Fluid-assisted zircon and monazite growth within a shear zone: A case study from Finnmark, Arctic Norway

The U-Pb ages, REE content, and oxygen isotopic composition of zircon rims developed within a major shear zone in the Kalak Nappe Complex (KNC), Arctic Norway have been determined along with the age of monazite crystals. Different generations of granitic veins have been distinguished based on both f...

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Published in:Contributions to Mineralogy and Petrology
Main Authors: Kirkland, Chris, Whitehouse, M., Slagstad, T.
Format: Article in Journal/Newspaper
Language:unknown
Published: Springer 2009
Subjects:
Arctic
Kalak
Norway
Finnmark
Online Access:https://hdl.handle.net/20.500.11937/37742
https://doi.org/10.1007/s00410-009-0401-x
id ftcurtin:oai:espace.curtin.edu.au:20.500.11937/37742
record_format openpolar
spelling ftcurtin:oai:espace.curtin.edu.au:20.500.11937/37742 2023-06-11T04:09:20+02:00 Fluid-assisted zircon and monazite growth within a shear zone: A case study from Finnmark, Arctic Norway Kirkland, Chris Whitehouse, M. Slagstad, T. 2009 restricted https://hdl.handle.net/20.500.11937/37742 https://doi.org/10.1007/s00410-009-0401-x unknown Springer http://hdl.handle.net/20.500.11937/37742 doi:10.1007/s00410-009-0401-x Journal Article 2009 ftcurtin https://doi.org/20.500.11937/3774210.1007/s00410-009-0401-x 2023-05-30T19:39:57Z The U-Pb ages, REE content, and oxygen isotopic composition of zircon rims developed within a major shear zone in the Kalak Nappe Complex (KNC), Arctic Norway have been determined along with the age of monazite crystals. Different generations of granitic veins have been distinguished based on both field criteria and monazite ages of 446 ± 3 and 424 ± 3 Ma. Within each of these veins, inherited zircon cores are mantled by homogeneous low CL-response zircon rims which yield a range of concordant U-Pb dates of ca. 470-360 Ma. Significant numbers of zircon rims coincide with the timing of monazite crystallization. The zircon rims have moderate light REE enrichment compared to cores, distinctive (Sm/La)n values of less than 12, and La between 0.3 and 10 ppm. This indicates free elemental exchange between newly formed zircon rims and the surrounding matrix. The rims have calculated accumulated alpha-radiation dosages corresponding with a crystalline structure and d18O values of 1‰. This implies rim crystallization directly from a zirconium-saturated hydrothermal fluid which was modified by some silicate melt. Growth of the zircon rims was prolonged and locally variable due to preferential fluid flow. A third type of zircon can be recognized, forming both rims and cores, with high alpha-radiation doses, and significant enrichment in La, Pr, and Eu. These are interpreted as low-temperature hydrothermally altered metamict zircons. The high volatile input and partial melting in the shear zone favoured prolonged zircon rim growth due to its ability to easily nucleate on inherited seeds. On the other hand, monazite, susceptible to dissolution and re-growth, crystallized in brief episodes, as has been predicted from theoretical phase diagrams. From a regional perspective, these results elucidate cryptic Ar-Ar cooling ages, providing the first record of a Late Ordovician heating and cooling phase within the KNC prior to the climactic Scandian collision. © Springer-Verlag 2009. Article in Journal/Newspaper Arctic Finnmark Finnmark Curtin University: espace Arctic Kalak ENVELOPE(27.055,27.055,70.611,70.611) Norway Contributions to Mineralogy and Petrology 158 5 637 657
institution Open Polar
collection Curtin University: espace
op_collection_id ftcurtin
language unknown
description The U-Pb ages, REE content, and oxygen isotopic composition of zircon rims developed within a major shear zone in the Kalak Nappe Complex (KNC), Arctic Norway have been determined along with the age of monazite crystals. Different generations of granitic veins have been distinguished based on both field criteria and monazite ages of 446 ± 3 and 424 ± 3 Ma. Within each of these veins, inherited zircon cores are mantled by homogeneous low CL-response zircon rims which yield a range of concordant U-Pb dates of ca. 470-360 Ma. Significant numbers of zircon rims coincide with the timing of monazite crystallization. The zircon rims have moderate light REE enrichment compared to cores, distinctive (Sm/La)n values of less than 12, and La between 0.3 and 10 ppm. This indicates free elemental exchange between newly formed zircon rims and the surrounding matrix. The rims have calculated accumulated alpha-radiation dosages corresponding with a crystalline structure and d18O values of 1‰. This implies rim crystallization directly from a zirconium-saturated hydrothermal fluid which was modified by some silicate melt. Growth of the zircon rims was prolonged and locally variable due to preferential fluid flow. A third type of zircon can be recognized, forming both rims and cores, with high alpha-radiation doses, and significant enrichment in La, Pr, and Eu. These are interpreted as low-temperature hydrothermally altered metamict zircons. The high volatile input and partial melting in the shear zone favoured prolonged zircon rim growth due to its ability to easily nucleate on inherited seeds. On the other hand, monazite, susceptible to dissolution and re-growth, crystallized in brief episodes, as has been predicted from theoretical phase diagrams. From a regional perspective, these results elucidate cryptic Ar-Ar cooling ages, providing the first record of a Late Ordovician heating and cooling phase within the KNC prior to the climactic Scandian collision. © Springer-Verlag 2009.
format Article in Journal/Newspaper
author Kirkland, Chris
Whitehouse, M.
Slagstad, T.
spellingShingle Kirkland, Chris
Whitehouse, M.
Slagstad, T.
Fluid-assisted zircon and monazite growth within a shear zone: A case study from Finnmark, Arctic Norway
author_facet Kirkland, Chris
Whitehouse, M.
Slagstad, T.
author_sort Kirkland, Chris
title Fluid-assisted zircon and monazite growth within a shear zone: A case study from Finnmark, Arctic Norway
title_short Fluid-assisted zircon and monazite growth within a shear zone: A case study from Finnmark, Arctic Norway
title_full Fluid-assisted zircon and monazite growth within a shear zone: A case study from Finnmark, Arctic Norway
title_fullStr Fluid-assisted zircon and monazite growth within a shear zone: A case study from Finnmark, Arctic Norway
title_full_unstemmed Fluid-assisted zircon and monazite growth within a shear zone: A case study from Finnmark, Arctic Norway
title_sort fluid-assisted zircon and monazite growth within a shear zone: a case study from finnmark, arctic norway
publisher Springer
publishDate 2009
url https://hdl.handle.net/20.500.11937/37742
https://doi.org/10.1007/s00410-009-0401-x
long_lat ENVELOPE(27.055,27.055,70.611,70.611)
geographic Arctic
Kalak
Norway
geographic_facet Arctic
Kalak
Norway
genre Arctic
Finnmark
Finnmark
genre_facet Arctic
Finnmark
Finnmark
op_relation http://hdl.handle.net/20.500.11937/37742
doi:10.1007/s00410-009-0401-x
op_doi https://doi.org/20.500.11937/3774210.1007/s00410-009-0401-x
container_title Contributions to Mineralogy and Petrology
container_volume 158
container_issue 5
container_start_page 637
op_container_end_page 657
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