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稀土碳酸盐矿物成因探索OA

Research on formation of rare earth carbonates:Experimental study on replacement reaction of calcite

中文摘要英文摘要

矿物替代反应在碳酸岩型稀土矿床的成矿过程中起着重要的作用,反映了系统演化过程中环境条件或流体成分的变化.因稀土元素离子与钙离子尺寸范围接近,方解石可在含稀土元素的水热溶液作用下转化成为稀土碳酸盐矿物.在Ce3+与H2O的共同作用下,方解石可随着热液温度的升高逐步转化成为镧石[Ce2(CO3)3·8 H2O](常温)→钙碳锶铈矿[CaCe(CO3)2(OH)·H2O](70~110℃)→羟碳铈矿[Ce(CO3)(OH)](150~165℃)→方铈矿(CeO2)(200~250℃).水在稀土碳酸盐矿物中表现出的不同结合形态能有效反映环境温度.F-、Ce3+和H2O的共同参与可加速稀土碳酸盐矿物替代方解石,在常温条件下即可转化成稳定的氟碳铈矿[Ce(CO3)F]相,但氟不易替代钙碳锶铈矿中的羟基占位而继续转化成为氟碳铈矿.F-、OH-以及CO32-是稀土元素结合的重要配位体,对于热液环境中稀土元素的迁移、转化及固定起着重要的作用.

Mineral replacement reactions play an important role in the rare earth mineralization process of carbon-atites,which reflect changes in the environmental conditions or fluid composition during the evolution of the sys-tem.Due to the close ionic size range of rare earth element ions and calcium ions,calcite can be transformed into rare earth carbonates under the action of hydrothermal solution containing rare earth element.Under the combined action of Ce3+and H2O,calcite can be gradually transformed into lanthanite[Ce2(CO3)3·8 H2O](room tempera-ture)→ calcioancylite[CaCe(CO3)2(OH)·H2O](70~110℃)→ hydrobastnäsite[Ce(CO3)(OH)](150~165℃)→cerianite(CeO2)(200~250℃).The different binding forms of water in rare earth carbonate minerals can effectively reflect the ambient temperature.The co-participation of F-,Ce3+and H2O can accelerate calcite to transform to rare earth minerals.Calcite can be converted into stable bastnäsite phase at room temperature,but flu-orine is not easy to replace the hydroxy occupation in calcioancylite for further transformation into bastnäsite.F-,OH-and CO32-are important ligands responsible for the binding of rare earth elements,and play an important role in the migration,transformation and fixation of REEs in hydrothermal environment.

范晨子;曾普胜

国家地质实验测试中心,深地探测与矿产勘查全国重点实验室,北京 100037中国地质调查局微区与形态分析重点实验室,北京 100037

天文与地球科学

方解石稀土碳酸盐热液矿物成因

calciterare earthcarbonatefluidmineral genesis

《岩石矿物学杂志》 2026 (1)

113-122,10

中国地质科学院基本科研业务费项目(JKYZD202324)中国地质调查项目(DD20242852) Fundamental Research Project of Chinese Academy of Geological Sciences(JKYZD202324)China Geological Survey Project(DD20242852)

10.20086/j.cnki.yskw.2026.5030

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