New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events

For a long time, the thermal history of northeastern (NE) Fennoscandia in the Phanerozoic and Precambrian remained unknown, since no thermochronological studies were carried out within the Kola Peninsula area. Two years ago, we developed the first model of tectono-thermal evolution of the Kola Penin...

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Published in:	Minerals
Main Authors:	Roman V. Veselovskiy, Róbert Arató, Tanya E. Bagdasaryan, Alexander V. Samsonov, Alexandra V. Stepanova, Andrey A. Arzamastsev, Mariya S. Myshenkova
Format:	Text
Language:	English
Published:	Multidisciplinary Digital Publishing Institute 2020
Subjects:	apatite fission-track dating Fennoscandia Kola Peninsula thermal history tectonics Phanerozoic remagnetization Barents Sea Murmansk kola peninsula
Online Access:	https://doi.org/10.3390/min10121095

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spelling	ftmdpi:oai:mdpi.com:/2075-163X/10/12/1095/ 2023-08-20T04:05:31+02:00 New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events Roman V. Veselovskiy Róbert Arató Tanya E. Bagdasaryan Alexander V. Samsonov Alexandra V. Stepanova Andrey A. Arzamastsev Mariya S. Myshenkova agris 2020-12-06 application/pdf https://doi.org/10.3390/min10121095 EN eng Multidisciplinary Digital Publishing Institute Mineral Geochemistry and Geochronology https://dx.doi.org/10.3390/min10121095 https://creativecommons.org/licenses/by/4.0/ Minerals; Volume 10; Issue 12; Pages: 1095 apatite fission-track dating Fennoscandia Kola Peninsula thermal history tectonics Phanerozoic remagnetization Text 2020 ftmdpi https://doi.org/10.3390/min10121095 2023-08-01T00:36:42Z For a long time, the thermal history of northeastern (NE) Fennoscandia in the Phanerozoic and Precambrian remained unknown, since no thermochronological studies were carried out within the Kola Peninsula area. Two years ago, we developed the first model of tectono-thermal evolution of the Kola Peninsula territory for the last 1.9 Gyr using a set of newly obtained apatite fission-track (AFT) and Ar/Ar thermochronological data. However, the low-temperature history of the most ancient tectonic unit of the northeastern part of the Kola Peninsula—the Archean Murmansk craton—remained poorly constrained due to the lack of AFT data. In this paper, we present the first results of AFT studies of 14 samples representing intrusive and metamorphic Precambrian rocks, located within the Murmansk craton of NE Fennoscandia. AFT ages and track length distributions indicate a similar tectono-thermal evolution of Precambrian tectonic units in NE Fennoscandia over the last 300 Myr. The AFT ages are distributed between ca. 177 and ca. 384 Ma; their median value, ~293 Ma, confirms the presence of a previously identified hidden thermal event that took place at about 300 Ma. However, a detailed analysis of the AFT age distribution shows the presence of three statistically distinguishable age components: 180–190 Ma (C1), 290–320 Ma (C2) and 422 Ma (C3). We assume that the relatively young AFT ages of C1 may originate from apatite crystals with low thermal resistivity. Remarkably, this value coincides with the initial stage of the Barents Sea magmatic province activity during large-scale plume-lithospheric interaction, as well as with the assumed age of an enigmatic remagnetization event throughout the Kola Peninsula. C2 ages can be observed in both the gabbroic and non-gabbroic samples, whereas C3 ages can only be found in gabbro. It is supposed that C2 ages, similarly to the Central Kola terrane, correspond to a cooling event related to the denudation of a thick sedimentary cover, representing a continuation of the Caledonian foreland ... Text Barents Sea Fennoscandia kola peninsula MDPI Open Access Publishing Barents Sea Kola Peninsula Murmansk Minerals 10 12 1095
institution	Open Polar
collection	MDPI Open Access Publishing
op_collection_id	ftmdpi
language	English
topic	apatite fission-track dating Fennoscandia Kola Peninsula thermal history tectonics Phanerozoic remagnetization
