An Iapetus origin for a layered eclogite complex in the northern Western Gneiss Region, Scandinavian Caledonides

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An Iapetus origin for a layered eclogite complex in the northern Western Gneiss Region, Scandinavian Caledonides. / Möller, Charlotte; Cai, Yue; Brueckner, Hannes K.; Szilas, Kristoffer; Whitehouse, Martin J.

I: Journal of Metamorphic Geology, Bind 42, Nr. 3, 2024, s. 319-354.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Möller, C, Cai, Y, Brueckner, HK, Szilas, K & Whitehouse, MJ 2024, 'An Iapetus origin for a layered eclogite complex in the northern Western Gneiss Region, Scandinavian Caledonides', Journal of Metamorphic Geology, bind 42, nr. 3, s. 319-354. https://doi.org/10.1111/jmg.12757

APA

Möller, C., Cai, Y., Brueckner, H. K., Szilas, K., & Whitehouse, M. J. (2024). An Iapetus origin for a layered eclogite complex in the northern Western Gneiss Region, Scandinavian Caledonides. Journal of Metamorphic Geology, 42(3), 319-354. https://doi.org/10.1111/jmg.12757

Vancouver

Möller C, Cai Y, Brueckner HK, Szilas K, Whitehouse MJ. An Iapetus origin for a layered eclogite complex in the northern Western Gneiss Region, Scandinavian Caledonides. Journal of Metamorphic Geology. 2024;42(3):319-354. https://doi.org/10.1111/jmg.12757

Author

Möller, Charlotte ; Cai, Yue ; Brueckner, Hannes K. ; Szilas, Kristoffer ; Whitehouse, Martin J. / An Iapetus origin for a layered eclogite complex in the northern Western Gneiss Region, Scandinavian Caledonides. I: Journal of Metamorphic Geology. 2024 ; Bind 42, Nr. 3. s. 319-354.

Bibtex

@article{961ef19d7e184a60ae571bfbae880ddc,
title = "An Iapetus origin for a layered eclogite complex in the northern Western Gneiss Region, Scandinavian Caledonides",
abstract = "The Western Gneiss Region (WGR) is a Precambrian basement domain in the Scandinavian Caledonides and one of the world's largest high- and ultrahigh-pressure terranes. The south–central WGR underwent regional eclogite facies metamorphism 415–400 Ma ago when Baltica subducted beneath Laurentia, during the Scandian orogeny. Eclogites in the WGR group into two traditional types: (1) Precambrian mafic intrusions metamorphosed in situ during Scandian continental subduction and (2) eclogites, garnet peridotites and garnet pyroxenites within ultramafic complexes derived from the subcontinental mantle beneath Laurentia. We document, using field relations, petrography, whole-rock geochemistry and secondary ion mass spectrometry (SIMS) zircon geochronology, a hitherto unrecognized third type of eclogite in the WGR that places new constraints on its tectonic architecture: an eclogitized fragment of oceanic crust from the Iapetus Ocean. The Kr{\aa}kfjord eclogite complex is a km2-sized body with an interior consisting of kyanite eclogite (meta-troctolite) and subordinate layers and lenses of garnet peridotite, garnet websterite and kyanite–garnet leucotonalite. This interior is capped by Fe–Ti-rich eclogite, which locally contains subordinate pockets of migmatitic aluminous gneiss. The elemental abundances and isotopic compositions of the Fe–Ti-rich eclogites resemble those of mid-ocean ridge basalt (MORB). In contrast, the interior kyanite eclogites, peridotites and pyroxenites have compositions similar to the gabbroic cumulates in the lower oceanic crust of slow-spreading ridges. U–Pb SIMS dating of igneous zircon cores from a leucotonalite pod in the interior of the Kr{\aa}kfjord complex yields Cambro-Ordovician igneous ages of 500–440 Ma, with the ~500 Ma age interpreted as the isotopically undisturbed age. This age matches those of Iapetan oceanic rocks exposed elsewhere in the mountain belt. Metamorphic zircon from an Fe–Ti-rich eclogite in the carapace of the Kr{\aa}kfjord complex dates the eclogite facies metamorphism at 421.9 ± 2.2 Ma, synchronous with the continental collision. Zircon from a leucosome in Fe–Ti-rich retro-eclogite indicates an age of 408.5 ± 2 Ma for the crystallization of partial melt following the decompression. Detrital zircon core ages from a pocket of aluminous migmatitic gneiss in the carapace indicate derivation of sediment from the Baltic crust. Collectively, the data show that the eclogite complex (1) originated at an Iapetus spreading centre near the continent Baltica, (2) subducted to eclogite conditions during Scandian continental collision and (3) was tectonically intercalated with the Precambrian Baltica basement of the WGR.",
keywords = "continental collision, eclogite metamorphism, oceanic extension, Sr–Nd isotopes, whole-rock geochemistry, zircon geochronology",
author = "Charlotte M{\"o}ller and Yue Cai and Brueckner, {Hannes K.} and Kristoffer Szilas and Whitehouse, {Martin J.}",
note = "Funding Information: SIMS zircon analysis and whole‐rock geochemical analysis of the Kr{\aa}kfjord rocks were funded by a grant (No. 20190920) from the Crafoord Foundation (Crafoordska Stiftelsen) to CM. This publication also includes data and materials collected during CM's PhD thesis project in 1984–1990. Thanks go to Leif Johansson for help with whole‐rock sampling and field company in the Roan area and for help during zircon separation. We acknowledge NordSIMS‐Vegacenter for provision of facilities and experimental support, and we thank Kerstin Lind{\'e}n and Heejin Jeon for assistance. NordSIMS‐Vegacenter is funded by the Swedish Research Council as a national research infrastructure (Dnr. 2021‐00276). Thanks go to two journal reviewers for their insightful and constructive comments, which helped us improve the manuscript. This is NordSIMS Publication No. 740. Publisher Copyright: {\textcopyright} 2024 The Authors. Journal of Metamorphic Geology published by John Wiley & Sons Ltd.",
year = "2024",
doi = "10.1111/jmg.12757",
language = "English",
volume = "42",
pages = "319--354",
journal = "Journal of Metamorphic Geology",
issn = "0263-4929",
publisher = "Wiley-Blackwell",
number = "3",

