2.45 Ga break-up of the Archaean continent in Northern Fennoscandia: Rifting dynamics and the role of inherited structures within the Archaean basement

Constraints from restoration of minor rift-related faults preserved from subsequent Palaeoproterozoic overprint along the southern margin of the Peräpohja Belt, northern Fennoscandia indicate local NE-SW extension directions prevailed at the time of 2.44 Ga rifting of the Archaean continent. This pa...

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Main Authors: Giacomo Corti, Pietari Skyttä, Armelle Kloppenburg, Simo Piippo
Other Authors: maantieteen ja geologian laitos, yhteiset, Department of Geography and Geology, 2606900
Language:English
Published: Elsevier 2022
Subjects:
Fennoscandia
karelian
Online Access:https://www.utupub.fi/handle/10024/157650
http://authors.elsevier.com/sd/article/S0301926818303528
id ftunivturku:oai:www.utupub.fi:10024/157650
record_format openpolar
spelling ftunivturku:oai:www.utupub.fi:10024/157650 2023-05-15T16:11:37+02:00 2.45 Ga break-up of the Archaean continent in Northern Fennoscandia: Rifting dynamics and the role of inherited structures within the Archaean basement Giacomo Corti Pietari Skyttä Armelle Kloppenburg Simo Piippo maantieteen ja geologian laitos, yhteiset, Department of Geography and Geology 2606900 2022-10-27T12:17:57Z 303 323 https://www.utupub.fi/handle/10024/157650 http://authors.elsevier.com/sd/article/S0301926818303528 en eng Elsevier 324 10.1016/j.precamres.2019.02.004 Precambrian Research https://www.utupub.fi/handle/10024/157650 http://authors.elsevier.com/sd/article/S0301926818303528 URN:NBN:fi-fe2021042823064 0301-9268 2022 ftunivturku 2022-11-02T23:59:23Z Constraints from restoration of minor rift-related faults preserved from subsequent Palaeoproterozoic overprint along the southern margin of the Peräpohja Belt, northern Fennoscandia indicate local NE-SW extension directions prevailed at the time of 2.44 Ga rifting of the Archaean continent. This palaeostress field is attributed to pull-apart setting of the Peräpohja Belt at a left overstepping zone of major sinistral N-S trending deformation zones. Consequently, the variably overprinted NW-SE trending structures of the Peräpohja Belt, including the NW-SE central graben were originally generated as normal faults. The proposed setting is compatible with a conducted reconnaissance sandbox analogue model where the orientation of the major normal faults was controlled by the ambient stress field within the step-over zone between strike-slip faults. By contrast, the faults bounding E-W to ENE-WSW trending basement horsts are the result of reactivation of older basement structures underlying the pull-apart basin. Based on the results, we infer that the final break-up of the Archaean continent in northern Fennoscandia utilized the 2.44 Ga rift-related NW-SE trending crustal anisotropy (parallel with dyke swarms), with pre-existing Archaean N-S trending structures reactivated as second-order shear zones in-between. The voluminous syn-rift 2.5-2.4 Ga and later pulses of mafic magmatism (2.32-1.98 Ga) are considered indicative of active-type rifting which onset was controlled by a mantle plume centred within a supercraton formed by the Superior, Hearne and Karelian (-Kola) cratons. The presented model supports the continuity of the Archaean craton beyond the Caledonian Orogen towards north-west and explains its segmentation, suggesting a model for the localization of the Palaeoproterozoic supracrustal belts of Northern Fennoscandia. Moreover, this paper provides an approach to understand the basement-cover relationships and the structural signatures within these relatively shallow supracrustal belts which are highly ... Other/Unknown Material Fennoscandia karelian University of Turku: UTUPub
institution Open Polar
collection University of Turku: UTUPub
op_collection_id ftunivturku
language English
description Constraints from restoration of minor rift-related faults preserved from subsequent Palaeoproterozoic overprint along the southern margin of the Peräpohja Belt, northern Fennoscandia indicate local NE-SW extension directions prevailed at the time of 2.44 Ga rifting of the Archaean continent. This palaeostress field is attributed to pull-apart setting of the Peräpohja Belt at a left overstepping zone of major sinistral N-S trending deformation zones. Consequently, the variably overprinted NW-SE trending structures of the Peräpohja Belt, including the NW-SE central graben were originally generated as normal faults. The proposed setting is compatible with a conducted reconnaissance sandbox analogue model where the orientation of the major normal faults was controlled by the ambient stress field within the step-over zone between strike-slip faults. By contrast, the faults bounding E-W to ENE-WSW trending basement horsts are the result of reactivation of older basement structures underlying the pull-apart basin. Based on the results, we infer that the final break-up of the Archaean continent in northern Fennoscandia utilized the 2.44 Ga rift-related NW-SE trending crustal anisotropy (parallel with dyke swarms), with pre-existing Archaean N-S trending structures reactivated as second-order shear zones in-between. The voluminous syn-rift 2.5-2.4 Ga and later pulses of mafic magmatism (2.32-1.98 Ga) are considered indicative of active-type rifting which onset was controlled by a mantle plume centred within a supercraton formed by the Superior, Hearne and Karelian (-Kola) cratons. The presented model supports the continuity of the Archaean craton beyond the Caledonian Orogen towards north-west and explains its segmentation, suggesting a model for the localization of the Palaeoproterozoic supracrustal belts of Northern Fennoscandia. Moreover, this paper provides an approach to understand the basement-cover relationships and the structural signatures within these relatively shallow supracrustal belts which are highly ...
author2 maantieteen ja geologian laitos, yhteiset, Department of Geography and Geology
2606900
author Giacomo Corti
Pietari Skyttä
Armelle Kloppenburg
Simo Piippo
spellingShingle Giacomo Corti
Pietari Skyttä
Armelle Kloppenburg
Simo Piippo
2.45 Ga break-up of the Archaean continent in Northern Fennoscandia: Rifting dynamics and the role of inherited structures within the Archaean basement
author_facet Giacomo Corti
Pietari Skyttä
Armelle Kloppenburg
Simo Piippo
author_sort Giacomo Corti
title 2.45 Ga break-up of the Archaean continent in Northern Fennoscandia: Rifting dynamics and the role of inherited structures within the Archaean basement
title_short 2.45 Ga break-up of the Archaean continent in Northern Fennoscandia: Rifting dynamics and the role of inherited structures within the Archaean basement
title_full 2.45 Ga break-up of the Archaean continent in Northern Fennoscandia: Rifting dynamics and the role of inherited structures within the Archaean basement
title_fullStr 2.45 Ga break-up of the Archaean continent in Northern Fennoscandia: Rifting dynamics and the role of inherited structures within the Archaean basement
title_full_unstemmed 2.45 Ga break-up of the Archaean continent in Northern Fennoscandia: Rifting dynamics and the role of inherited structures within the Archaean basement
title_sort 2.45 ga break-up of the archaean continent in northern fennoscandia: rifting dynamics and the role of inherited structures within the archaean basement
publisher Elsevier
publishDate 2022
url https://www.utupub.fi/handle/10024/157650
http://authors.elsevier.com/sd/article/S0301926818303528
genre Fennoscandia
karelian
genre_facet Fennoscandia
karelian
op_relation 324
10.1016/j.precamres.2019.02.004
Precambrian Research
https://www.utupub.fi/handle/10024/157650
http://authors.elsevier.com/sd/article/S0301926818303528
URN:NBN:fi-fe2021042823064
0301-9268
_version_ 1765996769385119744

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