spellingShingle	apatite fission-track dating Fennoscandia Kola Peninsula thermal history tectonics Phanerozoic remagnetization Roman V. Veselovskiy Róbert Arató Tanya E. Bagdasaryan Alexander V. Samsonov Alexandra V. Stepanova Andrey A. Arzamastsev Mariya S. Myshenkova New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events
topic_facet	apatite fission-track dating Fennoscandia Kola Peninsula thermal history tectonics Phanerozoic remagnetization
description	For a long time, the thermal history of northeastern (NE) Fennoscandia in the Phanerozoic and Precambrian remained unknown, since no thermochronological studies were carried out within the Kola Peninsula area. Two years ago, we developed the first model of tectono-thermal evolution of the Kola Peninsula territory for the last 1.9 Gyr using a set of newly obtained apatite fission-track (AFT) and Ar/Ar thermochronological data. However, the low-temperature history of the most ancient tectonic unit of the northeastern part of the Kola Peninsula—the Archean Murmansk craton—remained poorly constrained due to the lack of AFT data. In this paper, we present the first results of AFT studies of 14 samples representing intrusive and metamorphic Precambrian rocks, located within the Murmansk craton of NE Fennoscandia. AFT ages and track length distributions indicate a similar tectono-thermal evolution of Precambrian tectonic units in NE Fennoscandia over the last 300 Myr. The AFT ages are distributed between ca. 177 and ca. 384 Ma; their median value, ~293 Ma, confirms the presence of a previously identified hidden thermal event that took place at about 300 Ma. However, a detailed analysis of the AFT age distribution shows the presence of three statistically distinguishable age components: 180–190 Ma (C1), 290–320 Ma (C2) and 422 Ma (C3). We assume that the relatively young AFT ages of C1 may originate from apatite crystals with low thermal resistivity. Remarkably, this value coincides with the initial stage of the Barents Sea magmatic province activity during large-scale plume-lithospheric interaction, as well as with the assumed age of an enigmatic remagnetization event throughout the Kola Peninsula. C2 ages can be observed in both the gabbroic and non-gabbroic samples, whereas C3 ages can only be found in gabbro. It is supposed that C2 ages, similarly to the Central Kola terrane, correspond to a cooling event related to the denudation of a thick sedimentary cover, representing a continuation of the Caledonian foreland ...
format	Text
author	Roman V. Veselovskiy Róbert Arató Tanya E. Bagdasaryan Alexander V. Samsonov Alexandra V. Stepanova Andrey A. Arzamastsev Mariya S. Myshenkova
author_facet	Roman V. Veselovskiy Róbert Arató Tanya E. Bagdasaryan Alexander V. Samsonov Alexandra V. Stepanova Andrey A. Arzamastsev Mariya S. Myshenkova
author_sort	Roman V. Veselovskiy
title	New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events
title_short	New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events
title_full	New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events
title_fullStr	New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events
title_full_unstemmed	New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events
title_sort	new apatite fission-track data from the murmansk craton, ne fennoscandia: an echo of hidden thermotectonic events
publisher	Multidisciplinary Digital Publishing Institute
publishDate	2020
url	https://doi.org/10.3390/min10121095
op_coverage	agris
geographic	Barents Sea Kola Peninsula Murmansk
geographic_facet	Barents Sea Kola Peninsula Murmansk
genre	Barents Sea Fennoscandia kola peninsula
genre_facet	Barents Sea Fennoscandia kola peninsula
op_source	Minerals; Volume 10; Issue 12; Pages: 1095
op_relation	Mineral Geochemistry and Geochronology https://dx.doi.org/10.3390/min10121095
op_rights	https://creativecommons.org/licenses/by/4.0/
op_doi	https://doi.org/10.3390/min10121095
container_title	Minerals
container_volume	10
container_issue	12
container_start_page	1095
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New Apatite Fission-Track Data from the Murmansk Craton, NE Fennoscandia: An Echo of Hidden Thermotectonic Events

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