Retentiveness of rare earth elements in garnet with implications for garnet Lu‐Hf chronology

Smit, Matthijs A.; Vrijmoed, Johannes C.; Scherer, Erik E.; Mezger, Klaus; Kooijman, Ellen; Schmitt‐Kielman, Melanie; Tual, Lorraine; Guilmette, Carl; Ratschbacher, Lothar

doi:10.1111/jmg.12769

Journal Metamorphic Geology

2024

DOI: 10.1111/jmg.12769

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Retentiveness of rare earth elements in garnet with implications for garnet Lu‐Hf chronology

Matthijs A. Smit,

Johannes C. Vrijmoed,

Erik E. Scherer

et al.

Abstract: Incorporation of rare earth elements (REE) in garnet enables garnet chronology (Sm‐Nd, Lu‐Hf), and imparts a garnet‐stable signature on cogenetic phases, which allows petrochronology and general petrogenetic tracing of garnet stability in minerals and melts. Constraints on the uptake and redistribution mechanisms, as well as on the diffusive behaviour of REE in garnet are required for allowing accurate interpretation of REE signatures and ages. Garnet REE profiles are often measured to gain insight into the na… Show more

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Cited by 4 publications

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Eoarchean granulite-facies metamorphism in the Itsaq Gneiss Complex, southwest Greenland

Alfing,

Johnson,

Kaempf

et al. 2024

Earth and Planetary Science Letters

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Eoarchean granulite-facies metamorphism in the Itsaq Gneiss Complex, southwest Greenland

Alfing,

Johnson,

Kaempf

et al. 2024

Earth and Planetary Science Letters

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An Ediacaran orogeny in subglacial East Antarctica is uncovered by detrital garnet geochronology

Verhaert,

Glorie,

Hand

et al. 2024

Commun Earth Environ

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Detrital minerals provide valuable insights into the tectonic history of continents. Uranium-lead dating of detrital zircon is widely used to characterize the magmatic history of continents but is generally insensitive to metamorphism accompanying the production and reworking of crust during orogenesis. Garnet is the most important mineral for recording prograde and peak orogenic metamorphism and can occur as a common detrital phase. Here, we demonstrate laser-ablation lutetium-hafnium (Lu-Hf) geochronology of detrital garnet as a provenance tool for reconstructing orogenic histories at (super)continental scales. Detrital garnet (n = 557) from modern sands and Permo-Carboniferous glacial strata in South Australia faithfully record local garnet-grade metamorphic events but also include a major population at ca. 590 million-years with no known source in South Australia. We trace the ca. 590 million-year-old detrital garnets to a largely ice-covered orogenic province in East Antarctica, uncovering the inception of convergent margin tectonism along the palaeo-Pacific margin of Gondwana.

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In Situ Lu–Hf Garnet Dating of Archean Deep Crust Granulites from the Polymetamorphic Grenville Front Tectonic Zone

Godet,

Jouvent,

Laureijs

et al. 2024

Journal of Petrology

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Recent advances in geochronological techniques now allow the ability to efficiently decipher the timing and duration of geological processes in complex high-grade polymetamorphosed orogenic terranes. This is the case of the Grenville Front Tectonic Zone, which truncates the Superior Craton to the southeast. The zone exposes parautochtonous Archean rocks that underwent mid- to high-pressure granulite facies metamorphism of uncertain age. The metamorphic assemblages have been either interpreted as Archean and associated with the final stages of the Superior craton assembly, or as the result of Mesoproterozoic Grenvillian metamorphism, based on cross-cutting relationships and traditional geochronology methods such as U-Pb zircon and 40Ar-39Ar mica dating. Herein, we revisit the extent of the Grenvillian metamorphic overprint in the parautochtonous domain and provide new age constraints for granulite-facies metamorphic assemblages through in-situ garnet dating within migmatitic paragneiss, migmatitic orthogneiss, and mafic granulites, combined with in-situ trace element mapping. Six samples, which show bell-shaped and occasionally sharp and oscillatory lutetium growth zoning in garnet, yield garnet Lu-Hf isochrons with identical Archean dates of c. 2.6 Ga. Sparce analyses of material trend toward Grenvillian ages (c. 1 Ga) in one sample from which garnet shows lutetium zoning consistent with post-growth fluid-assisted disturbance. Overall, our results indicate that the widespread granulite-facies metamorphism within the Grenville Front Tectonic Zone is dominantly late Neoarchean in age, unveiling a rare exposure of Archean lower crust in the southeastern Superior Craton. Our results also point towards a limited Grenvillian metamorphic overprint though the spatial extent and precise thermal conditions of this metamorphism are still unknown. The results presented herein demonstrate the potential of in-situ isotopic geochronology on rock-forming minerals like garnet in polymetamorphic terranes.

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Retentiveness of rare earth elements in garnet with implications for garnet Lu‐Hf chronology

Cited by 4 publications

References 128 publications

Eoarchean granulite-facies metamorphism in the Itsaq Gneiss Complex, southwest Greenland

Eoarchean granulite-facies metamorphism in the Itsaq Gneiss Complex, southwest Greenland

An Ediacaran orogeny in subglacial East Antarctica is uncovered by detrital garnet geochronology

In Situ Lu–Hf Garnet Dating of Archean Deep Crust Granulites from the Polymetamorphic Grenville Front Tectonic Zone

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