巴彦奥博碳酸盐岩地壳二氧化硅污染的矿物学指纹

IF 2.7 3区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS

American Mineralogist Pub Date : 2024-07-19 DOI:10.2138/am-2023-9297

Yulun Xiao, Wubin Yang, Xiaoyong Yang, Yonghua Cao, Pengfei Tian, Zhuang Zhao

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引用次数: 0

摘要

碳酸盐岩是富含碳酸盐且硅不饱和的火成岩。碳酸盐岩中存在的各种硅酸盐引发了有关二氧化硅来源的讨论。本研究在巴彦奥博 REE-Nb-Fe 矿床的 1 号碳酸盐岩堤中发现了丰富的氟辉石（Ce）和腐植质群矿物。这些硅酸盐在碳酸盐岩系统中相对罕见，人们对其了解甚少。矿物纹理、原位 EPMA 和 LA-ICP-MS 分析相结合，对碳酸盐岩中的矿物成因进行了约束。磷灰石超群的成员--氟辉石（Ce）以八面体到近面体晶体的形式出现在斜长岩中。与常见的氟磷灰石相比，它们的特征是 REE2O3（56.0-63.7 重量%）、SiO2（19.6-21.2 重量%）和 F（2.47-3.47 重量%）含量极高，而 P2O5（0.25-3.69 重量%）和 CaO（10.3-14.2 重量%）含量相对较低。此外，它们的高 Y 值（961-3435 ppm）和低 Sr/Y 值（0.59-2.70）表明其热液来源于富含 SiO2、REE 和 F 的流体。腐植岩类矿物（主要是软玉质和腐植岩）显示出不规则的矿物纹理。它们还显示出较高的二氧化硅（32.5-34.7 wt.%）和 F 含量（3.59-7.32 wt.%），而二氧化钛含量则明显较低（0.02-0.08 wt.%），这表明热液起源于浅地壳中的汾化作用。我们的研究结果表明，富含 F、LREE 和 SiO2 的汾化流体可能受到地壳二氧化硅的污染。更重要的是，来自碳酸盐岩壁岩的流体辅助二氧化硅污染很可能是碳酸盐岩成矿系统中REE沉积的关键触发因素。

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Mineralogical fingerprints of crustal silica contamination in the Bayan Obo carbonatite

Carbonatites are carbonate-rich and silica-undersaturated igneous rocks. The presence of various silicates in carbonatites has sparked discussions about the source of silica. In this study, abundant fluorbritholite-(Ce) and humite group minerals are identified in the No. 1 carbonatite dike at the Bayan Obo REE-Nb-Fe deposit. These silicates are relatively rare and poorly understood in carbonatite systems. Mineral textures, in-situ EPMA and LA-ICP-MS analyses have been combined to constrain the mineral genesis in the carbonatite. Fluorbritholite-(Ce), member of the apatite super-group, occurs as euhedral to subhedral crystals in the dike. They are characterized by remarkably high concentrations of REE2O3 (56.0-63.7 wt.%), SiO2 (19.6-21.2 wt.%) and F (2.47-3.47 wt.%), along with relatively lower P2O5 (0.25-3.69 wt.%) and CaO (10.3-14.2 wt.%) contents compared to common fluorapatite species. Additionally, their high Y (961-3435 ppm) and low Sr/Y (0.59-2.70) values suggest a hydrothermal origin from a fluid rich in SiO2, REE and F. Humite group minerals, mainly chondrodite and humite, display irregular mineral textures. They also exhibit elevated SiO2 (32.5-34.7 wt.%), and F content (3.59-7.32 wt.%), with notably low TiO2 content (0.02-0.08 wt.%), indicating a hydrothermal origin induced by fenitization in the shallow crust. Our results favor a model of crustal silica contamination for the fenitization fluids, enriched in F, LREE and SiO2. More importantly, the fluid-assisted silica contamination from wall rocks within carbonatites is likely to be a critical trigger of REE deposition in the carbonatite ore-forming systems.

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来源期刊

American Mineralogist 地学-地球化学与地球物理

CiteScore

5.20

自引率

9.70%

发文量

276

审稿时长

1 months

期刊介绍： American Mineralogist: Journal of Earth and Planetary Materials (Am Min), is the flagship journal of the Mineralogical Society of America (MSA), continuously published since 1916. Am Min is home to some of the most important advances in the Earth Sciences. Our mission is a continuance of this heritage: to provide readers with reports on original scientific research, both fundamental and applied, with far reaching implications and far ranging appeal. Topics of interest cover all aspects of planetary evolution, and biological and atmospheric processes mediated by solid-state phenomena. These include, but are not limited to, mineralogy and crystallography, high- and low-temperature geochemistry, petrology, geofluids, bio-geochemistry, bio-mineralogy, synthetic materials of relevance to the Earth and planetary sciences, and breakthroughs in analytical methods of any of the aforementioned.