Trace Element Geochemistry and Mineral Inclusions Constraints on the Petrogenesis of a Marble–Hosted Ruby Deposit in Yunnan Province, China

IF 1.1 4区 地球科学 Q3 MINERALOGY Canadian Mineralogist Pub Date : 2021-05-24 DOI:10.3749/CANMIN.2000054
Wenqing Huang, P. Ni, Ting Shui, J. Pan, Mingsen Fan, Yulong Yang, Zhe Chi, Jun-ying Ding
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引用次数: 2

Abstract

Primary rubies in the Ailao Shan of Yunnan Province, China, are found in three layers of marble. However, the origin and source rocks of placer rubies in the Yuanjiang area remains unclear. Trace element geochemistry and inclusion mineralogy within these materials can provide information on their petrogenesis and original source. Zircon, rutile, mica group minerals, titanite, and apatite group minerals were the main solid inclusions identified within the placer Yuanjiang rubies, along with other mineral inclusions such as pyrite, pyrrhotite, plagioclase group minerals, and scapolite group minerals. Laser ablation inductively coupled plasma-mass spectrometry (LA-ICP-MS) measurements showed that the placer rubies are characterized by average values of Mg (31 ppmw), Ti (97 ppmw), V (77 ppmw), Cr (3326 ppmw), Fe (71 ppmw), and Ga (66ppmw). A trace-element oxide diagram, Fe values (<350 ppmw), and the mineral inclusion assemblage suggest marble sources for the placer ruby. Therefore, the Yuanjiang rubies (both primary and placer) are metamorphic, and this fits well with the observations that skarn and related minerals are mostly absent in this deposit. Yuanjiang rubies can be readily separated from the high-iron rubies of different geological types by their Fe content (<1000 ppmw). The discriminators Mg, Ga, Cr, V, Fe, and Ti have potential in separating Yuanjiang rubies from some other marble-hosted deposits, such as Snezhnoe. Nevertheless, geographic origin determination remains a challenge when considering the similarities in compositional features between the Yuanjiang rubies and rubies from some other marble-hosted deposits worldwide (e.g., Luc Yen). The presence of kaolinite group minerals and clusters of euhedral, prismatic zircon crystals in ruby suggest a Yuanjiang origin.
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微量元素地球化学和矿物包裹体对云南大理石质红宝石矿床成因的制约
在中国云南哀牢山的三层大理石中发现了原生红宝石。然而,元江地区砂矿红宝石的成因和源岩尚不清楚。这些材料中的微量元素地球化学和包裹体矿物学可以提供有关其岩石成因和原始来源的信息。锆石、金红石、云母组矿物、钛矿和磷灰石组矿物是元江砂矿中发现的主要固体包裹体,其他矿物包裹体如黄铁矿、磁黄铁矿、斜长石组矿物和石斑石组矿物也是如此。激光烧蚀电感耦合等离子体质谱(LA-ICP-MS)测量结果表明,砂矿红宝石的特征是Mg(31ppmw)、Ti(97ppmw。微量元素氧化物图、Fe值(<350ppmw)和矿物包裹体组合表明砂矿红宝石的大理石来源。因此,元江红宝石(包括原生和砂矿)是变质的,这与该矿床中矽卡岩和相关矿物大多不存在的观察结果非常吻合。沅江红宝石的铁含量(<1000ppmw)可以很容易地从不同地质类型的高铁红宝石中分离出来。鉴别剂Mg、Ga、Cr、V、Fe和Ti有可能将沅江红宝石与其他大理石矿床(如Snezhnoe)分离。然而,当考虑到沅江红宝石与世界各地其他大理石矿床(如Luc Yen)的红宝石在成分特征上的相似性时,地理起源的确定仍然是一个挑战。红宝石中高岭石类矿物和自形、棱柱状锆石晶体簇的存在表明其来源于沅江。
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来源期刊
Canadian Mineralogist
Canadian Mineralogist 地学-矿物学
CiteScore
2.20
自引率
22.20%
发文量
45
审稿时长
4-8 weeks
期刊介绍: Since 1962, The Canadian Mineralogist has published papers dealing with all aspects of mineralogy, crystallography, petrology, economic geology, geochemistry, and applied mineralogy.
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