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J4 ›› 2011, Vol. 17 ›› Issue (3): 368-.

• 岩浆作用、成矿作用与地球动力学专栏 • 上一篇    下一篇

南岭中段花岗岩中榍石对锡成矿能力的指示意义

 王汝成, 谢磊, 陈骏, 于阿朋, 王禄斌, 陆建军, 朱金初   

  1. 南京大学 地球科学与工程学院,内生金属矿物成矿机制研究国家重点实验室
  • 收稿日期:2011-05-29 修回日期:2011-06-23 出版日期:2011-09-20 发布日期:2011-09-20
  • 通讯作者: 王汝成,男,教授,博士生导师,研究方向:成矿矿物学;E-mail: rcwang@nju.edu.cn
  • 作者简介:王汝成,男,教授,博士生导师,研究方向:成矿矿物学;E-mail: rcwang@nju.edu.cn
  • 基金资助:

      国国家自然科学基金项目(40730423,40902017,40873029);中国地调局调查项目(1212010632100);国土资源部“深部探测计划”(201011046)联合资助

Titanite as an Indicator Mineral of Tin Mineralizing Potential of Granites in the Middle Nanling Range

WANG Ru-Cheng, XIE Lei, CHEN Jun, YU A-Peng, WANG Lu-Bin, LIU Jian-Jun, ZHU Jin-Chu   

  1. School of Earth Sciences and Engineering, State Key Laboratory for Mineral Deposits Research, Nanjing University
  • Received:2011-05-29 Revised:2011-06-23 Online:2011-09-20 Published:2011-09-20
  • Contact: Wang Rucheng, Professor.
  • About author:Wang Rucheng, Professor.

摘要:

        榍石是钙碱性花岗岩中常见的副矿物,因Ti4+与Sn4+具有相近的晶体化学性质,榍石可以有不同含量的Sn,因此,榍
石是研究含锡花岗岩(特别是氧化型花岗岩)的有用矿物之一。本文选择南岭地区中段3个含锡花岗岩(骑田岭、花山、姑
婆山)和3个尚未发现重要锡矿化的花岗岩(连阳、大东山、九峰)中的榍石进行了系统的矿物学研究。在这些花岗岩中,
榍石都可以既形成于岩浆早期,也可以形成于黑云母绿泥石化的热液阶段。在骑田岭、花山和九峰花岗岩中,还发现了岩
浆晚期结晶的榍石。电子探针分析结果表明,三类榍石具有不同的微量元素成分,岩浆早期榍石含有微量Sn (SnO2一般低
于1%),岩浆晚期榍石明显富锡,在不同花岗岩中ω (SnO2)可从约3%到26%不等,热液榍石则以富Al,F为特征。进一步对
比6个花岗岩中榍石的化学成分发现,骑田岭、花山和姑婆山3个含锡花岗岩中的榍石(无论是岩浆阶段的,还是热液阶段
的)都以富锡为特征(SnO2平均高于0.4 %),显示3个花岗岩具有较强的锡成矿能力;而在3个尚未发现重要锡矿的花岗岩
中,连阳、大东山花岗岩中的榍石明显贫锡(SnO2含量低于0.1 %),但九峰花岗岩中的榍石与花山花岗岩中的榍石十分相
似,岩浆榍石最高可含约3%SnO2,热液型榍石也可含2%的SnO2,预示九峰花岗岩可能具有较好的锡矿勘探前景。本文研究
结果表明,榍石可以作为判别花岗岩锡成矿能力的简便、实用的矿物学标志。

关键词: 榍石;副矿物;含锡花岗岩;成矿能力;南岭

Abstract:

     Titanite  is a common accessory mineral  in calc-alkailine granites, and may contain  tin  to various extents owing  to similar crystal-chemical  features between Ti4+and Sn4+.  It  thus may be considered as a useful mineral  in studying  tin granites (particularly oxidized tin granites). This paper deals with a systematic study on titanite from three granites with known extensive tin mineralization  (Qitianling, Huashan and Guposhan)   and other  three granites currently unknown  for important  tin mineralization (Lianyang, Dadongshan and Jiufeng). Titanite  from all  these granites can  form both at early-magmatic stage and during biotite chloritization at hydrothermal stage; late-magmatitc titanite is also found in Qitianling, Huashan and Jiufeng. Electron-microprobe results  reveal distinct compositions among  three  types of  titanite. Early-magmatic  titanite contains  trace of  tin  (generally < 1%  SnO2), whereas  late-magmatic  titanite with 3  to 26 % SnO2 can be  found  in Qitianling, Huashan and Jiufeng. Hydrothermal titanite is typified by high Al and F contents. Comparison of SnO2 contents for titanite from six granites shows that titanite, either magmatic or hydrothermal,  from  three  tin granites  (Qitianling, Huashan and Guposhan)  is  rich  in SnO2 with averages > 0.4 %,revealing  their strong  tin mineralizing potential;  titanite of Lianyang and Dadongshan granites  is very poor  in SnO2  (< 0.1 %), consistent with their barren feature. However, similar to Huashan titanite, the magmatic titanite from Jiufeng granite contains up to 3 % SnO2, and hydrothermal one up to 2 % SnO2. Such tin enrichment in titanite might imply higher tin potential of the Jiufeng granite, possibly favorable for further tin exploration. The present results demonstrate that titanite may act as a simple, but useful mineral criterion of tin mineralizing potential in granites.

Key words:  titanite, accessory mineral, tin-bearing granite, tin potential, Nanling Range

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