关键词: 碳酸岩-碱性杂岩体, 内生稀土矿床, 稀土富集机制, 不混溶, 分离结晶, 热液蚀变

Abstract: The geological characteristics and mineralization of the endogenetic rare earth elements (REE) deposits related with carbonatite-alkaline complexes are reviewed. The REE deposits mainly include primary magmatic and hydrothermal types. The former is relatively rare, and REE minerals crystallized from carbonatite magma. The REE minerals in hydrothermal deposits are intergrowth with calcite, fluorite, barite, quartz. They occur as ore veins intruding carbonatite-alkaline complexes and wall rocks, or as fracture or void filling fine-grained, polycrystalline aggregates overprinting earlier carbonatitic minerals. Previous researches showed that REE mineralization was controlled by the crystallization and accumulation of carbonate minerals during carbonatitc magma-hydrothermal processes. However, REE enrichment mechanism is still debate, i.e. liquid immiscibility of carbonate-silicate magmas, fractional crystallization of carbonate minerals from carbonatite magma, extraction of carbonatitic liquids, and hydrothermal alteration of carbonatites. Note carbonatites normally show light REE enrichment and mineralization, and absent heavy REE minerals. Therefore, high temperature and pressure experiments on REE partition coefficients between volatile-rich carbonate and alkaline silicate melts or fluids, and REE partition behavior between carbonate and co-precipitating minerals during carbonatite magma evolution, will be a key to reveal the REE mineralization mechanism.

Key words: carbonatite-alkaline complex, endogenetic REE deposits, REE enrichment mechanism, immiscibility, fractional crystallization, hydrothermal alteration