Accessory Minerals in the Xihuashan Y-Enriched Granitic Complex, Southern China: A Record of Magmatic and Hydrothermal Stages of Evolution

Wang, Ru Cheng; Fontan, François; Chen, Xiaoming; Huan, Hu; Liu, Chang Shi; Xu, Sha; Parseval, Philippe de

doi:10.2113/gscanmin.41.3.727

Cited by 78 publications

(32 citation statements)

References 31 publications

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“…Xenotime is observed throughout the Xihuasan complex. Wang et al [37] suggested that xenotime crystallized at the magmatic stage and experienced further evolution at the late-magmatic and hydrothermal stage. Xenotimes from G-1, G-2, G-3 and G-5 granites were separated for U-Pb dating in this study.…”

Section: Xihuashan Granite In Southern Chinamentioning

confidence: 99%

In situ U-Pb dating of xenotime by laser ablation (LA)-ICP-MS

Liu

Guo

et al. 2011

Chin. Sci. Bull.

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Xenotime is an ideal mineral for U-Th-Pb isotopic dating because of its relatively high U and Th contents, but typically low concentration of common Pb. These characteristics, and the fact that it is widespread throughout various types of rocks, suggest that the U-Th-Pb dating of xenotime has broad applications. Studies of U-Pb dating on xenotime by ion microprobe (such as SHRIMP) have increased in recent years, whereas studies by laser ablation (LA)-ICP-MS are still rare. In this study, we developed a technique for U-Pb dating of xenotime using the 193 nm ArF laser-ablation system and Agilent 7500a Q-ICP-MS. To evaluate the reliability of our method, a xenotime standard, BS-1, was analyzed and calibrated against another xenotime standard, MG-1. The weighted mean 206 Pb/ 238 U ages of 510.1 ± 5.2 Ma (2 n = 21), 509.8 ± 4.3 Ma (2 n = 21) and 510.0 ± 4.6 Ma (2n = 21) were obtained using beam diameters of 16, 24 and 32 m, respectively. These ages are identical to those determined by ID-TIMS method (weighted mean 206 Pb/ 238 U age of 508.8 ± 1.4 Ma), which supports the reliability of our LA-ICP-MS method. We also analyzed xenotimes in leucogranites from South Tibet and granites from Xihuashan in southern China, and obtained accurate and precise ages. Nevertheless, we observed systematic differences in Pb/U fractionation among xenotime, monazite and zircon. The matrix-effect resulted in either under-correction or over-correction of fractionation, and thus led to inaccurate ages. Thus, a matrix-matched material is required for U-Pb dating of xenotime by LA-ICP-MS.

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Section: Xihuashan Granite In Southern Chinamentioning

confidence: 99%

In situ U-Pb dating of xenotime by laser ablation (LA)-ICP-MS

Liu

Guo

et al. 2011

Chin. Sci. Bull.

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“…Furthermore, the association of Y-poor fluorite and synchysite-(Y) in the aplite-pegmatite of Jabal Sayid may suggest a genetic relationship between the two minerals. Wang et al (2003) reported alteration of yttrian fluorite in fluid rich environment to fluorite and synchysite-(Y) according to the following reaction:…”

Section: Discussionmentioning

confidence: 99%

Genesis of kasolite associated with aplite-pegmatite at Jabal Sayid, Hijaz region, Kingdom of Saudi Arabia

Dawood

Harbi

El‐Naby

2010

Journal of Asian Earth Sciences

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“…Such late hydrothermal variety was described as fluorite III at Mt. Ploskaya (Voloshin and Pakhomovsky, 1986) and noted at the Kutessai (Zuev and Kosterin, 1960), Katugin (Arkhangel'skaya, 1970), and Xihuashan (Wang et al, 2003) deposits. These findings coupled with data on the synthesis conditions show that incorporation of substantial amounts of REE into fluorite at the late, low-temperature stage of natural hydrothermal process is hampered.…”

Section: Structure and Formula Of Tveitite-(y)mentioning

confidence: 96%

“…The best-known occurrences of the mineral are known from Norway, including Tysfjord, Nordland; Iveland, Aust-Agder; and Tørdal, Telemark (Vogt, 1911;Sverdrup, 1968;Neumann, 1985). Yttrofluorite was described from alkaline metasomatized granitic rocks at the Kutessai and Aktyuz deposits in Kyrgyzstan (Zuev and Kosterin, 1960); alkali granitic pegmatite in Pikes Peak, Colorado, United States (Haynes, 1965); Suishoyama and Fukushima, Japan (Uetani et al, 1968); and Y-enriched granite in Xihuashan, Jiangxi, China (Wang et al, 2003). Yttrofluorite is known in Russia as well.…”

Section: Tveitite-(y) and Ree-enriched Fluorite From Amazonitementioning

confidence: 99%

Tveitite-(Y) and REE-enriched fluorite from amazonite pegmatites of the Western Keivy, Kola Peninsula, Russia: Genetic crystal chemistry of natural Ca,REE-fluorides

et al. 2009

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Tveitite-(Y) as pods up to 10 cm across has been found at Mt. Rovgora, the Western Keivy, Kola Peninsula, Russia, in an albite-quartz-amazonite pegmatite vein related to alkaline granite. Tveitite-(Y) grains (up to 4 cm) are parallel microintergrowths of two isostructural varietiesspace group a = 17.020, c = 9.679 Å. [Lanthanoides are abbreviated in this paper as Ln, whereas Ln + Y as REE]. Nine fluorite samples containing from 0 to 18 mol % (REE)F 3 were examined by electron microprobe, X-ray powder diffraction, and IR spectroscopy. The crystal structure of natural yttrofluorite has been determined for the first time ( R aniso = 1.47 %): Fm 3 m , a = 5.493 Å; the structural formula is (Ca 0.82 Y 0.12 Ln 0.06 )F 2.15 . Earlier published and new data show that yttrofluorite containing (REE)F 3 > 20 mol % and REE-enriched fluorite with LREE > Y (HREE) are metastable under room conditions. In nature, tveitite-(Y) is a product of solid-state transformation of metastable yttrofluorite with (REE)F 3 > 20 mol %. Inferred protophases could have been exsolved into tveitite-(Y) variable in composition or tveitite-(Y) + yttrofluorite stable under normal conditions. The formation of tveitite-(Y) requires the erichment of a protophase not only in Y but also in LREE and HREE as stabilizing admixtures regularly distributed by different types of Ca-dominant structural sites. Tveitite-(Y) and yttrofluorite are geochemical indicators of a medium that is not only enriched in Y, Ln, and F, but also depleted in Na, Ca, CO 2 and P.

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Accessory Minerals in the Xihuashan Y-Enriched Granitic Complex, Southern China: A Record of Magmatic and Hydrothermal Stages of Evolution

Cited by 78 publications

References 31 publications

In situ U-Pb dating of xenotime by laser ablation (LA)-ICP-MS

In situ U-Pb dating of xenotime by laser ablation (LA)-ICP-MS

Genesis of kasolite associated with aplite-pegmatite at Jabal Sayid, Hijaz region, Kingdom of Saudi Arabia

Tveitite-(Y) and REE-enriched fluorite from amazonite pegmatites of the Western Keivy, Kola Peninsula, Russia: Genetic crystal chemistry of natural Ca,REE-fluorides

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