}

RIS

TY - JOUR

T1 - An Iapetus origin for a layered eclogite complex in the northern Western Gneiss Region, Scandinavian Caledonides

AU - Möller, Charlotte

AU - Cai, Yue

AU - Brueckner, Hannes K.

AU - Szilas, Kristoffer

AU - Whitehouse, Martin J.

N1 - Funding Information: SIMS zircon analysis and whole‐rock geochemical analysis of the Kråkfjord rocks were funded by a grant (No. 20190920) from the Crafoord Foundation (Crafoordska Stiftelsen) to CM. This publication also includes data and materials collected during CM's PhD thesis project in 1984–1990. Thanks go to Leif Johansson for help with whole‐rock sampling and field company in the Roan area and for help during zircon separation. We acknowledge NordSIMS‐Vegacenter for provision of facilities and experimental support, and we thank Kerstin Lindén and Heejin Jeon for assistance. NordSIMS‐Vegacenter is funded by the Swedish Research Council as a national research infrastructure (Dnr. 2021‐00276). Thanks go to two journal reviewers for their insightful and constructive comments, which helped us improve the manuscript. This is NordSIMS Publication No. 740. Publisher Copyright: © 2024 The Authors. Journal of Metamorphic Geology published by John Wiley & Sons Ltd.

PY - 2024

Y1 - 2024

N2 - The Western Gneiss Region (WGR) is a Precambrian basement domain in the Scandinavian Caledonides and one of the world's largest high- and ultrahigh-pressure terranes. The south–central WGR underwent regional eclogite facies metamorphism 415–400 Ma ago when Baltica subducted beneath Laurentia, during the Scandian orogeny. Eclogites in the WGR group into two traditional types: (1) Precambrian mafic intrusions metamorphosed in situ during Scandian continental subduction and (2) eclogites, garnet peridotites and garnet pyroxenites within ultramafic complexes derived from the subcontinental mantle beneath Laurentia. We document, using field relations, petrography, whole-rock geochemistry and secondary ion mass spectrometry (SIMS) zircon geochronology, a hitherto unrecognized third type of eclogite in the WGR that places new constraints on its tectonic architecture: an eclogitized fragment of oceanic crust from the Iapetus Ocean. The Kråkfjord eclogite complex is a km2-sized body with an interior consisting of kyanite eclogite (meta-troctolite) and subordinate layers and lenses of garnet peridotite, garnet websterite and kyanite–garnet leucotonalite. This interior is capped by Fe–Ti-rich eclogite, which locally contains subordinate pockets of migmatitic aluminous gneiss. The elemental abundances and isotopic compositions of the Fe–Ti-rich eclogites resemble those of mid-ocean ridge basalt (MORB). In contrast, the interior kyanite eclogites, peridotites and pyroxenites have compositions similar to the gabbroic cumulates in the lower oceanic crust of slow-spreading ridges. U–Pb SIMS dating of igneous zircon cores from a leucotonalite pod in the interior of the Kråkfjord complex yields Cambro-Ordovician igneous ages of 500–440 Ma, with the ~500 Ma age interpreted as the isotopically undisturbed age. This age matches those of Iapetan oceanic rocks exposed elsewhere in the mountain belt. Metamorphic zircon from an Fe–Ti-rich eclogite in the carapace of the Kråkfjord complex dates the eclogite facies metamorphism at 421.9 ± 2.2 Ma, synchronous with the continental collision. Zircon from a leucosome in Fe–Ti-rich retro-eclogite indicates an age of 408.5 ± 2 Ma for the crystallization of partial melt following the decompression. Detrital zircon core ages from a pocket of aluminous migmatitic gneiss in the carapace indicate derivation of sediment from the Baltic crust. Collectively, the data show that the eclogite complex (1) originated at an Iapetus spreading centre near the continent Baltica, (2) subducted to eclogite conditions during Scandian continental collision and (3) was tectonically intercalated with the Precambrian Baltica basement of the WGR.

