Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up

While basaltic volcanism is dominant during rifting and continental breakup, felsic magmatism may be a significant component of some rift margins. During International Ocean Discovery Program (IODP) Expedition 396 on the continental margin of Norway, a graphite-garnet-cordierite bearing dacitic unit...

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Published in:Geochemistry, Geophysics, Geosystems
Main Authors: Morris, A. M., Lambart, S., Stearns, M. A., Bowman, J. R., Jones, M. T., Mohn, G., Andrews, G., Millett, J., Tegner, C., Chatterjee, S., Frieling, J., Guo, P., Jolley, D. W., Cunningham, E. H., Berndt, C., Planke, S., Alvarez Zarikian, C. A., Betlem, P., Brinkhuis, H., Christopoulou, M., Ferré, E., Filina, I. Y., Harper, D. T., Longman, J., Scherer, R. P., Varela, N., Xu, W., Yager, S. L., Agarwal, A., Clementi, V. J.
Format: Article in Journal/Newspaper
Language:English
Published: 2024
Subjects:
continental break-up
crustal anatexis
IODP Site U1570
Mimir High
NAIP
Northeast Atlantic
Online Access:https://pure.au.dk/portal/en/publications/dd2be3e1-3f49-48b2-ab14-87a997696385
https://doi.org/10.1029/2023GC011413
http://www.scopus.com/inward/record.url?scp=85197476125&partnerID=8YFLogxK
id ftuniaarhuspubl:oai:pure.atira.dk:publications/dd2be3e1-3f49-48b2-ab14-87a997696385
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spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/dd2be3e1-3f49-48b2-ab14-87a997696385 2024-09-15T18:25:21+00:00 Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up Morris, A. M. Lambart, S. Stearns, M. A. Bowman, J. R. Jones, M. T. Mohn, G. Andrews, G. Millett, J. Tegner, C. Chatterjee, S. Frieling, J. Guo, P. Jolley, D. W. Cunningham, E. H. Berndt, C. Planke, S. Alvarez Zarikian, C. A. Betlem, P. Brinkhuis, H. Christopoulou, M. Ferré, E. Filina, I. Y. Harper, D. T. Longman, J. Scherer, R. P. Varela, N. Xu, W. Yager, S. L. Agarwal, A. Clementi, V. J. 2024-07 https://pure.au.dk/portal/en/publications/dd2be3e1-3f49-48b2-ab14-87a997696385 https://doi.org/10.1029/2023GC011413 http://www.scopus.com/inward/record.url?scp=85197476125&partnerID=8YFLogxK eng eng https://pure.au.dk/portal/en/publications/dd2be3e1-3f49-48b2-ab14-87a997696385 info:eu-repo/semantics/openAccess Morris , A M , Lambart , S , Stearns , M A , Bowman , J R , Jones , M T , Mohn , G , Andrews , G , Millett , J , Tegner , C , Chatterjee , S , Frieling , J , Guo , P , Jolley , D W , Cunningham , E H , Berndt , C , Planke , S , Alvarez Zarikian , C A , Betlem , P , Brinkhuis , H , Christopoulou , M , Ferré , E , Filina , I Y , Harper , D T , Longman , J , Scherer , R P , Varela , N , Xu , W , Yager , S L , Agarwal , A & Clementi , V J 2024 , ' Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up ' , Geochemistry, Geophysics, Geosystems , vol. 25 , no. 7 , e2023GC011413 . https://doi.org/10.1029/2023GC011413 continental break-up crustal anatexis IODP Site U1570 Mimir High NAIP article 2024 ftuniaarhuspubl https://doi.org/10.1029/2023GC011413 2024-07-24T23:40:32Z While basaltic volcanism is dominant during rifting and continental breakup, felsic magmatism may be a significant component of some rift margins. During International Ocean Discovery Program (IODP) Expedition 396 on the continental margin of Norway, a graphite-garnet-cordierite bearing dacitic unit (the Mimir dacite) was recovered in two holes within early Eocene sediments on Mimir High (Site U1570), a marginal high on the Vøring Transform Margin. Here, we present a comprehensive textural, petrological, and geochemical study of the Mimir dacite in order to assess its origin and discuss the geodynamic implications. The major mineral phases (garnet, cordierite, quartz, plagioclase, alkali feldspar) are hosted in a fresh rhyolitic, vesicular, glassy matrix that is locally mingled with sediments. The major element chemistry of garnet and cordierite, the presence of zircon inclusions with inherited cores, and thermobarometric calculations all support an upper crustal metapelitic origin. While most magma-rich margin models favor crustal anatexis in the lower crust, thermobarometric calculations performed here show that the Mimir dacite was produced at upper-crustal depths (<5 kbar, 18 km depth) and high temperature (750–800°C) with up to 3 wt% water content. In situ U-Pb analyses on zircon inclusions give a magmatic crystallization age of 54.6 ± 1.1 Ma, consistent with emplacement that post-dates the Paleocene-Eocene Thermal Maximum. Our results suggest that the opening of the Northeast Atlantic was associated with a phase of low-pressure, high-temperature crustal anatexis preceding the main phase of magmatism. Article in Journal/Newspaper Northeast Atlantic Aarhus University: Research Geochemistry, Geophysics, Geosystems 25 7
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
topic continental break-up
crustal anatexis
IODP Site U1570
Mimir High
NAIP
spellingShingle continental break-up
crustal anatexis
IODP Site U1570
Mimir High
NAIP
Morris, A. M.
