StonerJosephCEOASInfluenceHigh-Latitude_SupportingInformation.zip

Paleomagnetic analysis and radiocarbon dating of an expanded Holocene deep-sea sediment sequence recovered by Integrated Ocean Drilling Program (IODP) Expedition 303 from Labrador Sea Site U1305 (Lat.: 57°28.5 N, Long.: 48°31.8 W, water depth 3459 m) provides insights into mechanisms that drive both...

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Main Authors: Stoner, Joseph S., Channell, James E. T., Mazaud, Alain, Strano, Sarah E., Xuan, Chuang
Language:unknown
Subjects:
Labrador Sea
North Atlantic
Planktonic foraminifera
Online Access:https://ir.library.oregonstate.edu/concern/articles/q524jq458
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spelling ftoregonstate:ir.library.oregonstate.edu:q524jq458 2024-04-14T08:14:31+00:00 StonerJosephCEOASInfluenceHigh-Latitude_SupportingInformation.zip Stoner, Joseph S. Channell, James E. T. Mazaud, Alain Strano, Sarah E. Xuan, Chuang https://ir.library.oregonstate.edu/concern/articles/q524jq458 unknown https://ir.library.oregonstate.edu/concern/articles/q524jq458 Copyright Not Evaluated ftoregonstate 2024-03-21T15:49:52Z Paleomagnetic analysis and radiocarbon dating of an expanded Holocene deep-sea sediment sequence recovered by Integrated Ocean Drilling Program (IODP) Expedition 303 from Labrador Sea Site U1305 (Lat.: 57°28.5 N, Long.: 48°31.8 W, water depth 3459 m) provides insights into mechanisms that drive both paleomagnetic secular variation (PSV) and magnetization acquisition in deep-sea sediments. Seventeen radiocarbon dates on planktonic foraminifera define postglacial (ca. 8 ka) sedimentation rates as ranging from 35 to >90 cm/kyr. Alternating field (AF) demagnetization of u-channel samples show that these homogeneous sediments preserve a strong, stable, and consistently well-defined component magnetization. Normalized remanence records pass reliability criteria for relative paleointensity (RPI) estimates. Assuming that the age of magnetization is most accurately defined by well dated PSV records with the highest sedimentation rates, allows us to estimate and correct for temporal offsets at Site U1305 interpreted to result from postdepositional remanence acquisition at a depth of ~20 cm. Comparisons indicate that the northern North Atlantic PSV and RPI records are more consistent with European than North American records, and the evolution of virtual geomagnetic poles (VGP) are temporally and longitudinally similar to global reconstructions, though with much larger latitudinal variation. The largest deviations from a geocentric axial dipole (GAD) are observed during times of the highest intensities, in contrast to the usual assumption. These observations are consistent with the idea that PSV in the North Atlantic and elsewhere during the Holocene results from temporal oscillations of high-latitude flux concentrations at a few recurrent locations. Keywords: Paleointensity, North Atlantic, Paleomagnetism Keywords: Paleointensity, North Atlantic, Paleomagnetism Other/Unknown Material Labrador Sea North Atlantic Planktonic foraminifera ScholarsArchive@OSU (Oregon State University)
institution Open Polar
collection ScholarsArchive@OSU (Oregon State University)
op_collection_id ftoregonstate
language unknown
description Paleomagnetic analysis and radiocarbon dating of an expanded Holocene deep-sea sediment sequence recovered by Integrated Ocean Drilling Program (IODP) Expedition 303 from Labrador Sea Site U1305 (Lat.: 57°28.5 N, Long.: 48°31.8 W, water depth 3459 m) provides insights into mechanisms that drive both paleomagnetic secular variation (PSV) and magnetization acquisition in deep-sea sediments. Seventeen radiocarbon dates on planktonic foraminifera define postglacial (ca. 8 ka) sedimentation rates as ranging from 35 to >90 cm/kyr. Alternating field (AF) demagnetization of u-channel samples show that these homogeneous sediments preserve a strong, stable, and consistently well-defined component magnetization. Normalized remanence records pass reliability criteria for relative paleointensity (RPI) estimates. Assuming that the age of magnetization is most accurately defined by well dated PSV records with the highest sedimentation rates, allows us to estimate and correct for temporal offsets at Site U1305 interpreted to result from postdepositional remanence acquisition at a depth of ~20 cm. Comparisons indicate that the northern North Atlantic PSV and RPI records are more consistent with European than North American records, and the evolution of virtual geomagnetic poles (VGP) are temporally and longitudinally similar to global reconstructions, though with much larger latitudinal variation. The largest deviations from a geocentric axial dipole (GAD) are observed during times of the highest intensities, in contrast to the usual assumption. These observations are consistent with the idea that PSV in the North Atlantic and elsewhere during the Holocene results from temporal oscillations of high-latitude flux concentrations at a few recurrent locations. Keywords: Paleointensity, North Atlantic, Paleomagnetism Keywords: Paleointensity, North Atlantic, Paleomagnetism
author Stoner, Joseph S.
Channell, James E. T.
Mazaud, Alain
Strano, Sarah E.
Xuan, Chuang
spellingShingle Stoner, Joseph S.
Channell, James E. T.
Mazaud, Alain
Strano, Sarah E.
Xuan, Chuang
StonerJosephCEOASInfluenceHigh-Latitude_SupportingInformation.zip
author_facet Stoner, Joseph S.
Channell, James E. T.
Mazaud, Alain
Strano, Sarah E.
Xuan, Chuang
author_sort Stoner, Joseph S.
title StonerJosephCEOASInfluenceHigh-Latitude_SupportingInformation.zip
title_short StonerJosephCEOASInfluenceHigh-Latitude_SupportingInformation.zip
title_full StonerJosephCEOASInfluenceHigh-Latitude_SupportingInformation.zip
title_fullStr StonerJosephCEOASInfluenceHigh-Latitude_SupportingInformation.zip
title_full_unstemmed StonerJosephCEOASInfluenceHigh-Latitude_SupportingInformation.zip
title_sort stonerjosephceoasinfluencehigh-latitude_supportinginformation.zip
url https://ir.library.oregonstate.edu/concern/articles/q524jq458
genre Labrador Sea
North Atlantic
Planktonic foraminifera
genre_facet Labrador Sea
North Atlantic
Planktonic foraminifera
op_relation https://ir.library.oregonstate.edu/concern/articles/q524jq458
op_rights Copyright Not Evaluated
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