Neoproterozoic and post-Caledonian exhumation and shallow faulting in NW Finnmark from K–Ar dating and p∕T analysis of fault rocks

Well-preserved fault gouge along brittle faults in Paleoproterozoic, volcano-sedimentary rocks of the Raipas Supergroup exposed in the Alta–Kvænangen tectonic window in northern Norway yielded latest Mesoproterozoic (approximately 1050 ± 15 Ma) to mid-Neoproterozoic (approximately 825–810 ± 18 Ma) K...

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Published in:Solid Earth
Main Authors: Koehl, Jean-Baptiste P., Bergh, Steffen G., Wemmer, Klaus
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2018
Subjects:
article
Verlagsveröffentlichung
Alta
Kvænangen
Langfjorden
Norway
Raipas
Talvik
Finnmark
Northern Norway
Online Access:https://doi.org/10.5194/se-9-923-2018
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collection Niedersächsisches Online-Archiv NOA
op_collection_id ftnonlinearchiv
language English
topic article
Verlagsveröffentlichung
spellingShingle article
Verlagsveröffentlichung
Koehl, Jean-Baptiste P.
Bergh, Steffen G.
Wemmer, Klaus
Neoproterozoic and post-Caledonian exhumation and shallow faulting in NW Finnmark from K–Ar dating and p∕T analysis of fault rocks
topic_facet article
Verlagsveröffentlichung
description Well-preserved fault gouge along brittle faults in Paleoproterozoic, volcano-sedimentary rocks of the Raipas Supergroup exposed in the Alta–Kvænangen tectonic window in northern Norway yielded latest Mesoproterozoic (approximately 1050 ± 15 Ma) to mid-Neoproterozoic (approximately 825–810 ± 18 Ma) K–Ar ages. Pressure–temperature estimates from microtextural and mineralogy analyses of fault rocks indicate that brittle faulting may have initiated at a depth of 5–10 km during the opening of the Asgard Sea in the latest Mesoproterozoic–early Neoproterozoic (approximately 1050–945 Ma) and continued with a phase of shallow faulting to the opening of the Iapetus Ocean–Ægir Sea and the initial breakup of Rodinia in the mid-Neoproterozoic (approximately 825–810 Ma). The predominance and preservation of synkinematic smectite and subsidiary illite in cohesive and non-cohesive fault rocks indicate that Paleoproterozoic basement rocks of the Alta–Kvænangen tectonic window remained at shallow crustal levels (< 3.5 km) and were not reactivated since mid-Neoproterozoic times. Slow exhumation rate estimates for the early–mid-Neoproterozoic (approximately 10–75 m Myr−1) suggest a period of tectonic quiescence between the opening of the Asgard Sea and the breakup of Rodinia. In the Paleozoic, basement rocks in NW Finnmark were overthrusted by Caledonian nappes along low-angle thrust detachments during the closing of the Iapetus Ocean–Ægir Sea. K–Ar dating of non-cohesive fault rocks and microtexture mineralogy of cohesive fault rock truncating Caledonian nappe units show that brittle (reverse) faulting potentially initiated along low-angle Caledonian thrusts during the latest stages of the Caledonian Orogeny in the Silurian (approximately 425 Ma) and was accompanied by epidote–chlorite-rich, stilpnomelane-bearing cataclasite (type 1) indicative of a faulting depth of 10–16 km. Caledonian thrusts were inverted (e.g., Talvik fault) and later truncated by high-angle normal faults (e.g., Langfjorden–Vargsundet fault) during subsequent, late Paleozoic, collapse-related widespread extension in the Late Devonian–early Carboniferous (approximately 375–325 Ma). This faulting period was accompanied by quartz- (type 2), calcite- (type 3) and laumontite-rich cataclasites (type 4), whose cross-cutting relationships indicate a progressive exhumation of Caledonian rocks to zeolite-facies conditions (i.e., depth of 2–8 km). An ultimate period of minor faulting occurred in the late Carboniferous–mid-Permian (315–265 Ma) and exhumed Caledonian rocks to shallow depth at 1–3.5 km. Alternatively, late Carboniferous (?) to early–mid-Permian K–Ar ages may reflect late Paleozoic weathering of the margin. Exhumation rates estimates indicate rapid Silurian–early Carboniferous exhumation and slow exhumation in the late Carboniferous–mid-Permian, supporting decreasing faulting activity from the mid-Carboniferous. NW Finnmark remained tectonically quiet in the Mesozoic–Cenozoic.