Lambart, S.
Stearns, M. A.
Bowman, J. R.
Jones, M. T.
Mohn, G.
Andrews, G.
Millett, J.
Tegner, C.
Chatterjee, S.
Frieling, J.
Guo, P.
Jolley, D. W.
Cunningham, E. H.
Berndt, C.
Planke, S.
Alvarez Zarikian, C. A.
Betlem, P.
Brinkhuis, H.
Christopoulou, M.
Ferré, E.
Filina, I. Y.
Harper, D. T.
Longman, J.
Scherer, R. P.
Varela, N.
Xu, W.
Yager, S. L.
Agarwal, A.
Clementi, V. J.
Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up
topic_facet continental break-up
crustal anatexis
IODP Site U1570
Mimir High
NAIP
description While basaltic volcanism is dominant during rifting and continental breakup, felsic magmatism may be a significant component of some rift margins. During International Ocean Discovery Program (IODP) Expedition 396 on the continental margin of Norway, a graphite-garnet-cordierite bearing dacitic unit (the Mimir dacite) was recovered in two holes within early Eocene sediments on Mimir High (Site U1570), a marginal high on the Vøring Transform Margin. Here, we present a comprehensive textural, petrological, and geochemical study of the Mimir dacite in order to assess its origin and discuss the geodynamic implications. The major mineral phases (garnet, cordierite, quartz, plagioclase, alkali feldspar) are hosted in a fresh rhyolitic, vesicular, glassy matrix that is locally mingled with sediments. The major element chemistry of garnet and cordierite, the presence of zircon inclusions with inherited cores, and thermobarometric calculations all support an upper crustal metapelitic origin. While most magma-rich margin models favor crustal anatexis in the lower crust, thermobarometric calculations performed here show that the Mimir dacite was produced at upper-crustal depths (<5 kbar, 18 km depth) and high temperature (750–800°C) with up to 3 wt% water content. In situ U-Pb analyses on zircon inclusions give a magmatic crystallization age of 54.6 ± 1.1 Ma, consistent with emplacement that post-dates the Paleocene-Eocene Thermal Maximum. Our results suggest that the opening of the Northeast Atlantic was associated with a phase of low-pressure, high-temperature crustal anatexis preceding the main phase of magmatism.
format Article in Journal/Newspaper
author Morris, A. M.
Lambart, S.
Stearns, M. A.
Bowman, J. R.
Jones, M. T.
Mohn, G.
Andrews, G.
Millett, J.
Tegner, C.
Chatterjee, S.
Frieling, J.
Guo, P.
Jolley, D. W.
Cunningham, E. H.
Berndt, C.
Planke, S.
Alvarez Zarikian, C. A.
Betlem, P.
Brinkhuis, H.
Christopoulou, M.
Ferré, E.
Filina, I. Y.
Harper, D. T.
Longman, J.
Scherer, R. P.
Varela, N.
Xu, W.
Yager, S. L.
Agarwal, A.
Clementi, V. J.
author_facet Morris, A. M.
Lambart, S.
Stearns, M. A.
Bowman, J. R.
Jones, M. T.
Mohn, G.
Andrews, G.
Millett, J.
Tegner, C.
Chatterjee, S.
Frieling, J.
Guo, P.
Jolley, D. W.
Cunningham, E. H.
Berndt, C.
Planke, S.
Alvarez Zarikian, C. A.
Betlem, P.
Brinkhuis, H.
Christopoulou, M.
Ferré, E.
Filina, I. Y.
Harper, D. T.
Longman, J.
Scherer, R. P.
Varela, N.
Xu, W.
Yager, S. L.
Agarwal, A.
Clementi, V. J.
author_sort Morris, A. M.
title Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up
title_short Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up
title_full Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up
title_fullStr Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up
title_full_unstemmed Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up
title_sort evidence for low-pressure crustal anatexis during the northeast atlantic break-up
publishDate 2024
url https://pure.au.dk/portal/en/publications/dd2be3e1-3f49-48b2-ab14-87a997696385
https://doi.org/10.1029/2023GC011413
http://www.scopus.com/inward/record.url?scp=85197476125&partnerID=8YFLogxK
genre Northeast Atlantic
genre_facet Northeast Atlantic
op_source Morris , A M , Lambart , S , Stearns , M A , Bowman , J R , Jones , M T , Mohn , G , Andrews , G , Millett , J , Tegner , C , Chatterjee , S , Frieling , J , Guo , P , Jolley , D W , Cunningham , E H , Berndt , C , Planke , S , Alvarez Zarikian , C A , Betlem , P , Brinkhuis , H , Christopoulou , M , Ferré , E , Filina , I Y , Harper , D T , Longman , J , Scherer , R P , Varela , N , Xu , W , Yager , S L , Agarwal , A & Clementi , V J 2024 , ' Evidence for Low-Pressure Crustal Anatexis During the Northeast Atlantic Break-Up ' , Geochemistry, Geophysics, Geosystems , vol. 25 , no. 7 , e2023GC011413 . https://doi.org/10.1029/2023GC011413
op_relation https://pure.au.dk/portal/en/publications/dd2be3e1-3f49-48b2-ab14-87a997696385
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1029/2023GC011413
container_title Geochemistry, Geophysics, Geosystems
container_volume 25
container_issue 7
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