Formation of rare earth deposits in carbonatites

Formation of rare earth deposits in carbonatites

Carbonatites and related rocks are the premier source for light rare earth element (LREE) deposits. Here, we outline an ore formation model for LREE-mineralized carbonatites, reconciling field and petrological observations with recent experimental and isotopic advances. The LREEs can strongly partit...

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Veröffentlicht in:Elements (Quebec) 2021-10, Vol.17 (5), p.327-332
Hauptverfasser: Anenburg, Michael, Broom-Fendley, Sam, Chen Wei, Chen Wei
Format: Artikel
Sprache:eng
Schlagworte:
alkalinity
burbankite
carbonatites
crystal fractionation
Economic geology
fractional crystallization
hydrothermal alteration
igneous and metamorphic rocks
igneous rocks
magmas
mantle
melts
metal ores
metals
metasomatism
mineral deposits, genesis
mineralization
ore-forming fluids
P-T conditions
partitioning
Petrology
rare earth deposits
rare earths
silicate melts
solution
weathering
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Zusammenfassung:Carbonatites and related rocks are the premier source for light rare earth element (LREE) deposits. Here, we outline an ore formation model for LREE-mineralized carbonatites, reconciling field and petrological observations with recent experimental and isotopic advances. The LREEs can strongly partition to carbonatite melts, which are either directly mantle-derived or immiscible from silicate melts. As carbonatite melts evolve, alkalis and LREEs concentrate in the residual melt due to their incompatibility in early crystallizing minerals. In most carbonatites, additional fractionation of calcite or ferroan dolomite leads to evolution of the residual liquid into a mobile alkaline "brine-melt" from which primary alkali REE carbonates can form. These primary carbonates are rarely preserved owing to dissolution by later fluids, and are replaced in-situ by monazite and alkali-free REE-(fluor)carbonates.
ISSN:1811-5209
1811-5217
DOI:10.2138/gselements.17.5.327