Internal flow structures in columnar jointed basalt from Hrepphólar, Iceland: II. Magnetic anisotropy and rock magnetic properties

The anisotropy of magnetic susceptibility (AMS) and rock magnetic properties were measured on specimens from a basalt plate that was cut from a vertical section of a basalt column from Hrepphólar, Iceland. Macroscopic structures are clearly distinguishable in the plate, including banding inferred to...

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Main Authors: Almqvist, Bjarne, Bosshard, Sonja, Hirt, Ann, Mattsson, Hannes, Hetényi, György
Language:English
Published: 2018
Subjects:
Hrepphólar
Column Rock
Iceland
Online Access:http://doc.rero.ch/record/315184/files/445_2012_Article_622.pdf
id ftreroch:oai:doc.rero.ch:315184
record_format openpolar
spelling ftreroch:oai:doc.rero.ch:315184 2023-05-15T16:48:34+02:00 Internal flow structures in columnar jointed basalt from Hrepphólar, Iceland: II. Magnetic anisotropy and rock magnetic properties Almqvist, Bjarne Bosshard, Sonja Hirt, Ann Mattsson, Hannes Hetényi, György 2018-06-18T17:50:23Z http://doc.rero.ch/record/315184/files/445_2012_Article_622.pdf eng eng http://doc.rero.ch/record/315184/files/445_2012_Article_622.pdf 2018 ftreroch 2023-02-16T17:31:36Z The anisotropy of magnetic susceptibility (AMS) and rock magnetic properties were measured on specimens from a basalt plate that was cut from a vertical section of a basalt column from Hrepphólar, Iceland. Macroscopic structures are clearly distinguishable in the plate, including banding inferred to represent viscous fingering parallel to the vertical axis of the column. Rock magnetic experiments indicate that the dominant ferromagnetic (sensu lato) mineral is titanomagnetite, Fe 3−x Ti x O4, with a Ti-composition of x = ~0.6. Magnetic properties are related to the position within the plate and reveal a dominant volume fraction of single domain titanomagnetite in the center of the basalt column, with multidomain titanomagnetite away from the center. The AMS determined by low-field measurements shows an inconclusive relationship with the visual structures, which arises from variation of the grain size (i.e., single domain versus multidomain) across the column. In contrast, the AMS measured with a high-field torsion magnetometer avoids the complication of magnetic domain state, as is demonstrated in this contribution, and additionally allows for the separation of ferrimagnetic from paramagnetic sub-fabrics. Both sub-fabrics display a clear relationship with the macroscopic structures and support the hypothesis that vertical flow of melt took place during development of the Hrepphólar columnar basalt. Maximum susceptibility axes of the ferrimagnetic sub-fabric are grouped near the vertical axis of the column. The paramagnetic sub-fabric varies systematically across the column in coincidence with internal structure. The shape of the magnetic susceptibility ellipsoid varies across the basalt column, showing an increasingly prolate fabric toward its center Other/Unknown Material Iceland RERO DOC Digital Library Hrepphólar ENVELOPE(-20.327,-20.327,64.069,64.069) Column Rock ENVELOPE(-57.329,-57.329,-63.178,-63.178)
institution Open Polar
collection RERO DOC Digital Library
op_collection_id ftreroch
language English
description The anisotropy of magnetic susceptibility (AMS) and rock magnetic properties were measured on specimens from a basalt plate that was cut from a vertical section of a basalt column from Hrepphólar, Iceland. Macroscopic structures are clearly distinguishable in the plate, including banding inferred to represent viscous fingering parallel to the vertical axis of the column. Rock magnetic experiments indicate that the dominant ferromagnetic (sensu lato) mineral is titanomagnetite, Fe 3−x Ti x O4, with a Ti-composition of x = ~0.6. Magnetic properties are related to the position within the plate and reveal a dominant volume fraction of single domain titanomagnetite in the center of the basalt column, with multidomain titanomagnetite away from the center. The AMS determined by low-field measurements shows an inconclusive relationship with the visual structures, which arises from variation of the grain size (i.e., single domain versus multidomain) across the column. In contrast, the AMS measured with a high-field torsion magnetometer avoids the complication of magnetic domain state, as is demonstrated in this contribution, and additionally allows for the separation of ferrimagnetic from paramagnetic sub-fabrics. Both sub-fabrics display a clear relationship with the macroscopic structures and support the hypothesis that vertical flow of melt took place during development of the Hrepphólar columnar basalt. Maximum susceptibility axes of the ferrimagnetic sub-fabric are grouped near the vertical axis of the column. The paramagnetic sub-fabric varies systematically across the column in coincidence with internal structure. The shape of the magnetic susceptibility ellipsoid varies across the basalt column, showing an increasingly prolate fabric toward its center
author Almqvist, Bjarne
Bosshard, Sonja
Hirt, Ann
Mattsson, Hannes
Hetényi, György
spellingShingle Almqvist, Bjarne
Bosshard, Sonja
Hirt, Ann
Mattsson, Hannes
Hetényi, György
Internal flow structures in columnar jointed basalt from Hrepphólar, Iceland: II. Magnetic anisotropy and rock magnetic properties
author_facet Almqvist, Bjarne
Bosshard, Sonja
Hirt, Ann
Mattsson, Hannes
Hetényi, György
author_sort Almqvist, Bjarne
title Internal flow structures in columnar jointed basalt from Hrepphólar, Iceland: II. Magnetic anisotropy and rock magnetic properties
title_short Internal flow structures in columnar jointed basalt from Hrepphólar, Iceland: II. Magnetic anisotropy and rock magnetic properties
title_full Internal flow structures in columnar jointed basalt from Hrepphólar, Iceland: II. Magnetic anisotropy and rock magnetic properties
title_fullStr Internal flow structures in columnar jointed basalt from Hrepphólar, Iceland: II. Magnetic anisotropy and rock magnetic properties
title_full_unstemmed Internal flow structures in columnar jointed basalt from Hrepphólar, Iceland: II. Magnetic anisotropy and rock magnetic properties
title_sort internal flow structures in columnar jointed basalt from hrepphólar, iceland: ii. magnetic anisotropy and rock magnetic properties
publishDate 2018
url http://doc.rero.ch/record/315184/files/445_2012_Article_622.pdf
long_lat ENVELOPE(-20.327,-20.327,64.069,64.069)
ENVELOPE(-57.329,-57.329,-63.178,-63.178)
geographic Hrepphólar
Column Rock
geographic_facet Hrepphólar
Column Rock
genre Iceland
genre_facet Iceland
op_relation http://doc.rero.ch/record/315184/files/445_2012_Article_622.pdf
_version_ 1766038647827595264

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