AB - The Western Gneiss Region (WGR) is a Precambrian basement domain in the Scandinavian Caledonides and one of the world's largest high- and ultrahigh-pressure terranes. The south–central WGR underwent regional eclogite facies metamorphism 415–400 Ma ago when Baltica subducted beneath Laurentia, during the Scandian orogeny. Eclogites in the WGR group into two traditional types: (1) Precambrian mafic intrusions metamorphosed in situ during Scandian continental subduction and (2) eclogites, garnet peridotites and garnet pyroxenites within ultramafic complexes derived from the subcontinental mantle beneath Laurentia. We document, using field relations, petrography, whole-rock geochemistry and secondary ion mass spectrometry (SIMS) zircon geochronology, a hitherto unrecognized third type of eclogite in the WGR that places new constraints on its tectonic architecture: an eclogitized fragment of oceanic crust from the Iapetus Ocean. The Kråkfjord eclogite complex is a km2-sized body with an interior consisting of kyanite eclogite (meta-troctolite) and subordinate layers and lenses of garnet peridotite, garnet websterite and kyanite–garnet leucotonalite. This interior is capped by Fe–Ti-rich eclogite, which locally contains subordinate pockets of migmatitic aluminous gneiss. The elemental abundances and isotopic compositions of the Fe–Ti-rich eclogites resemble those of mid-ocean ridge basalt (MORB). In contrast, the interior kyanite eclogites, peridotites and pyroxenites have compositions similar to the gabbroic cumulates in the lower oceanic crust of slow-spreading ridges. U–Pb SIMS dating of igneous zircon cores from a leucotonalite pod in the interior of the Kråkfjord complex yields Cambro-Ordovician igneous ages of 500–440 Ma, with the ~500 Ma age interpreted as the isotopically undisturbed age. This age matches those of Iapetan oceanic rocks exposed elsewhere in the mountain belt. Metamorphic zircon from an Fe–Ti-rich eclogite in the carapace of the Kråkfjord complex dates the eclogite facies metamorphism at 421.9 ± 2.2 Ma, synchronous with the continental collision. Zircon from a leucosome in Fe–Ti-rich retro-eclogite indicates an age of 408.5 ± 2 Ma for the crystallization of partial melt following the decompression. Detrital zircon core ages from a pocket of aluminous migmatitic gneiss in the carapace indicate derivation of sediment from the Baltic crust. Collectively, the data show that the eclogite complex (1) originated at an Iapetus spreading centre near the continent Baltica, (2) subducted to eclogite conditions during Scandian continental collision and (3) was tectonically intercalated with the Precambrian Baltica basement of the WGR.

KW - continental collision

KW - eclogite metamorphism

KW - oceanic extension

KW - Sr–Nd isotopes

KW - whole-rock geochemistry

KW - zircon geochronology

U2 - 10.1111/jmg.12757

DO - 10.1111/jmg.12757

M3 - Journal article

AN - SCOPUS:85182442073

VL - 42

SP - 319

EP - 354

JO - Journal of Metamorphic Geology

JF - Journal of Metamorphic Geology

SN - 0263-4929

IS - 3

ER -

ID: 380732674