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滇西水头山岩浆热液铅锌矿床:来自REE和C-O同位素的证据

陈俞宏, 甘甜, 管申进, 赵剑星, 孔志岗, 邓明国. 2023. 滇西水头山岩浆热液铅锌矿床:来自REE和C-O同位素的证据[J]. 中国地质, 50(3): 818-836. doi: 10.12029/gc20200326002
引用本文: 陈俞宏, 甘甜, 管申进, 赵剑星, 孔志岗, 邓明国. 2023. 滇西水头山岩浆热液铅锌矿床:来自REE和C-O同位素的证据[J]. 中国地质, 50(3): 818-836. doi: 10.12029/gc20200326002
CHEN Yuhong, GAN Tian, GUAN Shenjin, ZHAO Jianxing, KONG Zhigang, DENG Mingguo. 2023. Shuitoushan magmatic hydrothermal lead-zinc deposit in western Yunnan: Evidence from REE and C-O isotopes[J]. Geology in China, 50(3): 818-836. doi: 10.12029/gc20200326002
Citation: CHEN Yuhong, GAN Tian, GUAN Shenjin, ZHAO Jianxing, KONG Zhigang, DENG Mingguo. 2023. Shuitoushan magmatic hydrothermal lead-zinc deposit in western Yunnan: Evidence from REE and C-O isotopes[J]. Geology in China, 50(3): 818-836. doi: 10.12029/gc20200326002

滇西水头山岩浆热液铅锌矿床:来自REE和C-O同位素的证据

  • 基金项目:
    国家自然科学基金项目(41363001、41762009)资助
详细信息
    作者简介: 陈俞宏,男,1995年生,硕士,助理工程师,主要从事扩矿勘探和矿床地质研究;E-mail: 630476104@qq.com
    通讯作者: 赵剑星, 男, 1988年生, 工程师, 从事找矿勘探和矿床地质研究; E-mail: 1770733128@qq.com
  • 中图分类号: P618.42; P618.43

Shuitoushan magmatic hydrothermal lead-zinc deposit in western Yunnan: Evidence from REE and C-O isotopes

  • Fund Project: Supported by the National Natural Science Foundation of China (No.41363001, No.41762009)
More Information
    Author Bio: CHEN Yuhong, male, born in 1995, master, assistant engineer, engaged in mineral exploration and geological research of mineral deposits; E-mail: 630476104@qq.com .
    Corresponding author: ZHAO Jianxing, male, born in 1988, engineer, engaged in mineral exploration and geological research of mineral deposits; E-mail: 1770733128@qq.com
  • 研究目的

    位于西南“三江”成矿带保山地块南部的水头山矿床,是镇康矿集区内新近勘查突破的又一典型的低温热液型Pb-Zn矿床,由于矿区内未出露岩浆岩,矿床成因存在争议,本文旨在通过对其成矿物质、成矿流体来源的研究,厘定该矿床成因类型。

    研究方法

    在详细划分该矿床成矿期次和成矿阶段的基础上,运用电感耦合等离子体质谱仪(ICP-MS)对该矿床岩(矿)石和不同阶段的硫化物进行了系统的稀土元素分析,对赋矿围岩碳酸盐岩、大理岩及不同期次的方解石开展了C-O同位素地球化学组成研究,并与毗邻的芦子园超大型铅锌铁多金属矿床进行综合对比,探讨水头山矿床成矿物质来源及成矿流体特征,揭示矿床的成矿机理。

    研究结果

    该矿床成矿作用可划分为成矿期和表生期,其中热液成矿期可划分为阶段Ⅰ(黄铁矿-黄铜矿-方解石阶段)、阶段Ⅱ(闪锌矿-方铅矿-方解石阶段)和阶段Ⅲ(黄铜矿-方解石阶段)。稀土元素及C-O同位素组成特征的研究表明,水头山矿床各成矿阶段单矿物、矿石Y/Ho值显示其成矿物质来源与深部岩浆活动有关;通过对该矿床单矿物、矿石稀土元素配分模式与保山地块内燕山期的柯街、志本山花岗岩体的稀土配分模式分析对比,表明该矿床成矿流体中的REE主要来自深部岩浆热液,δ13CV-PDB-δ18OV-SMOW图解显示其成矿流体也主要来自岩浆热液,前期成矿热液运移中有沉积岩的混染,后期可能受低温蚀变作用与大气降水的影响。

    结论

    水头山矿床无论是成矿物质还是成矿流体来源均与矿区深部的岩浆热液密切相关,且与毗邻的芦子园超大型Pb-Zn-Fe多金属矿床具有同源性,是与深部中酸性岩浆热液有关的浅成低温热液矿床。

  • 加载中
  • 图 1  西南三江地区构造示意图(a,底图据Metcalfe, 2013),保山地块构造缝合带、花岗岩及矿床分布地质简图(b,底图据Deng et al., 2014a),镇康矿集区矿产分布图(c,据夏庆霖等, 2005

    Figure 1. 

    图 2  水头山矿床地质简图(a),W11号勘探线剖面示意图(b)(据云南省地质调查院修编, 2016

    Figure 2. 

    图 3  水头山矿床矿石组构特征

    Figure 3. 

    图 4  水头山矿床及芦子园矿床单矿物稀土元素球粒陨石配分曲线

    Figure 4. 

    图 5  水头山矿床矿石、围岩及区域花岗岩稀土元素球粒陨石配分曲线

    Figure 5. 

    图 6  水头山矿床、芦子园矿床及区域花岗岩Y/Ho值对比图

    Figure 6. 

    图 7  重要地质储库C-O同位素特征(a底图据Clark and Fritz, 1997;b底图据Hoefs, 1997

    Figure 7. 

    图 8  水头山矿床δ13CV-PDB-δ18OV-SMOW图解(底图据王长明等, 2007; 周家喜等, 2012; 袁波等, 2014

    Figure 8. 

    表 1  水头山矿床矿物生成顺序表

    Table 1.  The mineral arisen sequence of the Shuitoushan Pb-Zn deposit

    下载: 导出CSV

    表 2  水头山矿床及芦子园矿床稀土元素含量(10-6)及特征参数

    Table 2.  REE content (10-6) and characteristics parameter of the Shuitoushan Pb-Zn deposit and Luziyuan Pb-Zn-Fe polymetallic deposit

    下载: 导出CSV

    表 3  水头山矿床C-O同位素组成

    Table 3.  C and O isotopic compositions of the Shuitoushan Pb-Zn deposit

    下载: 导出CSV

    表 4  水头山矿床及芦子园矿床硫化物、矿石、围岩及岩体Y/Ho值对比表

    Table 4.  Contrast of Y/Ho ratios of sulfide, ore and wallrock of the Shuitoushan and Luziyuan deposit and rock body

    下载: 导出CSV
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出版历程
收稿日期:  2020-03-26
修回日期:  2020-06-01
刊出日期:  2023-06-25

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