北祁连山火山成因块状硫化物矿床的金属来源研究   总被引：2，自引：0，他引：2  

蒋敬业  李方林  王苹  陆建培 《地质科技情报》1999,18(2):57-61

研究了北祁连山造山带火山成因块状硫化物矿床（ＶＭＳ）类型、金属来源与容矿围岩、火山岩类型及其构造环境的关系。结果表明,容矿岩石和地壳性质是控制矿床类型和金属来源的主要因素。多金属黑矿型矿床主要赋存于硅名质陆壳边缘裂陷带双峰火山岩系的酸性火山岩中,成矿元素源于深部长英质岩石,铜型矿床产于洋壳基性火山岩中,成矿元素源于深部镁铁质岩石。中寒武统双峰火山岩所赋存的多金属ＶＭＳ矿床多、规模大,是主要含矿矿岩  相似文献   

葡萄牙NeVes COrVO块状硫化物矿床锡石的微量元素地球化学     

于际民  蒋少涌 《地球化学》2001,30(2):140-146

对葡萄牙Neves Corvo Cu.Sn多金属矿床锡矿石，富铜硫化物矿石和贫铜硫化物矿石中锡石的微量元素电子探针分析结果的综合研究表明，该矿床存在高温（＞300度），富W的早期锡矿化阶段，钞晚的贫W，富Cu，温度略低（245－295度）的Cu,Sn主矿化阶段，以旬晚的贫W，贫Cu温度更低（约200度）的Cu,Sn矿化阶段，结合Pb同位素研究可以推测矿床中Sn可能来源于矿体下部深处未出露的，与板块俯冲有关的富Sn古老地壳岩石，与其他类型锡矿床的微量元素对比表明，Neves Corvo矿床属于处于火山岩容矿（VHMS）型和沉积岩容矿（SHMS）型块状硫化物矿床之间的一种过渡类型－－伊比利亚型。  相似文献   

伊比利亚型——一种新类型块状硫化物矿床地质地球化学及成因   总被引：3，自引：0，他引：3       下载免费PDF全文

于际民  蒋少涌 《地质找矿论丛》2000,15(3):246-253

块状硫化物矿床主要有两种类型：火山岩容矿型（如日本黑矿）和沉积岩容矿型（如加拿大苏利文矿床）。近年来,在西班牙和葡萄牙的伊比利亚区发现了一条长２５０ｋｍ,宽２５～７０ｋｍ的黄铁矿带,其中产有若干世界级的超大型锡多金属块状硫化物矿床。根据对这些矿床的地质特征、成矿流体包裹体、Ｈ、Ｏ、Ｓ、Ｐｂ同位素及成矿环境和成矿模式的研究表明,它们具有明显不同于火山岩深矿型沉积岩容矿型块状硫化物矿床的特征,而一种新  相似文献   

白银厂铜多金属矿田微量元素和稀土元素地球化学研究   总被引：1，自引：1，他引：1       下载免费PDF全文

宋学信  张景凯  徐庆生  曹亚文 《矿床地质》1993,12(4):308-317

与日本黑矿及现代海底火山岩为主岩矿床相比，白银厂矿田各类矿石，尤其是块状Ｚｎ－Ｐｂ－Ｃｕ矿石具有最高的Ａｓ和Ｂｉ含量，比较高的Ｇａ、Ｃｄ和Ａｕ含量，以及较高的Ａｕ／Ａｇ和Ｃｏ／Ｎｉ比值。该矿田矿石的Ａｕ含量与闪锌矿中铁含量呈负相关关系。小铁山矿床闪锌矿与日本黑矿的闪锌矿微量元素特征很相似。矿田各类矿石ＲＥＥ型式与细碧角斑岩类岩石基体相似，这说明矿石与岩石的物质来源基本一致。研究和对比表明，火山成因  相似文献   

