壳幔混染成矿机制的稀有气体同位素及硅同位素证据--以滇西富碱斑岩型多金属矿区为例

吉林大学学报(地球科学版)

壳幔混染成矿机制的稀有气体同位素及硅同位素证据--以滇西富碱斑岩型多金属矿区为例

邓碧平^1，2，刘显凡²，朱建军¹，卢秋霞²，赵甫峰²，楚亚婷²，李春辉²

1.新疆生产建设兵团十三师，新疆哈密839000;
2.成都理工大学地球科学学院，成都610059

收稿日期:2014-04-27 出版日期:2014-11-26 发布日期:2014-11-26
通讯作者: 刘显凡（1957-），男，教授，博士生导师，主要从事矿物学、岩石学、矿床学研究 E-mail:liuxianfan@cdut.cn
作者简介:邓碧平(1975-)，男，博士，主要从事矿物学、岩石学、矿床学研究，E-mail:bpdeng2012@163.com
基金资助:
国家自然科学基金项目（40773031，40473027）；教育部高等学校博士学科点专项基金项目（20105122110010, 20115122110005）；四川省教育厅自然科学重点项目（12ZA006）；成都理工大学矿物学岩石学矿床学国家重点（培育）学科建设项目（SZD0407）

Noble Gas Isotope and Silicon Isotope Evidences of Crust-Mantle Mixing OreFormation Mechanism：Examplified by the Alkali-Rich Porphyry Polymetallic Deposits in Western Yunnan, China

Deng Biping^1,2, Liu Xianfan², Zhu Jianjun¹, Lu Qiuxia², Zhao Fufeng², Chu Yating², Li Chunhui²

1.No.13 Agricultural Division, Production and Construction Corps, Hami839000, Xinjiang, China;
2.Institute of Earth Science, Chengdu University of Technology, Chengdu610059, China

Received:2014-04-27 Online:2014-11-26 Published:2014-11-26

摘要/Abstract

摘要：

滇西富碱斑岩型多金属矿区黄铁矿和石英脉流体包裹体中R/Ra值主要为0.160 8~3.470 0，远高于地壳特征值，而整体略低于地幔特征值；²⁰Ne/²²Ne和²¹Ne/²²Ne平均值分别为11.271 0和0.032 2，接近地幔同位素组成；⁴⁰Ar/³⁶Ar和³⁸Ar/³⁶Ar平均值分别为395.510 0和0.197 6，均高于大气比值，而低于MORB比值；与大气相比，¹²⁸Xe/¹³⁰Xe、¹²⁹Xe/¹³⁰Xe、¹³¹Xe/¹³⁰Xe、¹³²Xe/¹³⁰Xe、¹³⁴Xe/¹³⁰Xe、¹³⁶Xe/¹³⁰Xe值均表现出过剩的特征；富硅成矿流体的δ³⁰Si值为-2.4‰~-0.1‰，表现出几乎未经动力分馏的原始地幔流体性质，而富碱岩浆的δ³⁰Si值为0.0‰~0.4‰，表现出历经强烈动力分馏的交代富集地幔流体性质。综合研究表明：滇西地区硅同位素组成与包裹体稀有气体同位素组成在显示含矿流体的幔源特征的同时，又表现出强烈的地壳特征；成矿物质主要来自地幔交代作用形成的富集地幔分异产物，即富碱岩浆和与之伴随的富硅成矿流体，二者携带成矿物质沿断裂进入地壳，伴随富硅成矿流体在富碱岩浆的成岩过程中对富碱斑岩与地层岩石的交代蚀变，从而引发壳幔物质叠加混染。正是这种流体作用构成了滇西新生代富碱斑岩多金属成矿的内在统一制约因素。

关键词: 稀有气体同位素, 硅同位素, 壳幔混染, 地幔流体交代作用, 滇西

Abstract:

R/Ra values of fluid inclusions from pyrite and quartz veins from alkali-rich porphyry molymetallic deposits in western Yunnan are mainly in the range of 0.160 8-3.470 0, being much higher than the corresponding values of the crust, but a little lower than those of the mantle; the average ²⁰Ne/²²Ne values and ²¹Ne/²²Ne values are averaged at 11.271 0 and 0.032 2, being close to those of the mantle;⁴⁰Ar/³⁶Ar values and ³⁸Ar/³⁶Ar values are averaged at 395.510 0 and 0.197 60 respectively, being higher than the air ratio but are lower than the MORB ratio; compared with air, ¹²⁸Xe/¹³⁰Xe，¹²⁹Xe/¹³⁰Xe，¹³¹Xe/¹³⁰Xe，¹³²Xe/¹³⁰Xe，¹³⁴Xe/¹³⁰Xe，¹³⁶Xe/¹³⁰Xe values show a surplus characteristics; δ³⁰Si values of the silicon-rich ore-forming fluids vary from -2.4‰ to -0.1‰, showing a characteristic feature of the original mantle fluids almost without isotopic kinetic fractionation, while δ³⁰Si values of the alkali-rich magma range from 0.0‰ to 0.4‰,showing a feature of the metasomatic enriched mantle fluids with drastic isotopic kinetic fractionation. So noble gas and silicon isotopic compositions reveal that ore-bearing fluids have both mantle-derived and the crust-modified characteristics in western Yunnan. The ore-forming materials mainly derived from the differentiation products of the metasomatized enriched mantle. These alkali-rich magma and related silicon-rich ore-forming fluids carried the ore-forming materials upwards into the crust through the deep faults. The replacement and alteration of the alkali-rich porphyry and their host strata by the silica-rich ore-forming fluids during the crystallization processes of the alkali-rich magmas led to the overprinting and contamination of the mantle and crust materials. It is such a process of fluids that makes up the key controlling factors for the Cenozoic alkali-rich porphyry polymetallic deposits in western Yunan.

Key words: noble gas isotope, silicon isotope, crust-mantle mixing, mantle-fluid metasomatism, western Yunnan

中图分类号:

P597.2

邓碧平，刘显凡，朱建军，卢秋霞，赵甫峰，楚亚婷，李春辉. 壳幔混染成矿机制的稀有气体同位素及硅同位素证据--以滇西富碱斑岩型多金属矿区为例[J]. 吉林大学学报(地球科学版), 2014, 44(6): 1856-1868.

Deng Biping, Liu Xianfan, Zhu Jianjun, Lu Qiuxia, Zhao Fufeng, Chu Yating, Li Chunhui. Noble Gas Isotope and Silicon Isotope Evidences of Crust-Mantle Mixing OreFormation Mechanism：Examplified by the Alkali-Rich Porphyry Polymetallic Deposits in Western Yunnan, China[J]. Journal of Jilin University(Earth Science Edition), 2014, 44(6): 1856-1868.

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