J4 ›› 2011, Vol. 41 ›› Issue (6): 1715-1725.

• 兴蒙造山带及邻区中生代岩浆活动与金属成矿作用专辑 • 上一篇    下一篇

中蒙边境查夫—甲乌拉地区中生代银多金属矿床成矿作用

聂凤军1|刘勇1,2|刘翼飞1|江思宏1|张可1|2,刘妍1   

  1. 1中国地质科学院矿产资源研究所|北京100037;
    2北京科技大学土木与环境工程学院|北京100083
  • 收稿日期:2011-06-06 出版日期:2011-11-26 发布日期:2011-11-26
  • 作者简介:聂凤军(1956-), 男,河北曲周人|博士|研究员|博士生导师|主要从事金属矿床地球化学研究|E-mail: nfjj@mx.cei.gov.cn
  • 基金资助:

    国家重点自然科学基金项目(41030421);  中国地质调查局地质调查项目(1212010911029)

Ore-Forming Processes of Silver-Polymetallic Deposits Occurring Within Tsav-Jiawula Region Along China-Mongolian Border

NIE Feng-jun1, LIU Yong1,2, LIU Yi-fei1, JIANG Si-hong1, ZHANG Ke1,2, LIU Yan1   

  1. 1Institute of Mineral Resources, CAGS, Beijing100037, China;
    2School of Civil and Environmental Engineering, University of Science &|Technology Beijing, Beijing100083, China
  • Received:2011-06-06 Online:2011-11-26 Published:2011-11-26

摘要:

对中蒙边境东段查夫、甲乌拉和查干布拉根银-铅-锌矿床以及额仁陶勒盖银矿床的产出环境、地质特征和时空分布规律进行了讨论,初步确定了银多金属矿床的成因类型和形成机理。研究结果表明,银多金属矿化大多数在侏罗系火山-沉积岩地层中呈脉状和条带状产出,并且与燕山晚期高钾钙-碱性侵入岩脉群和张裂构造具有密切的时空分布关系。华北-蒙古块体与西伯利亚板块对接碰撞期后大规模伸展构造作用所诱发的岩浆及相关流体活动是导致银多金属矿床形成的主导控制因素。尽管上述4处矿床在容矿围岩、几何形态和矿物组分上存在一定差异,但是其产出环境和形成机理大体相似,均属中硫化型浅成热液银多金属矿床。充填有高钾钙-碱性侵入岩脉的北西向和近南北向张裂构造带是寻找银多金属矿床(点)的有利场所。

关键词: 银多金属矿床, 燕山晚期, 高钾钙-碱性侵入岩脉, 成矿作用, 查夫-甲乌拉, 中蒙边境

Abstract:

Tsav, Jiawula, Chaganbulagen Ag-Pb-Zn deposits as well as Errentaolegai Ag deposit are located at northeastern part of the Northern China-Mongolia block (NCMB), and constitute the most important Ag-polymetalic ore cluster along the China-Mongolia border. The Ag-polymetallic ore deposits occur mainly in the Jurassic volcano-sedimentary rocks as thin veins, veinlets, sulfide-enriched pockets, breccias and lenses. The mineralization can be classified into two types: quartz-sulfide veins and carbonate-sulfide veins. Both of the two type veins have characteristics typical of intermediate sulfidation deposits worldwide. One of the most prominent features for the Ag-polymetallic deposits mentioned above is that they are spatially and temporally associated with Mesozoic Yanshanian alkaline or high-K calc-alkaline intrusive dykes (or sills). It should be pointed out that Jurassic volcanic strata consist of mainly shoshonite, trachyandesite, latite, and high-K, andesite, dacite and rhyolite as well as ignimbrite and tuffaceous rocks, while Yanshanian intrusions include monzonite, monzodiorite, diorite,granodiorite, granite and syenite. All these ore-bearing intrusive rocks are enriched in K,Ba, Th, Rb, Sr, Nb, La, Ag, Zn and Nd, and depleted in Ca, Mg, Co, Ni and Cr. All these geological evidences indicate that the collision of the amalgamated NCMB and  Siberian plate is likely to occur during the time span of Late Middle to Early Late Jurassic. Subsequent, post-collision lithospheric and crustal extension may lead to a large-scale magmatic activity and a great volume of fluid ascent. As a result, a number of Ag-polymetallic deposits and prospects were fromed in Tsav-Jiawula region. Tsav, Jiawula, Chaganbulagen and Errentaolegai deposits have differences on their geographic location, ore body geometry and mineral assemblage, but they have a lot of similarities on geodynamic setting, genetic type, and ore-forming process. Our studies show that most of Ag-polymetallic deposits and prospects are concentrated in jointed part of the Pre-Mesozoic upwelling consisting of Precambrian-Paleozoic strata and Jurassic volcano-sedimentary depression in the studied area. The NW and NS trending tensional fault zones, filled with high-K intrusive dykes would be the potential exploration targets for Ag-polymetallic deposits in  Tsav-Jiawula region at the easternmost part of China-Mongolia border.

Key words: silver-polymetallic deposit, Late Mesozoic, High K-calc-alkaline intrusive dyke, ore-forming processes, Tsav-Jiawula region, China-Mongolia border

中图分类号: 

  • P618.52
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