西太平洋冲绳海槽烟囱硫化物矿床矿石化学特征与分带型式   总被引：12，自引：0，他引：12  

侯增谦  T. Urabe 《地球学报》1997,18(2):171-181

西太平洋冲绳海槽烟囱式硫化物矿床分布于琉球弧后扩张盆地、产于尹是名洼陷盆地（深１４００ｍ），其特征与日本黑矿类似。硫化物矿石及烟囱主要有３种化学类型：Ｐｂ－Ｚｎ－Ｂａ型、Ｚｎ－Ｐｂ型和Ｃｕ－Ｚｎ型，三者分别代表温度不断升高的热液体系的早、中、晚３个成矿阶段产物，其中，Ｐｂ－Ｚｎ－Ｂａ矿石及烟囱形成于高ｆｏ２环境和高流速、低温、富Ｐｂ、Ｚｎ、Ｂａ热液体系，Ｃｕ－Ｚｎ矿石及烟囱形成于低流速、高温、富Ｃｕ热液体系，Ｚｎ－Ｐｂ矿石则介于其间。硫化物烟囱显示明显的矿物－化学分带。在Ｐｂ－Ｚｎ－Ｂａ矿石（烟囱），Ｚｎ、Ｃｄ集中于烟囱中央，Ｂａ、Ｆｅ、Ａｓ、Ｓｂ、Ａｇ、Ｐｂ集中于烟囱外带，Ｃｕ则富集于烟囱中外部。在Ｃｕ－Ｚｎ矿石，Ａｓ、Ｓｂ、Ｆｅ、Ａｇ、Ａｕ仍富集于烟囱外带，Ｃｕ、Ｚｎ、Ｐｂ则在烟囱中央富集。依此元素化学分带型式，建立了古代黑矿硫化物矿体分带与硫化物堆积模式。  相似文献   

一种亟待重新认识的铜矿床——滇中土状铜矿   总被引：2，自引：0，他引：2  

李志群  任治Ji 《地质与勘探》2000,36(3):11-14

滇中土铜矿长期被认为是一种不可利用的铜矿床,新的湿法冶金技术应用使之成为了效益型铜资源。滇中土状铜矿产于中元古界昆阳群落雪组的土状风化壳内,分为面型和线型两种矿床类型。主要铜矿物为孔雀石、硅孔雀石、微粒状赤铜矿和黑铜矿、少量残余含铜硫化物。其矿石平均品位同于原生硫化矿。与原生矿石相比,土状氧化铜矿石ＳｉＯ２、Ａｌ２Ｏ３、Ｆｗ２Ｏ３、Ｍｎｏ明显富集,ＣａＯ与ＭｇＯ大量淋失,由碱性矿石变成了可酸浸的非  相似文献   

黑矿型矿床成矿物质来源：日本上向黑矿铼—锇和氦同位素证据   总被引：5，自引：1，他引：5  

侯增谦  杜安道等 《地质学报》2001,75(1):97-105

上向黑矿（Uwamuki Kuroko)是日本最典型的黑矿型矿床，它形成于日本岛弧中新世矢折岛弧裂谷环境，产于双峰式岩石组合的长英质火山岩系中。矿床由下部筒状硅矿带和上部块状黑矿带构成，后者显示典型的上黑（黑矿）下黄（黄矿）金属分带。为探索研究长期争议的成矿物质来源，系统测定了矿石和主岩的Os,He同位素组成。含矿流纹岩系的R／RA值介于0．93－1．14间，证实该岩浆可能主要来源于陆壳重熔。上向黑矿的上部块状黑矿矿石具较高的^187Os/^188Os值（2．246－7．608），反映矿石Os主体来源于壳源沉积物或矿区基底岩系；下部脉状－网脉状硅矿、块状黄矿和少量黑矿则具低^187Os/^188Os值（0．423－0．793），证实矿石Os具两源性，估计幔源物质贡献约57％－89％，壳源物质贡献约11％－43％。此外，在上部块状黑矿带内部，矿石 ^187Os/^188O显示清楚的垂向韵律性变化，揭示了成矿流体及成矿物质的周期性混合，据此，本文提出了一个新的两阶段成矿模式。  相似文献   

阿尔泰山南缘可可塔勒式大型铅锌矿床的成矿条件分析   总被引：11，自引：0，他引：11  

秦克章  王京彬 《有色金属矿产与勘查》1998,7(2):65-74

产于阿尔泰山南缘泥盆地系海相火山断陷盆地的可可塔勒式铅锌矿床,不同于典型的ＶＨＭＳ矿床与ＳＥＤＥＸ矿床,系火山岩系中沉积岩容矿的块状－浸染状硫化物型矿床。在对其地质、地球化学特征进行系统总结并与中小型矿床对比的基础上,本文分析了该类大矿的形成条件：陆缘扩张带的大地构造背景、不同级序断裂构造与火山机构控矿、分异良好的火山－岩浆活动、充分的热水淋滤作用、良好的聚矿洼地、有利的沉积建造组合以及合适的后其  相似文献   