format Article in Journal/Newspaper
author Koehl, Jean-Baptiste P.
Bergh, Steffen G.
Wemmer, Klaus
author_facet Koehl, Jean-Baptiste P.
Bergh, Steffen G.
Wemmer, Klaus
author_sort Koehl, Jean-Baptiste P.
title Neoproterozoic and post-Caledonian exhumation and shallow faulting in NW Finnmark from K–Ar dating and p∕T analysis of fault rocks
title_short Neoproterozoic and post-Caledonian exhumation and shallow faulting in NW Finnmark from K–Ar dating and p∕T analysis of fault rocks
title_full Neoproterozoic and post-Caledonian exhumation and shallow faulting in NW Finnmark from K–Ar dating and p∕T analysis of fault rocks
title_fullStr Neoproterozoic and post-Caledonian exhumation and shallow faulting in NW Finnmark from K–Ar dating and p∕T analysis of fault rocks
title_full_unstemmed Neoproterozoic and post-Caledonian exhumation and shallow faulting in NW Finnmark from K–Ar dating and p∕T analysis of fault rocks
title_sort neoproterozoic and post-caledonian exhumation and shallow faulting in nw finnmark from k–ar dating and p∕t analysis of fault rocks
publisher Copernicus Publications
publishDate 2018
url https://doi.org/10.5194/se-9-923-2018
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https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00005189/se-9-923-2018.pdf
https://se.copernicus.org/articles/9/923/2018/se-9-923-2018.pdf
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ENVELOPE(12.676,12.676,65.378,65.378)
ENVELOPE(23.319,23.319,69.938,69.938)
ENVELOPE(22.949,22.949,70.042,70.042)
geographic Alta
Kvænangen
Langfjorden
Norway
Raipas
Talvik
geographic_facet Alta
Kvænangen
Langfjorden
Norway
Raipas
Talvik
genre Alta
Finnmark
Kvænangen
Northern Norway
Finnmark
genre_facet Alta
Finnmark
Kvænangen
Northern Norway
Finnmark
op_relation Solid Earth -- 1869-9529
https://doi.org/10.5194/se-9-923-2018
https://noa.gwlb.de/receive/cop_mods_00005232
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00005189/se-9-923-2018.pdf
https://se.copernicus.org/articles/9/923/2018/se-9-923-2018.pdf
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op_doi https://doi.org/10.5194/se-9-923-2018
container_title Solid Earth
container_volume 9
container_issue 4
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spelling ftnonlinearchiv:oai:noa.gwlb.de:cop_mods_00005232 2023-05-15T13:20:42+02:00 Neoproterozoic and post-Caledonian exhumation and shallow faulting in NW Finnmark from K–Ar dating and p∕T analysis of fault rocks Koehl, Jean-Baptiste P. Bergh, Steffen G. Wemmer, Klaus 2018-07 electronic https://doi.org/10.5194/se-9-923-2018 https://noa.gwlb.de/receive/cop_mods_00005232 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00005189/se-9-923-2018.pdf https://se.copernicus.org/articles/9/923/2018/se-9-923-2018.pdf eng eng Copernicus Publications Solid Earth -- 1869-9529 https://doi.org/10.5194/se-9-923-2018 https://noa.gwlb.de/receive/cop_mods_00005232 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00005189/se-9-923-2018.pdf https://se.copernicus.org/articles/9/923/2018/se-9-923-2018.pdf https://creativecommons.org/licenses/by/4.0/ uneingeschränkt info:eu-repo/semantics/openAccess CC-BY article Verlagsveröffentlichung article Text doc-type:article 2018 ftnonlinearchiv https://doi.org/10.5194/se-9-923-2018 2022-02-08T22:59:42Z Well-preserved fault gouge along brittle