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[1]鲍新尚,杨立强,和文言.斑岩型矿床母岩浆中水的来源及其成矿机理[J].地球科学与环境学报,2016,38(04):473-482.
 BAO Xin-shang,YANG Li-qiang,HE Wen-yan.Origin and Mineralization Mechanism of the Water in Parent Magma of Porphyry Deposit[J].Journal of Earth Sciences and Environment,2016,38(04):473-482.
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斑岩型矿床母岩浆中水的来源及其成矿机理(PDF)
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《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

卷:
第38卷
期数:
2016年第04期
页码:
473-482
栏目:
基础地质与矿产地质
出版日期:
2016-07-15

文章信息/Info

Title:
Origin and Mineralization Mechanism of the Water in Parent Magma of Porphyry Deposit
文章编号:
1672-6561(2016)04-0473-10
作者:
鲍新尚杨立强和文言
中国地质大学(北京) 地质过程与矿产资源国家重点实验室,北京 100083
Author(s):
BAO Xin-shang YANG Li-qiang HE Wen-yan
State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences, Beijing 100083, China
关键词:
岩浆水含量岩浆水来源板块脱水作用混合作用结晶分异作用成矿机理斑岩型矿床
Keywords:
content of magmatic water origin of magmatic water plate dehydration mixing crystallization differentiation mineralization mechanism porphyry deposit
分类号:
P58
DOI:
-
文献标志码:
A
摘要:
母岩浆富水(H2O质量分数高于4%)被认为是斑岩体中Cu、Au等成矿元素富集成矿的关键因素,是形成岩浆-热液成矿系统的必要条件之一,主要表征为成矿斑岩中角闪石斑晶发育,轻稀土元素富集而中稀土元素亏损,w(Sr)/w(Y)和w(La)N/w(Yb)N值高(w(Sr)/w(Y)>40,w(La)N/w(Yb)N>20)等特征。弧环境下形成的斑岩成矿系统中的水主要来源于俯冲洋壳或交代岩石圈的脱水作用;而后碰撞环境下形成的斑岩成矿系统中的水可能主要源自矿区内同时代、共空间产出的镁铁质岩浆的混合注入,或含矿岩浆自身的分异结晶。尽管不同地球动力学背景下形成的斑岩成矿系统母岩浆中水的来源和富集机制不同,然而它们仍然被认为具有统一的成矿机理:母岩浆在地幔源区或地壳岩石部分熔融过程中,水的加入可以降低其熔点,促进源区含Cu、Au硫化物重熔,或萃取岩石中Cu、Au成矿元素,或聚集岩浆中分散分布的金属元素,形成富金属的岩浆;含矿岩浆就位后,富水岩浆很快达到水饱和,大量流体出溶,岩浆水会与各类卤化物一起以独立流体相形式从熔体中分离出来,这种富含挥发分和高盐度的流体具有很强的金属携带能力,为随后发生的斑岩矿化提供热液和金属来源,提高母岩浆的成矿潜力。
Abstract:
The parent magma rich in water (mass fraction of water is more than 4%) is the critical factor for the enrichment and mineralization of ore-forming elements (Cu, Au, etc.), and one of the key to the formation of magma-hydrothermal systems. The main characteristics include that the occurrence of amphibole phenocrysts, enriched light rare earth elements, depleted middle rare earth elements, and w(Sr)/w(Y)>40 and w(La)N/w(Yb)N>40. The water of porphyry metallogenic system in arc settings is derived from the dehydration melting of oceanic plate or metasomatized lithospheric mantle; however, the water of porphyry metallogenic system in post-collisional settings, which is lack of direct subduction source, is likely to be derived from mixing of water-rich mafic magma with melt at lower and/or upper-crustal depths, or from crystallization differentiation of ore-related magmas themselves. Although the geodynamic background of porphyry metallogenic system and the enrichment mechanism of magmatic water in ore-related parent magma are different, they are still considered as the uniform mineralization mechanism. The higher magmatic water is the necessary conditions of forming magmatic hydrothermal mineralization system. During the process of partial melting, the addition of H2O can reduce the melting point of magma, promote the re-melting of the source containing Cu, Au sulfide, or the extraction of Cu, Au ore-forming elements from rock, or the aggregation of the scattered distribution of metal elements in magma, forming metal-rich magma; after the emplacement of ore-related magma, the water-rich magma will quickly reach saturation, making abundant fluids exsolve from magma and magmatic water with all kinds of halide separate from the melt in the form of independent fluid phase. The high-salinity fluid, which is rich in volatile possessing strong capacity of carrying metals, can prompt copper and gold clathrates, and other metal fractions enriched in the fluid, and provide main ore-forming fluids and metal source for the porphyry mineralization, and generate (or improve) the metallogenic potential of parent magma.

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备注/Memo

备注/Memo:
收稿日期:2016-03-22
基金项目:国家重点基础研究发展计划(“九七三”计划)项目(2015CB452605,2015CB452606);北京市优秀博士学位论文指导老师科研项目(20111141501);中国地质调查局地质大调查项目(12120114013501);中国博士后科学基金项目(2015M581143);高等学校学科创新引智计划项目(B07011)
作者简介:鲍新尚(1991-),女,河北肃宁人,理学硕士研究生,E-mail:2687190085@qq.com。
通讯作者:杨立强(1971-),男,湖南湘潭人,教授,博士研究生导师,理学博士,E-mail:lqyang@cugb.edu.cn。
更新日期/Last Update: 2016-07-19