Hydrothermal mineral replacement of bastnäsite by rhabdophane and monazite: effects of temperature on mineralogy, REE immobilisation, and fractionation

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Contributions to Mineralogy and Petrology Pub Date : 2024-11-05 DOI:10.1007/s00410-024-02183-4
Manuel Knorsch, Tobias G. Bamforth, Fang Xia, Artur P. Deditius, Mark A. Pearce, Louise Schoneveld, Malcolm P. Roberts
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Abstract

The rare-earth elements (REEs, La–Lu, Y) are essential for the development of renewable technologies. Bastnäsite (REECO3F) is a common REE ore mineral that is often subject to hydrothermal alteration at all crustal levels. Mechanisms of hydrothermal bastnäsite alteration therefore govern the evolution of REE deposits, though these mechanisms remain poorly understood. This experimental work investigates the hydrothermal replacement of bastnäsite by rhabdophane (REEPO4∙xH2O, x = 0–1) and monazite (REEPO4) in phosphatic fluids. Two temperature-dependent alteration pathways were identified; both follow the coupled dissolution-reprecipitation (CDR) mechanism. At 90 °C, bastnäsite was replaced by highly-porous metastable rhabdophane which was then replaced by monazite, forming an inner layer of rhabdophane and an outer layer of monazite. At 220 °C, bastnäsite was replaced directly by monazite. Although replacement initiated more quickly at 220 °C, greater overall replacement occurred at 90 °C (~ 61 wt.% after 500 h, compared to ~ 13 wt.% at 220 °C) due to surface passivation by monazite at 220 °C. Geochemical analyses showed REE fractionation during bastnäsite alteration. At 90 °C, rhabdophane was enriched in heavy REEs (Eu–Lu, Y), likely due to the evolving fluid chemistry, while at 220 °C secondary monazite was enriched in Sm and Ho compared to bastnäsite. These results indicate that: 1) the hydrothermal alteration of bastnäsite by rhabdophane and monazite in ore deposits leads to REE immobilisation, with little net loss of REEs to solution; 2) rhabdophane is metastable relative to monazite at 90 °C, and; 3) variable temperatures can cause different mineral textures and REE fractionation trends during hydrothermal alteration and mineral replacement.

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斜长石和独居石对钠长石的热液矿物置换:温度对矿物学、REE 固定化和分馏的影响
稀土元素(REEs,La-Lu,Y)对可再生技术的发展至关重要。菱锰矿(REECO3F)是一种常见的 REE 矿石矿物,经常在地壳各个层面发生热液蚀变。因此,热液蚀变烧云母的机制制约着 REE 矿床的演化,但人们对这些机制的了解仍然很少。本实验研究了磷酸盐流体中的热液置换作用,研究了磷酸盐流体中rhabdophane(REEPO4∙xH2O,x = 0-1)和独居石(REEPO4)对基性钠石的置换作用。研究发现了两种随温度变化的蚀变途径;这两种途径都遵循溶解-再沉淀(CDR)耦合机制。在 90 °C时,姥钠石被高孔隙度的易变斜长石取代,然后又被独居石取代,形成内层斜长石和外层独居石。在 220 °C时,钠长石直接被独居石取代。虽然在 220 °C时置换开始得更快,但由于在 220 °C时蒙脱石的表面钝化,在 90 °C时发生了更大的整体置换(500 小时后约为 61 wt.%,而在 220 °C时约为 13 wt.%)。地球化学分析表明,在钠长石蚀变过程中发生了 REE 分馏。在90 °C时,斜长岩富含重REEs(Eu-Lu、Y),这可能是由于流体化学性质的演变造成的,而在220 °C时,与基性钠石相比,次生独居石富含Sm和Ho。这些结果表明1)矿床中的斜长石和独居石对韧长岩的热液蚀变导致 REE 固定化,溶液中的 REE 几乎没有净损失;2)相对于独居石,斜长石在 90 °C 时是稳定的;3)在热液蚀变和矿物置换过程中,温度的变化会导致不同的矿物质地和 REE 分馏趋势。
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来源期刊
Contributions to Mineralogy and Petrology
Contributions to Mineralogy and Petrology 地学-地球化学与地球物理
CiteScore
6.50
自引率
5.70%
发文量
94
审稿时长
1.7 months
期刊介绍: Contributions to Mineralogy and Petrology is an international journal that accepts high quality research papers in the fields of igneous and metamorphic petrology, geochemistry and mineralogy. Topics of interest include: major element, trace element and isotope geochemistry, geochronology, experimental petrology, igneous and metamorphic petrology, mineralogy, major and trace element mineral chemistry and thermodynamic modeling of petrologic and geochemical processes.
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