蔡家营铅—锌—银矿床的稳定同位素地球化学研究   总被引：3，自引：0，他引：3  

黄曲豪  张长江 《地球化学》1997,26(4):24-25

河北蔡家营矿床是大型中温热液充填－交代脉型铅－锌－银矿床。其硫化物的δ＾３４Ｓ值为２．２‰－７．８‰，同世代共存的１０个硫化物对的Δ＾３４Ｓ值表明，Ｆｅ－（Ｚｎ、Ｐｂ）－Ｓ系统的硫同位素非平衡分馏占主导，硫是岩浆（为主）与老变质岩层硫的混合来源。石英及其流体包裹体的δ＾１８ＯＳＭＯＷ和δＤＳＭＯＷ值（‰）按混合模式计算表明，成矿流体为混合的岩浆和大气降水，早期成矿流体以岩浆为主，尔后则变为以大气降  相似文献   

中华人民共和国大厂锡—多金属矿田分带的流体包裹体研究     

Fu  M 李荫清 《国外矿床地质》1995,(1):54-73

中华人民共和国大厂锡－多金属矿田是世界上最大的矿床之五，它包括长坡、巴力和龙头山锡－贱金属矿床，大福楼黑色页岩和容矿岩的锡石－硫化物矿床以及拉么Ｃｕ－Ｐｂ－Ｚｎ近端矽卡岩矿床。这些矿床产于泥盆纪富碳酸盐质沉积岩相到靠近下伏燕山期龙箱盖花岗岩９１Ｍａ的角闪角岩相。深成侵入岩和有关的矿化受Ｎ－ＮＷ走向的龙箱盖和长坡背斜控制，Ｆ１逆断层为远端矽卡岩溶液之通道。长坡锡矿化成因上与Ｓ型龙箱盖花岗岩有关，靠近  相似文献   

Chemical Composition of Ores from the Takara Volcanogenic Massive Sulfide Deposit, Central Japan     

Daigoro Yakushi  Mamoru Enjoji 《Resource Geology》2004,54(4):437-446

Abstract. The Takara volcanogenic massive sulfide (VMS) deposit occurs in Miocene formation of the Misaka Mountain, the South Fossa Magna region, central Japan. The tectonic setting of the Misaka Mountain is reconstructed to be a part of the paleo Izu-Ogasawara arc which collided with the Honshu arc and to form accreted body in the present position. The Takara deposit, therefore, is considered to have formed in the paleo Izu-Ogasawara arc.
The ores from the Takara deposit are classified into pyrite-type ore, chalcopyrite-type ore, and sphalerite-type ore on the basis of chemical composition and their mineral assemblages. Some pyrite-type ores are characterized by their high Au content. The Au content is hardly recognized in the chalcopyrite-type and sphalerite-type ores.
The ores from the Takara deposit have intermediate bulk chemical composition between those from the Besshi-type deposits and the Kuroko-type deposits that are two representative VMS deposits. However, the bulk chemical composition is closer to that from the Kuroko-type deposits. And moreover, chemical composition of tetrahedrite-tennantite series minerals (tetrahedrite) is similar to that from the Kuroko-type deposits. The bulk chemical composition (Cu, Zn, Co, Pb, and As contents) of ores is affected by the chemical composition of volcanic rocks associated with VMS deposits.  相似文献   

The Ashele Deposit: A Recently Discovered Volcanogenic Massive Sulfide Cu-Zn Deposit in Xinjiang, China   总被引：1，自引：0，他引：1  

Denghong Wang  Yuchuan Chen  Jingwen Mao 《Resource Geology》1998,48(1):31-42

Abstract: The Ashele Cu-Zn deposit is a recently discovered volcanogenic massive sulfide deposit in Xinjiang, Northwestern China. It is the largest Cu-Zn deposit in this type of deposits in China, which were formed in the early period of later Palaeozoic Era. This deposit is hosted within a suit of bimodal submarine volcanic rocks of the Ashele Formation of Lower-Middle Devonian System formed in an environment of paleocontinental margin rift setting. Lensoid orebodies occur between spilitic rocks developed at footwall and quartz-keratophyric tuff at hanging wall. Zonation of metal elements in the Ashele mine is one of typical volcanic-related exhalative Cu-Zn sulfide deposits in the world. Black ores enriched in Pb, Zn and Ag occurs on the top of the No. 1 orebody in the Ashele deposit, yellow ores enriched in Cu in the middle part, and the chalcopyritization stringer below the massive sulfide ores. Zonation of ore-structure in the No. 1 orebody is also apparent and corresponds to the zoning of elements, i. e. lamellar and/or banded sulfide-sulfate ores on the top, massive sulfide ores in the middle, and stockwork veinlets associated with altered breccia pipe on the bottom. Four epochs of mineralization in the Ashele deposit has been recognized. The first period of syngenetic-exhalative deposition of sulfides is the main epoch of mineralization, and the ores deposited subsequently subjected to thermo-metamorphism at the second epoch, superimposed by hydrothermal mineralization at the third epoch, and weathered or oxidized at the fourth epoch.
More than 100 categories of minerals have been recognized in the Ashele mine, but only pyrite, chalcopyrite, sphalerite, tetrahedrite, galena, barite, quartz, chlorite, sericite, and calcite are dominant, making up various types of ores, and alteration pipes or horizons. Studies of ore petrology suggest that the massive ores were volcanogenic and deposited by exhalative process.  相似文献   

