation to SST during the Holocene. Maximum sediment grain-size was reached between 9000 to 6000 cal BP, which would imply that the THC was most active in the Norwegian Sea during the Holocene thermal maximum, as registered by SST and terrestrial reconstructions. The core LO09-14 on the Reykjanes Ridge in the North Atlantic shows the same behaviour during the first part of the Holocene, but after 7500 cal BP there are indications of a shift in the oceanographic conditions and at 3700 cal BP the magnetic mineral sediment source changed and the magnetic properties cannot be used to reconstruct near-bottom current flow intensity. Core M23258-2 from south of Svalbard does not show the same behaviour at all and the variable magnetic properties of the core appear to be dominated by ice-rafted-debris. Populärvetenskaplig sammanfattning: Fokus i denna studie är magnetiska kornstorleksvariationer i havssediment. Frågeställningen är: finns det en koppling mellan ...
format	Other/Unknown Material
author	Wall, Torbjörn
author_facet	Wall, Torbjörn
author_sort	Wall, Torbjörn
title	Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications
title_short	Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications
title_full	Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications
title_fullStr	Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications
title_full_unstemmed	Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications
title_sort	magnetic grain-size analyses of holocene sediments in the north atlantic and norwegian sea : palaeoceanographic applications
publisher	Lunds universitet/Geologiska institutionen
publishDate	2004
url	http://lup.lub.lu.se/student-papers/record/2340205
long_lat	ENVELOPE(-22.250,-22.250,65.467,65.467) ENVELOPE(4.000,4.000,67.000,67.000) ENVELOPE(-62.163,-62.163,-65.290,-65.290)
geographic	Svalbard Norwegian Sea Reykjanes Vøring Plateau Birks
geographic_facet	Svalbard Norwegian Sea Reykjanes Vøring Plateau Birks
genre	North Atlantic Norwegian Sea Svalbard
genre_facet	North Atlantic Norwegian Sea Svalbard
op_relation	http://lup.lub.lu.se/student-papers/record/2340205
_version_	1772817046469345280

Magnetic grain-size analyses of Holocene sediments in the North Atlantic and Norwegian Sea : palaeoceanographic applications

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