A Magnetic Geothermometer in Moderately Buried Shales

A Magnetic Geothermometer in Moderately Buried Shales

Shales contain magnetic minerals generally at very low concentrations. In the early stages of diagenesis, the inherited magnetic minerals are altered, while magnetic nanominerals are formed. In this study, we proposed a study of shales over a stratigraphic thickness of 1.3 km from a borehole in the...

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Main Authors: Charles Aubourg, Myriam Kars, Jean-Pierre Pozzi, Martin Mazurek, Olivier Grauby
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Minerals
Subjects:
shales
magnetite
goethite
oil window
geothermometer
Online Access:https://www.mdpi.com/2075-163X/11/9/957
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spelling doaj-0056cd91b72f47b3be75916e851ffe662021-09-26T00:44:49ZengMDPI AGMinerals2075-163X2021-08-011195795710.3390/min11090957A Magnetic Geothermometer in Moderately Buried ShalesCharles Aubourg0Myriam Kars1Jean-Pierre Pozzi2Martin Mazurek3Olivier Grauby4Laboratoire des Fluides Complexes et leurs Réservoirs, UMR 5150 CNRS TOTAL, Université de Pau et des Pays de l’Adour, Avenue de l’Université, CEDEX, 64013 Pau, FranceCenter for Advanced Marine Core Research, Kochi University, B200 Monobe, Nankoku 783-8502, JapanLaboratoire de Géologie, CNRS-Ecole Normale Supérieure PSL University, 75013 Paris, FranceRock-Water Interaction, Institute of Geological Sciences, University of Bern, Baltzerstrasse 3, 3012 Bern, SwitzerlandCinam, UMR 7325 CNRS, Campus de Luminy, Aix-Marseille Université, CEDEX 9, 13288 Marseille, FranceShales contain magnetic minerals generally at very low concentrations. In the early stages of diagenesis, the inherited magnetic minerals are altered, while magnetic nanominerals are formed. In this study, we proposed a study of shales over a stratigraphic thickness of 1.3 km from a borehole in the Paris basin (Borehole EST 433, France), and shales from the same formation (Opalinus Clay) collected in seven boreholes in the Jura molasse basin (Swiss). Magnetic measurements at experimental temperatures <30 K allowed the formation of a proxy of magnetite nanograins named PM. We showed that some of these nanograins formed around the pyrite grains, probably under the action of temperature and organic matter. PM was then compared to the maturity values of the organic matter. We found a correlation between PM and the percentage of reflectance of vitrinite. The shales from both Paris and molassic Swiss basins showed very comparable magnetic characteristics for a given maturity level. The magnetic study therefore provided constraints on the maturity level of the shales in the oil window area. Our study showed that PM can be used as a geothermometer in shales in which CaCO<sub>3</sub> is lower than 60%.https://www.mdpi.com/2075-163X/11/9/957shalesmagnetitegoethiteoil windowgeothermometer
collection DOAJ
language English
format Article
sources DOAJ
author Charles Aubourg
Myriam Kars
Jean-Pierre Pozzi
Martin Mazurek
Olivier Grauby
spellingShingle Charles Aubourg
Myriam Kars
Jean-Pierre Pozzi
Martin Mazurek
Olivier Grauby
A Magnetic Geothermometer in Moderately Buried Shales
Minerals
shales
magnetite
goethite
oil window
geothermometer
author_facet Charles Aubourg
Myriam Kars
Jean-Pierre Pozzi
Martin Mazurek
Olivier Grauby
author_sort Charles Aubourg
title A Magnetic Geothermometer in Moderately Buried Shales
title_short A Magnetic Geothermometer in Moderately Buried Shales
title_full A Magnetic Geothermometer in Moderately Buried Shales
title_fullStr A Magnetic Geothermometer in Moderately Buried Shales
title_full_unstemmed A Magnetic Geothermometer in Moderately Buried Shales
title_sort magnetic geothermometer in moderately buried shales
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2021-08-01
description Shales contain magnetic minerals generally at very low concentrations. In the early stages of diagenesis, the inherited magnetic minerals are altered, while magnetic nanominerals are formed. In this study, we proposed a study of shales over a stratigraphic thickness of 1.3 km from a borehole in the Paris basin (Borehole EST 433, France), and shales from the same formation (Opalinus Clay) collected in seven boreholes in the Jura molasse basin (Swiss). Magnetic measurements at experimental temperatures <30 K allowed the formation of a proxy of magnetite nanograins named PM. We showed that some of these nanograins formed around the pyrite grains, probably under the action of temperature and organic matter. PM was then compared to the maturity values of the organic matter. We found a correlation between PM and the percentage of reflectance of vitrinite. The shales from both Paris and molassic Swiss basins showed very comparable magnetic characteristics for a given maturity level. The magnetic study therefore provided constraints on the maturity level of the shales in the oil window area. Our study showed that PM can be used as a geothermometer in shales in which CaCO<sub>3</sub> is lower than 60%.
topic shales
magnetite
goethite
oil window
geothermometer
url https://www.mdpi.com/2075-163X/11/9/957
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AT myriamkars amagneticgeothermometerinmoderatelyburiedshales
AT jeanpierrepozzi amagneticgeothermometerinmoderatelyburiedshales
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