Cyclic ore formation of some volcanogenic massive sulfide deposits in the skellefte district,Sweden     

C. Trepka-Bloch 《Mineralium Deposita》1985,20(1):23-29

The Näsliden and Rävliden deposits in the Skellefte field consist of stratiform massive sulfide ores associated with submarine volcanic and clastic rocks. The ores are pretectonic. Consequently, the orebodies are considered to have formed syngenetically with deposition of the host rocks. Banding and interlayering with host sediments are common features. Cu : Zn and Zn : Pb ratios of the ores show stratigraphically and laterally defined trends. Cu : Pb : Zn ratios correspond with those found in other deposits of volcanogenic origin. Nonstratiform breccia Cu mineralizations occur directly under the massive stratiform ores in the footwall rocks where hydrothermal alteration is strongest. Ore formation took place intermittently resulting in clusters of ore systems occurring at slightly different stratigraphical levels within each deposit.  相似文献   

云南鲁春VMS 锌铅铜多金属矿床的成矿金属来源     

胡永斌  曾普胜  尹光侯  朱俊 《世界地质》2011,30(2):154-161

鲁春VMS 锌铅铜多金属矿床产于金沙江构造带内鲁春-红坡牛场伸展裂谷盆地中,是三江地区典型的火山成因块状硫化物矿床,其含矿层位为双峰式火山岩系中的流纹质火山--沉积岩系。通过研究该矿床的主成矿元素、双峰式火山岩和矿石的稀土元素特征,对其成矿金属来源、赋矿火山岩及构造环境进行研究表明,鲁春多金属矿床属Zn --Pb --Cu 型火山成因块状硫化物矿床,形成于碰撞造山后在薄陆壳( 陆缘弧) 基底上伸展而成的裂谷盆地环境; 矿石的主成矿元素含量特征w ( Zn) /w ( Pb + Zn) 均值为0. 64,与日本黑矿和四川呷村矿床较为接近; ΣREE 为( 15. 99 ～ 144. 43) × 10 － 6,平均73. 99 × 10 － 6,LREE/ HREE 为3. 59 ～ 11. 40,平均6. 30,呈典型的LREE 富集型; δEu 为0. 13 ～ 0. 46,平均0. 28,Eu 负异常明显,与矿区流纹岩极为相似。矿体与流纹岩空间上的密切关系以及地球化学特征的一致性表明,成矿金属元素源自下伏的长英质岩系。  相似文献   

现代海底热液成矿作用研究现状及发展方向   总被引：15，自引：0，他引：15  

侯增谦  莫宣学 《地学前缘》1996,3(4):263-273

现代海底热水成矿作用研究的重大进展表现在两个方面：（１）大批活动的和窒息的热液活动区和硫化物矿床在洋脊、岛弧、弧后盆地及板内火山活动中心等海底环境相继发现。在沉积物饥饿洋脊，矿床规模较小，Ｃｕ－Ｚｎ为主，沉积物覆盖洋脊，矿床规模巨大，Ｐｂ－Ｚｎ为主。弧后扩张或弧间裂陷盆地，形成Ｐｂ－Ｚｎ→Ｚｎ－Ｐｂ－Ｃｕ→Ｃｕ－Ｚｎ矿床谱系。岛弧环境硫化物矿床不具规模，板内火山活动中心以氧化物－硫化物矿化为特色。（２）现代海底热水成矿作用观察和研究为古代ＶＭＳ矿床成因研究提供了重要信息，对现有成矿理论产生重要影响。现代成矿观念强调：①海底成矿作用虽可产生于不同环境，但均与张裂断陷事件密切相关。矿床规模和分布特点受张裂速率制约；②成矿物质主体来源于热水循环的火山－沉积岩和下伏基底物质；③硫化物堆积发生于丘堤－烟囱联合构成的机构和结壳下部，通过开放空间的硫化物充填和先成矿石淋滤迁移来实现。④热液流体呈双扩散对流循环。现代海底热水成矿作用的未来研究方向可概括为强度方向和广度方向。广度研究将加大力度去发现新的矿床，强度研究将采用地球物理方法并配以必要的钻探，深入揭示矿床的三维结构和热液体系及成矿机制。  相似文献   

