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新疆柯鲁木特伟晶岩脉中石榴子石组成对岩浆-热液过程及Li矿化的制约
Magmatic-Hydrothermal Evolution and Li Mineralization in Pegmatite: Constraints from Composition of Garnet from Kelumute No. 112 Pegmatite,Xinjiang Autonomous Region,China

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文摘 利用EMPA研究新疆阿尔泰柯鲁木特112号伟晶岩脉中5个结构带内的石榴子石化学组成。结果表明,112号脉中石榴子石属于铁铝榴石-锰铝榴石系列,主要为锰铝榴石。相同结构内不同石榴子石具有相近的化学组成,不同结构带中的石榴子石的化学组成显著差异: 相比早期结构带中的石榴子石,晚期结构中的石榴子石Fe含量增加,Mn含量降低。结合铌钽族矿物中相似的Mn-Fe演化趋势,我们提出岩浆-热液过程中富F流体相出溶可能是晚期结构带中石榴子石显示高Fe、低Mn组成的机理。112号脉中锰铝榴石比例较高,变化于64%~ 90%范围,集中在稀有金属花岗伟晶岩中的锰铝榴石组成范围,由此我们认为伟晶岩中高MnO含量的锰铝榴石是伟晶岩内部Li矿化的矿物学标志。
其他语种文摘 The Kelumute No. 112 pegmatite hosts a complex Li-Be-Nb-Ta ore deposits which ranges in the secondary scale in Altay,Xinjiang Autonomous Region,China. Compositions of garnet from its five mineral assemblage zones have been determinated by electron probe microanalysis (EPMA) in this work. Results reveal that all garnet from No. 112 pegmatite belongs to almandite-spessartite series with high proportion of spessartite. Composition of garnet shows similarity in the same zone and discrepancies in different zones with an increasing trend of Fe and a decreasing trend of Mn from early to late formation. Combined with the similar variation trend of Fe and Mn in apatite and columbitetantalite, exsolution of the F-rich fluid phase from the evolved silicate melt during the magmatichydrothermal stage inducing variation in composition of garnet was identified in No. 112 pegmatiteforming melt. Garnets from the five zones of No. 112 pegmatite show a high spessartite proportion of 64%~ 90%,which is consistent with compositions of spessartites from super large and large scale worldwidely pegmatitic Li ore deposits,we thus to conclude that spessartite with high MnO content could be an effective mineral indicator for exploring pegmatitic Li ore deposits.
来源 矿物学报 ,2017,37(3):247-257 【核心库】
DOI 10.16461/j.cnki.1000-4734.2017.03.001
关键词 石榴子石 ; 岩浆-热液演化 ; Li矿化 ; 伟晶岩 ; 新疆
地址

中国科学院地球化学研究所, 地球内部物质高温高压院重点实验室, 贵州, 贵阳, 550081

语种 中文
文献类型 研究性论文
ISSN 1000-4734
学科 地质学
基金 国家自然科学基金 ;  贵州省项目
文献收藏号 CSCD:6026615

参考文献 共 38 共2页

1.  Kleck W D. The chemistry,mineralogy,and petrology of the George Ashley Block pegmatite body. American Mineralogist,1999,84(5/6):695-707 CSCD被引 4    
2.  王贤觉. 阿尔泰伟晶岩矿物研究,1981:1-140 CSCD被引 21    
3.  Blundy J. Prediction of crystal-melt partition coefficients from elastic moduli. Nature,1994,372(6505):452-454 CSCD被引 59    
4.  Irber W. The lanthanide tetrad effect and its correlation with K/Rb,Eu /Eu*,Sr /Eu,Y/Ho,and Zr /Hf of evolving peraluminous granite suites. Geochimica et Cosmochimica Acta,1999,63(3/4):489-508 CSCD被引 188    
5.  Green T H. Garnet in silicic liquids and its possible use as a P-T indicator. Contributions to Mineralogy and Petrology,1977,65(1):59-67 CSCD被引 13    
6.  Spear F S. Metamorphic Phase Equilibria and Pressure-Temperature-Time Paths,1993:1-799 CSCD被引 8    
7.  Stone M. The significance of almandine garnets in the Lundy and Dartmoor granites. Mineralogical Magazine,1988,52(368):651-658 CSCD被引 3    
8.  Whitworth M P. Petrogenetic implications of garnets associated with lithium pegmatites from SE Ireland. Mineralogical Magazine,1992,56(382):75-83 CSCD被引 8    
9.  Baldwin J R. Compositional range of Mn-garnet in zoned granitic pegmatites. The Canadian Mineralogist,1983,21(4):683-688 CSCD被引 4    
10.  Cerny P. Extreme fractionation in rare-element granitic pegmatites: Selected examples of data and mechanisms. The Canadian Mineralogist,1985,23(3):381-421 CSCD被引 49    
11.  Morgan G B. Crystallization of the Little Three layered pegmatite-aplite dike,Ramona District,California. Contributions to Mineralogy and Petrology,1999,136(4):310-330 CSCD被引 15    
12.  Arredondo E H. Hydrogen in spessartine-almandine garnets as a tracer of granitic pegmatite evolution. American Mineralogist,2001,86(4):485-490 CSCD被引 4    
13.  Lv Z H. Petrogenesis and magmatic-hydrothermal evolution time limitation of Kelumute No. 112 pegmatite in Altay,Northwestern China: Evidence from zircon U-Pb and Hf isotopes. Lithos,2012,154:374-391 CSCD被引 29    
14.  Sirbu S. Geochemistry of selected garnets in pegmatites from R㊣zoare formation(Preluca Mountains,Romania). Analele Stiintifice Ale Universitatii,Al. I.Cuza IASI.Geologie. Tomul LVI,nr.2,2010 CSCD被引 1    
15.  Cerny P. Selected peraluminous minerals. Granitic Pegmatites in Science and Industry. 8,1982:63-98 CSCD被引 1    
16.  Frigstad O F. Amazonittpegmatitter i Iveland-Evje. Bergverksmuseets Skrift, (in Norwegian),1999,15:60-73 CSCD被引 1    
17.  Menard T. Metamorphism of calcic pelitic schists,Strafford Dome,Vermont: Compositional zoning and reaction history. Journal of Petrology,1993,34(5):977-1005 CSCD被引 4    
18.  Chernoff C B. Trace element zoning as a record of chemical disequilibrium during garnet growth. Geology,1999,27(6):555-558 CSCD被引 17    
19.  Feenstra A. An experimental study of the Fe-Mn exchange between garnet and ilmenite. Contributions to Mineralogy and Petrology,1998,131(4):379-392 CSCD被引 4    
20.  London D. Enrichment and accommodation of manganese in granite-pegmatite systems. 11th Annual Goldschmidt Conference Abstract 3369,Lunar Planetary Institute Contribution 1088,2001:3369 CSCD被引 2    
引证文献 8

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