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都龙锡锌矿床绿泥石特征及其成矿意义
Characteristics of chlorites from Dulong Sn-Zn deposit and their metallogenic implications

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廖震 1   刘玉平 1 *   李朝阳 2   叶霖 1   刘世荣 1   郑文勤 1  
文摘 都龙锡锌超大型矿床是中国第三大锡石硫化物矿床,其中的绿泥石化相当普遍,并与矿化关系密切.本文在岩矿鉴定基础上,利用电子探针对绿泥石进行了微区化学成分研究.研究结果表明,该矿床绿泥石为富铁种属的假鳞绿泥石、鲕绿泥石、蠕绿泥石(铁绿泥石)及铁镁绿泥石,指示形成于还原环境;绿泥石为泥质岩或铁镁质岩受热液交代蚀变的产物,绿泥石结构的离子置换主要体现为Fe对Mg的置换,反映其形成与含铁建造有关;绿泥石的形成温度为231~304℃,平均为269℃,属于中-低温范围.绿泥石的形成机制主要表现为溶蚀-结晶、溶蚀-迁移-沉淀结晶2种.绿泥石可能与锡成矿同期形成,其与矿石矿物的生成关系表明,燕山期岩浆活动对都龙矿床的叠加改造作用显著.
其他语种文摘 The Dulong superlarge Sn-Zn deposit is the third largest cassiterite sulfide deposit in China. Chlorite is one of the main hy-drothermal alteration minerals genetically related to tin mineralization in this ore deposit. By means of microscopic and electron micro-probe analysis, the user investigated chemical composition and texture of the chlorite and concluded that chlorites in the Dulong Sn-Zn deposit have the following characteristics: ① they are mainly Fe-rich chlorites composed of pseudothuringite, chamosite, prochlorite and brunsvigite, indicating a reducing environment during their user; ②they were produced by hydrothermal alteration of pelitic or mafic rocks, and the phenomenon that Fe-Mg substitution dominates the octahedral substitution suggests that their formation had to do with the iron-rich formation; ③they were formed at temperatures of 231-304℃ (averagely 269 ℃ ) , in the range of low-mod-erate temperature; and ④ both chlorites and cassiterite were formed in the Late Yanshanian magmatic hydrothermal ore-forming user that occurred under the low-moderate temperature reducing condition.
来源 矿床地质 ,2010,29(1):169-176 【核心库】
关键词 地质学 ; 绿泥石 ; 组成特征 ; 形成环境 ; 成矿意义 ; 都龙锡锌矿床 ; 滇东南
地址

1. 中国科学院地球化学研究所, 矿床地球化学国家重点实验室, 贵州, 贵阳, 550002  

2. 中国科学院广州地球化学研究所, 广东, 广州, 510640

语种 中文
文献类型 研究性论文
ISSN 0258-7106
学科 地质学
基金 国家自然科学基金项目 ;  国家973计划 ;  "危机矿山接替资源"项目
文献收藏号 CSCD:3834655

参考文献 共 23 共2页

1.  Cathelineau M. Chlorite solid solution geothermometer:The Los Azufres (Mexico) geothermal system. Contributions to Mineralogy and Petrology,1985,91:235-244 被引 67    
2.  Cathelineau M. Cation site occupancy in chlorites and illites as a function of temperature. Clay Minerals,1988,23:471-485 被引 87    
3.  Decaritat P. Chlorite geothememetry:A review. Clays and clay minerals,1993,40:470-479 被引 6    
4.  Deer W A. Rock-fonning minerals:Sheet silicates,1962:270 被引 1    
5.  Deer W A. An introduction to the rock-forming minerals,1966:528 被引 5    
6.  Edit Committee of 《The Discovery History of Mineral Deposits of China》. The discovery history of mineral deposits of China:Volume of Yunnan Province,1996 被引 1    
7.  Foster M D. Interpretation of the composition and classfication for the chlorite. US Geology Survey Prof.Paper,1962,414A:33 被引 1    
8.  Hiller S. Octahedral occupancy and the chemical composition of diagenetic(low-temperature) chlorite. Clay Minerals,1991,26:149-168 被引 27    
9.  Hillier S. Oring,diagenesis,and mineralogy of chlorite minerals in Devonian lacustering muderocks,Orcadian basin,Scodand. Clays and clay minerals,1993,41:240-259 被引 10    
10.  Inoue A. Formation of clay minerals in hydrothermal environments. Veide.Origin and Mineralogy of Clays,1995:268-330 被引 1    
11.  Kranidiotis P. Systematics of chlorite alteration at the Phelps Dodge massive sulfide deposit,Matagami,Quebec. Economic Geology,1987,82:1898-1991 被引 52    
12.  Laird J. Chlorites:Metamorphic petrology. Reviews in Mineralogy,1988,19:405-453 被引 12    
13.  Nieto F. Chemical composition of matapelitic chlorites:X-ray diffractian and optical prcperty approach. European Journal of Mineralogy,1997:829-841 被引 45    
14.  Rausell-Colom J A. Relation between composition and d_(001) for chlorite. American Mineralogist,1991,76:1373-1379 被引 29    
15.  Shirozu H. Developments in sedimentalogy(chlorite minerals),1978:243-246 被引 3    
16.  Stefano B. Applying X-ray geothermometer diffraction to a chlorite. Clays and clay minerals,1999,47:54-63 被引 52    
17.  Walshe J L. A six-component chlorite solid solution model and the conditions of chlorite formation in hydrothermal and geothermal systems. Economic Geology,1986,81:681-703 被引 39    
18.  Xie X G. Ⅱb trioctahedral chlorite from the Barberton greenstone belt:Crystal structure and rock composition constraints with implications to geothermometry. Contributions to Mineralogy and Petrology,1997,126:275-291 被引 35    
19.  Zang W. Chloritization of the hydrothermally altered bedrock at the Igarape Bahia gold deposite,Carajas,Brazil. Mineralium Deposita,1995,30:30-38 被引 46    
20.  廖震. 滇东南都龙锡锌多金属矿床矿物学及年代学,2008 被引 2    
引证文献 31

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