蛇纹岩化对洋中脊超基性岩热液硫化物成矿的影响:来自青藏高原德尔尼铜矿床的启示     

张华添  李江海 《大地构造与成矿学》2019,43(1):111-122

洋中脊超基性岩热液成矿系统通常与洋底核杂岩构造有关,多发育大型矿床,具有巨大的资源前景。然而,受大洋调查取样手段的限制,超基性岩蛇纹岩化对成矿的影响仍需进一步研究。德尔尼铜矿床是地质历史上该类矿床的典型案例,对于理解其成矿模式,以及大洋硫化物勘探具有指导意义。本文选取德尔尼铜矿床块状硫化物样品进行黄铁矿的S同位素分析,结果表明其δ³⁴S值主要分布在-0.4‰～+6.3‰。结合前人研究发现,形成于深部网脉状、条带状矿石中的δ³⁴S值为负值,而经历表层喷流和破碎作用的块状和角砾状矿石中的δ³⁴S值为正值,二者呈对称分布,这主要是由于还原条件下岩浆排气产生的SO_2和H_2S动态平衡并逐渐沉淀S^2-,表明蛇纹岩化提供的还原环境对热液系统演化产生了重要影响。然而,磁黄铁矿和矿床Ni的分布指示成矿物质中超基性岩的贡献较小,主要物质来源是洋中脊深部的基性岩浆,通过热液循环将物质运移至海底并喷流成矿。对比现今超基性岩赋矿的高温热液硫化物矿床,德尔尼铜矿床形成温度更低,代表了超基性岩赋矿热液硫化物中的中温端元,表明在距离拆离面一定距离(约2～4km)的位置也可能形成大型的热液硫化物矿床,这对于现今洋中脊热液硫化物勘探具有一定的指导意义。  相似文献   

现代海底热液活动与块状硫化物矿床成因研究进展   总被引：8，自引：0，他引：8  

戴宝章  赵葵东  蒋少涌 《矿物岩石地球化学通报》2004,23(3):246-254

现代海底热液活动的发现及对其分布特征和成矿机理的研究是近年来海洋地质学和矿床地质学的一大进展。对现代海底金属硫化物成矿作用的研究大大推动和促进了对古代块状硫化物矿床成因的认识。有关研究成果综合分析表明：(1)深部热液对流循环系统是块状硫化物成矿的核心，对流循环模式有简单的热液对流模式和双扩散对流模式。(2)块状硫化物矿床集中分布在大洋中张裂性活动板块边界，与大地构造活动紧密联系。(3)成矿流体与成矿物质均有多源性，在强调海水循环淋滤的同时，通过应用新的方法技术，岩浆来源物质(流体及成矿金属等)对一些块状硫化物矿床成矿的直接贡献得到初步确认。(4)在高温热液活动区及金属硫化物沉积中发现大量生命活动和生物群体，意义重大。  相似文献   

四川呷村V HMS矿床：从野外观察到成矿模型   总被引：22，自引：11，他引：11  

侯增谦  曲晓明  徐明基  付德明  华力臣  余金杰 《矿床地质》2001,20(1):44-56

呷村矿床是一个与晚三叠世海相钙碱性酸性火山岩系有关的典型块状硫化物（VHMS）矿床。热水流体系统和贱金属成矿作用发育于义敦岛弧碰撞造山带上的弧间裂谷盆地内,并受其内部的一系列局限盆地及SN向基底断裂－裂缝系统控制。含矿岩系为双峰岩石组合,具火山碎屑岩－矿体－喷气岩“三位一体”特征。硫化物矿床具有“块状矿席＋层控网脉状矿带”式三维结构特征。块状矿席发育多旋回的硫化物－硫酸盐韵律型式,揭示热水流体在海底的幕式排泄以及硫化物－硫酸盐在卤水池内的韵律式化学淀积和滑塌堆积过程。层控网脉状矿带产出于流纹质火山岩系,与上覆的块状矿席平行展布,揭示高渗透性碎屑岩层和多条同级别断层或断裂共同约束海底下部热水流体,并诱导其“弥散式”排泄和侧向流动交代。热水流体的传导冷凝过程导致硫化物沉积、热水流体与冷海水的简单混合导致硅质岩或／重晶石淀积,传导冷凝与海水混合的联合作用导致含硫化物重晶石、硅质岩和红碧玉形成。  相似文献   