faults in Paleoproterozoic, volcano-sedimentary rocks of the Raipas Supergroup exposed in the Alta–Kvænangen tectonic window in northern Norway yielded latest Mesoproterozoic (approximately 1050 ± 15 Ma) to mid-Neoproterozoic (approximately 825–810 ± 18 Ma) K–Ar ages. Pressure–temperature estimates from microtextural and mineralogy analyses of fault rocks indicate that brittle faulting may have initiated at a depth of 5–10 km during the opening of the Asgard Sea in the latest Mesoproterozoic–early Neoproterozoic (approximately 1050–945 Ma) and continued with a phase of shallow faulting to the opening of the Iapetus Ocean–Ægir Sea and the initial breakup of Rodinia in the mid-Neoproterozoic (approximately 825–810 Ma). The predominance and preservation of synkinematic smectite and subsidiary illite in cohesive and non-cohesive fault rocks indicate that Paleoproterozoic basement rocks of the Alta–Kvænangen tectonic window remained at shallow crustal levels (< 3.5 km) and were not reactivated since mid-Neoproterozoic times. Slow exhumation rate estimates for the early–mid-Neoproterozoic (approximately 10–75 m Myr−1) suggest a period of tectonic quiescence between the opening of the Asgard Sea and the breakup of Rodinia. In the Paleozoic, basement rocks in NW Finnmark were overthrusted by Caledonian nappes along low-angle thrust detachments during the closing of the Iapetus Ocean–Ægir Sea. K–Ar dating of non-cohesive fault rocks and microtexture mineralogy of cohesive fault rock truncating Caledonian nappe units show that brittle (reverse) faulting potentially initiated along low-angle Caledonian thrusts during the latest stages of the Caledonian Orogeny in the Silurian (approximately 425 Ma) and was accompanied by epidote–chlorite-rich, stilpnomelane-bearing cataclasite (type 1) indicative of a faulting depth of 10–16 km. Caledonian thrusts were inverted (e.g., Talvik fault) and later truncated by high-angle normal faults (e.g., Langfjorden–Vargsundet fault) during subsequent, late Paleozoic, collapse-related widespread extension in the Late Devonian–early Carboniferous (approximately 375–325 Ma). This faulting period was accompanied by quartz- (type 2), calcite- (type 3) and laumontite-rich cataclasites (type 4), whose cross-cutting relationships indicate a progressive exhumation of Caledonian rocks to zeolite-facies conditions (i.e., depth of 2–8 km). An ultimate period of minor faulting occurred in the late Carboniferous–mid-Permian (315–265 Ma) and exhumed Caledonian rocks to shallow depth at 1–3.5 km. Alternatively, late Carboniferous (?) to early–mid-Permian K–Ar ages may reflect late Paleozoic weathering of the margin. Exhumation rates estimates indicate rapid Silurian–early Carboniferous exhumation and slow exhumation in the late Carboniferous–mid-Permian, supporting decreasing faulting activity from the mid-Carboniferous. NW Finnmark remained tectonically quiet in the Mesozoic–Cenozoic. Article in Journal/Newspaper Alta Finnmark Kvænangen Northern Norway Finnmark Niedersächsisches Online-Archiv NOA Alta Kvænangen ENVELOPE(21.726,21.726,69.931,69.931) Langfjorden ENVELOPE(12.676,12.676,65.378,65.378) Norway Raipas ENVELOPE(23.319,23.319,69.938,69.938) Talvik ENVELOPE(22.949,22.949,70.042,70.042) Solid Earth 9 4 923 951

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