延边东部石英脉型白钨矿床成矿流体特征——来自羊井沟和四道沟矿床稀土元素原位LA - ICP - MS的证据

IF 1.1 4区 地球科学 Q3 GEOLOGY
Resource Geology Pub Date : 2022-01-01 DOI:10.1111/rge.12295
Jing-mou Li, Yun‐sheng Ren, Yu-jie Hao, Qingdong Zeng
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引用次数: 0

摘要

石英脉型白钨矿床分布在吉林延边东部珲春锡向金铜钨带,是近十年来新发现的一组白钨矿床。为确定成矿流体性质及成矿机制,对该成矿带内选定的羊井沟和四道沟白钨矿床进行了原位激光烧蚀-电感耦合等离子体质谱(LA - ICP - MS)分析。结果表明,羊井沟白钨矿中REE3+取代Ca2+的机制为:3Ca2+ = 2REE3+ +□Ca(□为空位)。稀土元素呈略向右倾斜的扁平模式,Eu呈明显的正异常。四道沟白钨矿通过2Ca2+ = REE3+ + Na+和Ca2+ + W6+ = REE3+ + Nb5+机制完成了取代作用。稀土元素呈左倾模式,mree(主要为Dy)相对富集,白钨矿核呈负Eu异常,白钨矿边缘无或不明显正Eu异常。通过与区内与成矿关系密切的花岗岩的稀土元素对比,确定这两个白钨矿床的成矿流体主要来源于岩浆作用。羊井沟白钨矿EuN与Eu*N的相关性不明显,且EuN/Eu*N值较高,表明其成矿流体为还原性流体。其强烈的正Eu异常并非完全继承自矿化的tonalite,而是由于水岩反应释放Eu所致。四道沟白钨矿EuN与Eu*N具有较好的相关性,EuN/Eu*N值较低,表明成矿流体为氧化流体。这可能是由于原始岩浆流体与大量的大气水混合造成的。研究表明,水岩反应是延边东部石英脉型白钨矿的重要成矿机制。此外,流体混合对四道沟白钨矿床也有重要影响。这些机制影响了白钨矿的稀土元素组成特征。初始含矿流体对五道沟群变质岩进行交代作用,形成水岩反应,富集了Ca、w等成矿物质。随着成矿流体沿NW向构造向上运移,构造减压引起的CO2和CH4逸出破坏了成矿流体体系的物理化学平衡,催化Ca2+和WO42−的结合,导致白钨矿的沉淀富集。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The ore‐forming fluids characteristics of quartz‐vein type scheelite deposits in eastern Yanbian, NE China: Evidence from in situ LA‐ICP‐MS rare earth elements of Yangjingou and Sidaogou deposits

The ore‐forming fluids characteristics of quartz‐vein type scheelite deposits in eastern Yanbian, NE China: Evidence from in situ LA‐ICP‐MS rare earth elements of Yangjingou and Sidaogou deposits
The quartz‐vein type scheelite deposits distributed in the Hunchun SN‐trending gold‐copper‐tungsten belt in eastern Yanbian, Jilin Province, are a group of recent discovery for the past decade. To determine properties of the ore‐forming fluids and the mineralization mechanism, in situ laser ablation‐inductively coupled plasma‐mass spectrometry (LA‐ICP‐MS) rare earth elements (REE) analysis of the ore mineral scheelite was carried out for the selected Yangjingou and Sidaogou scheelite deposits in this metallogenic belt. The results showed that the substitution of REE3+ for Ca2+ in scheelite from the Yangjingou scheelite deposit can be accounted for the substitution mechanism: 3Ca2+ = 2REE3+ + □Ca (where □ is a site vacancy). It shows a slightly right‐dipped flat REE pattern with distinct positive Eu anomalies. The Sidaogou scheelite deposit, completes the substitution via the 2Ca2+ = REE3+ + Na+ and Ca2+ + W6+ = REE3+ + Nb5+ mechanisms. It shows left‐dipped REE pattern with relative enrichment of MREEs (mainly Dy) with negative Eu anomalies in the scheelite core and no or insignificant positive Eu anomalies in the scheelite rim. By comparing with the REE of granites which are close related to mineralization in the area, the ore‐forming fluids of these two scheelite deposits are determined to be mainly derived from magmatism. The inapparent correlation between EuN and Eu*N of the Yangjingou scheelite deposit and the high EuN/Eu*N values indicate that its ore‐forming fluids are reducing fluids. Its strong positive Eu anomalies are not entirely inherited from the mineralized tonalite, but is due to the release of Eu from the water‐rock reaction. The good correlation between EuN and Eu*N and the low EuN/Eu*N values in the Sidaogou scheelite deposit indicate that the ore‐forming fluids are oxidizing fluids. This may be caused by the mixing of the original magmatic fluid with a large amount of meteoric water. This study suggests that the water‐rock reaction is an important mineralization mechanism for the quartz vein‐type scheelite deposits in eastern Yanbian. In addition, fluid mixing is also important for the Sidaogou scheelite deposit. All these mechanisms influence the REE compositional characteristics of scheelite. The initial ore‐bearing fluids metasomatized the metamorphic rocks of Wudaogou Group, resulting in water‐rock reaction, and enriched ore‐forming materials such as Ca and W. As the ore‐forming fluids migrated upward along the NW‐trending structures, the escape of CO2 and CH4 caused by the tectonic decompression disrupted the physiochemical balance of the ore‐forming fluid system, catalyzed the combination of Ca2+ and WO42−, resulting in the precipitation and enrichment of the scheelite.
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来源期刊
Resource Geology
Resource Geology 地学-地质学
CiteScore
2.30
自引率
14.30%
发文量
18
审稿时长
12 months
期刊介绍: Resource Geology is an international journal focusing on economic geology, geochemistry and environmental geology. Its purpose is to contribute to the promotion of earth sciences related to metallic and non-metallic mineral deposits mainly in Asia, Oceania and the Circum-Pacific region, although other parts of the world are also considered. Launched in 1998 by the Society for Resource Geology, the journal is published quarterly in English, making it more accessible to the international geological community. The journal publishes high quality papers of interest to those engaged in research and exploration of mineral deposits.
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