Massive sulfide deposition and trace element remobilization in the Middle Valley sediment-hosted hydrothermal system, northern Juan de Fuca Rdge     

J.L Houghton  W.C Shanks III 《Geochimica et cosmochimica acta》2004,68(13):2863-2873

The Bent Hill massive sulfide deposit and ODP Mound deposit in Middle Valley at the northernmost end of the Juan de Fuca Ridge are two of the largest modern seafloor hydrothermal deposits yet explored. Trace metal concentrations of sulfide minerals, determined by laser-ablation ICP-MS, were used in conjunction with mineral paragenetic studies and thermodynamic calculations to deduce the history of fluid-mineral reactions during sulfide deposition. Detailed analyses of the distribution of metals in sulfides indicate significant shifts in the physical and chemical conditions responsible for the trace element variability observed in these sulfide deposits. Trace elements (Mn, Co, Ni, As, Se, Ag, Cd, Sb, Pb, and Bi) analyzed in a representative suite of 10 thin sections from these deposits suggest differences in conditions and processes of hydrothermal alteration resulting in mass transfer of metals from the center of the deposits to the margins. Enrichments of some trace metals (Pb, Sb, Cd, Ag) in sphalerite at the margins of the deposits are best explained by dissolution/reprecipitation processes consistent with secondary remineralization. Results of reaction-path models clarify mechanisms of mass transfer during remineralization of sulfide deposits due to mixing of hydrothermal fluids with seawater. Model results are consistent with patterns of observed mineral paragenesis and help to identify conditions (pH, redox, temperature) that may be responsible for variations in trace metal concentrations in primary and secondary minerals. Differences in trace metal distributions throughout a single deposit and between nearby deposits at Middle Valley can be linked to the history of metal mobilization within this active hydrothermal system that may have broad implications for sulfide ore formation in other sedimented and unsedimented ridge systems.  相似文献   

The use of fluorine as a pathfinder for volcanic-hosted massive sulfide ore deposits     

Norman G. Lavery   《Journal of Geochemical Exploration》1985,23(1):35-60

A multi-element geochemical study of the wall rocks of intermediate to felsic volcanic-hosted massive sulfide deposits was carried out to identify pathfinder elements which significantly enlarge the size of exploration targets. Drill core samples from the Crandon massive sulfide deposit in Wisconsin, and outcrop samples from the United Verde and Iron King deposits in Arizona, and from the Captains Flat, Mt. Costigan, and Wiseman Creek deposits in New South Wales, Australia were analyzed. Because anomalously high fluorine values have been described in several volcanic-hosted ore systems, fluorine was included in the study.All of the above deposits have patterns of fluorine enrichment around ore. Drill core samples from two noneconomic prospects within ten miles of the Crandon deposit contain background to only weakly anomalous fluorine values.At the large Crandon deposit (> 50 million tons of zinc, copper ore), fluorine enrichment extends approximately 320 m into the footwall rocks and at least 220 m into the hanging wall rocks. At the large United Verde deposit (> 50 million tons of copper, zinc ore), fluorine enrichment is recognizable in the footwall rocks at least 650 m from the ore. At the smaller Iron King deposit (five million tons production of zinc, lead, copper ore), fluorine enrichment extends for a distance of approximately 60 m into the footwall rocks. At the small deposits in New South Wales (< five million tons production of zinc, lead, copper ore), fluorine enrichment is easily recognizable, but with the samples collected, the limits of the anomalous patterns cannot be defined.Fluorine occurs in some hydrothermal systems unassociated with mineralization and is therefore not a specific signature of ore-forming processes. From the work completed, many massive sulfide deposits in volcanic rocks occur in hydrothermal systems which contain fluorine. On the basis of the data presented, if anomalously high fluorine values do exist in an exploration search area, the chances of finding a massive sulfide ore deposit are improved.Genetic models for volcanic-hosted massive sulfide ore deposits have concentrated on rock textures, alteration mineralogy, and geochemistry of the ore metals. From the data presented, fluorine should be considered as a component of massive sulfide systems in intermediate to felsic volcanic rocks, and should be considered as a possible complexing agent for the ore metals.  相似文献