宁芜南段和睦山铁矿床矿物学特征及其成因意义
Received:June 15, 2014  Revised:December 30, 2014  点此下载全文
引用本文:JIANG YongWei,ZHANG ZhiYu,DU YangSong,LUO Gan,ZHANG YanWen,ZHENG ZeJun,REN ChunLei.2015.Mineralogy of Hemushan iron deposit in southern part of Ningwu ore concentration area and its genetic significance[J].Mineral Deposits,34(1):163~178
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Author NameAffiliationE-mail
JIANG YongWei School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China  
ZHANG ZhiYu Institute of Geology, Chinese Academy of Geological Sciences, Beijing 100037, China zhangzhiyu@cags.ac.cn 
DU YangSong School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China  
LUO Gan School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China  
ZHANG YanWen School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China  
ZHENG ZeJun School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China  
REN ChunLei School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China  
基金项目:本文得到国家青年自然科学基金项目(编号:41302062)、中央高校基本科研业务费专项资金项目(编号:2011YYL125)和中国地质调查局项目(编号:12120113069900)联合资助
中文摘要:位于宁芜矿集区南部钟姑矿田内的和睦山铁矿床是长江中下游成矿带内的一个典型的中型玢岩铁矿床,其主矿体呈似层状或透镜状产于闪长(玢)岩体与中-上三叠统地层接触带及其附近的灰岩中。近矿围岩蚀变矿化强烈,并具有显著的分带特征。岩(矿)相学研究表明,该矿床的形成经历了成矿前期(钠长石阶段)、主成矿期(阳起石-磷灰石-Ⅰ型磁铁矿阶段、浅闪石-金云母-Ⅱ型磁铁矿阶段和赤铁矿阶段)和成矿后期(石英-黄铁矿阶段和碳酸盐阶段)。矿物学研究表明,热液浅闪石较早阶段阳起石更富Al和Na、而贫Si;晚阶段Ⅱ型磁铁矿较早阶段Ⅰ型磁铁矿更富Ti和Al、而贫Mg。由岩体到矿体方向,金云母中MgO含量逐渐富集,而FeO和TiO2含量逐渐降低,说明浅闪石-金云母-Ⅱ型磁铁矿阶段的成矿温度高于阳起石-磷灰石-Ⅰ型磁铁矿阶段,且阳起石-磷灰石-Ⅰ型磁铁矿阶段成矿热液在演化过程中,温度是逐渐降低的。综合研究表明,和睦山铁矿床为中-高温气液交代充填成因,Ⅰ型磁铁矿的形成以热液交代作用为主,Ⅱ型磁铁矿的生成则以热液充填作用为主,钠化对铁的活化和迁移起了重要作用。
中文关键词:地球化学  矿物学  阳起石-磷灰石-磁铁矿矿石  浅闪石-金云母-磁铁矿矿石  成矿过程  宁芜和睦山铁矿床
 
Mineralogy of Hemushan iron deposit in southern part of Ningwu ore concentration area and its genetic significance
Abstract:The Hemushan iron deposit, which is located in the Zhonggu orefield within the southern part of the Nanjing-Wuhu large ore concentration area, is a typical medium-sized porphyrite iron deposit in the Yangtze River metallogenic belt. The major orebodies occur as layers and lens in the contact zones between dioritic pluton and volcanic rocks and limestone near the contact zones. Alteration and mineralization are intense in the country rock close to the orebody, and exhibit significant zoning: Albitophyre→actinolite-apatite-Ⅰ type magnetite ore→(tourmaline)-edenite-phlogopite altered rock→edenite-phlogopite-Ⅱ type magnetite ore→marbleized limestone with magnetite→albitophyre. Petrographic and mineragraphic observations support division of the ore-forming process of the deposit into pre-metallogenic, major metallogenic, and post-metallogenic periods. The pre-metallogenic period consists of albite stage, the major metallogenic period comprises actinolite-apatite-Ⅰ type magnetite, edenite-phlogopite-Ⅱ type magnetite, and hematite stages, and post-metallogenic period is composed of quartz-pyrite and carbonate stages. Mineralogical studies indicate that, in comparison with actinolite of the early stage, hydrothermal edenite contains more Al, Na, and less Si, whereas late stage Ⅱ type magnetite contains more Ti, Al, and less Mg than the magnetite of stage Ⅰ type. From rock mass to orebodies, MgO is gradually concentrated in phlogopite while FeO and TiO2 tend to decrease. It is shown that the metallogenic temperature of edenite-phlogopite-Ⅱ type magnetite stage is higher than that of actinolite-apatite-Ⅰ type magnetite stage. And, the temperature of ore-forming fluids in actinolite-apatite-Ⅰ type magnetite stage is gradually reduced. Integrated studies indicate that the Hemushan iron deposit is a medium-high temperature gas-liquid metasomatic-filling deposit. Hydrothermal metasomatism formed Ⅰ type magnetite, and hydrothermal filling produced Ⅱ type magnetite. Ⅰn the process of mineralization, sodium metasomatism played an important role in the activity and migration of iron.
keywords:geochemistry  mineralogy  actinolite-apatite-magnetite ore  edenite-phlogopite-magnetite ore  ore-forming process  Hemushan iron deposit in Ningwu area
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