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Understanding rare earth elements in heavy mineral sand systems

Sidy Morin-Ka, Ignacio González-Álvarez, Paul Duuring, Christopher M. Gonzalez

2025Journal of Geochemical Exploration11 citationsDOIOpen Access PDF

Abstract

Heavy mineral sands (HMS) represent an alternative major resource of Rare Earth Elements (REE) deposits with over 90 % of these formed within the past 66 Myr. These deposits exhibit a diverse range of mineral compositions (i.e. ilmenite , rutile, zircon , monazite , xenotime , and garnet) and can be formed from a wide range of geological and surficial processes. However, few studies examined the in-depth geological characteristics and exploration strategies to specifically target HMS mineralisation, and particularly none have specifically focussed on the REE component of these deposits. Here we show a total of 1173 REE-HMS deposits that exhibit diverse heavy mineral compositions. The largest REE-HMS deposits show an average heavy mineral grade of 7 % (SD = 12) and an average resource size of 1337 Mt. (SD = 1932). REE-HMS deposits commonly concentrate along Quaternary coastlines that cluster within a 100 km radius and predominate in tropical humid areas within 25 degrees north and south of the Equator. Yet, 40 % of large REE-HMS deposits formed during the Neogene, Paleogene , and Cretaceous situated inland from modern coastlines. Another feature of REE-HMS clusters shows that coastal areas that are protected from major global oceanic currents show a higher prevalence than regions that remain unprotected. REE-HMS deposits originate from rocks found in high-grade metamorphic belts, orogenic belts , and cratons , transported by wind and well-developed river systems, particularly in tropical and humid climates. This study highlights the importance of geological, climatic, and surface process factors in shaping the distribution of REE-HMS deposits. Furthermore, we also consider socioeconomic factors, such as land accessibility, politics, exploration maturity, and market demand playing crucial roles. A mineral exploration approach is proposed that emphasises the use of specific datasets and exploration methodologies tailored to the footprints of REE-HMS deposits. Overall, this study's findings contribute to a better understanding of REE-HMS deposits, providing insights for future exploration and resource management.

Topics & Concepts

Rare earthGeologyMineralGeochemistryEarth scienceEarth (classical element)Heavy mineralMining engineeringMineralogyAstrobiologyMetallurgyMaterials scienceProvenancePhysicsMathematical physicsGeochemistry and Elemental AnalysisGeological and Geochemical AnalysisGeochemistry and Geologic Mapping
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