陕西省凤县草滩沟金矿床地质特征及成矿条件分析     

《陕西地质》2017,(2)

草滩沟金矿床位于北秦岭早古生代、中生代金铜银锑钼成矿带(Ⅲ-38)内的庞家河—白石铺金矿成矿带内(Ⅲ-383),成矿物质主要来源于岩体,断裂构造为成矿物质的迁移和富集提供了运移通道和储存空间,本区找矿潜力大。  相似文献   

西天山古生代铜金多金属矿床类型、特征及其成矿地球动力学演化   总被引：19，自引：4，他引：19  

王志良  毛景文  张作衡  左国朝  王龙生 《地质学报》2004,78(6):836-847

根据铜金矿床的含矿主岩和成矿作用方式 ,西天山的铜矿床主要可划分为 3种类型 :斑岩型、夕卡岩型和火山热液型 ;金矿床可划分为 2种类型 :浅成低温热液型和斑岩型。研究区从北到南可划分为 3条东西向的成矿带 :1阿拉套—科古琴铜多金属成矿带 ,分布着与中元古界灰岩和海西中期中酸性浅成侵入岩有关的斑岩 -夕卡岩铜矿、与海西中期酸性浅成侵入岩有关的斑岩型铜矿 ;2博罗科洛金多金属成矿带 ,分布着与下石炭统中酸性火山碎屑岩和中—基性熔岩有关的浅成低温热液型金矿、与海西中期中酸性浅成侵入岩有关的斑岩型金矿 ;3阿吾拉勒铜银多金属成矿带 ,分布着与二叠纪陆相中基性火山岩有关的火山热液型铜矿、与海西晚期中酸性浅成侵入岩有关的斑岩型铜矿。通过对西天山古生代的地球动力学演化探讨 ,认为上述 3条成矿带对应的大地构造单元分别为阿拉套—科古琴晚古生代岛弧带、博罗科洛晚古生代弧后盆地和阿吾拉勒二叠纪裂谷带。  相似文献   

阿尔金山喀腊大湾地区控矿构造系统研究     

《地学前缘》2015,(4)

喀腊大湾地区地处新疆若羌县境内,在区域上位于北东向阿尔金走滑断裂北侧与东西向阿尔金北缘断裂所夹持的区域,属于红柳沟—拉配泉一级成矿带的中东段部分。研究表明,喀腊大湾地区构造控矿作用明显。首先,大地构造背景控制一级矿带的分布和位置,阿尔金断裂400km左右走滑位移量将北祁连山西段成矿带左行断错至目前位置,构成了区域上红柳沟—拉配泉一级成矿带。第二,区域构造环境控制二级矿带、矿床类型和矿种类型,喀腊大湾矿集区南带南侧岛弧构造环境控制与中酸性火山岩有关的块状硫化物矿床(类VMS型),南带北侧弧盆过渡带构造环境控制与中基性火山岩有关的铁矿床,中带盆地构造环境控制与沉积岩有关的硅铁建造型铁矿床,北带南侧蛇绿混杂岩带控制与洋壳残留(基性超基性岩)有关的铜镍矿床,北带北部碰撞变形带控制与强烈韧性韧脆性变形有关的金矿床和与岩浆侵入作用有关的热液银铅矿床。第三,构造演化不同阶段具有不同的控矿作用,主要成矿作用发生在早古生代,其中:(1)新元古代晚期—早古生代早期,红柳沟—拉配泉弧后盆地(裂谷)拉张扩张时期,主要形成与中基性火山沉积作用有关的铁矿床;(2)早古生代中期为红柳沟—拉配泉弧后盆地(裂谷)俯冲碰撞作用和最后挤压闭合,形成与中酸性岛弧火山岩有关的矿床(类VMS型)(如喀腊达坂铅锌矿和喀腊大湾铜锌矿)、与大规模韧性韧脆性变形带有关的金矿床(如大平沟金矿)和与岩浆侵入活动有关的矿床(中酸性火山岩477~488 Ma,中酸性侵入岩417~514 Ma)。第四,典型构造控矿形式有火山沉积构造控矿(铁矿、铅锌矿)、韧脆性剪切带控矿(金矿)、断裂裂隙控矿(银铅矿、铜银矿)、岩体及岩体构造控矿(铜镍矿)4种类型。  相似文献   

安徽宁国石口金矿地质特征及控矿因素          下载免费PDF全文

肖万峰  洪大军  雷丁尔  张旭  陈科夫  刘宏 《华东地质》2020,(3):265-270

摘要: 安徽宁国石口金矿位于钦杭成矿带北东段,是最近新发现的金矿床。在野外地质调查和室内综合研究的基础上,对石口金矿的地质特征及控矿因素进行研究。结果表明:石口金矿矿体主要产于断裂破碎带中,呈透镜状、似层状,矿石以断裂角砾岩型为主。晚寒武世—早奥陶世西阳山组泥质灰岩、早奥陶世印渚埠组泥岩是控矿地层,NW向张性断裂是最主要的容矿构造。石口金矿NW向断裂具有较好的找矿潜力,该金矿的发现为钦杭成矿带金矿找矿勘查提供了新思路,可进一步扩大该区找矿空间。  相似文献   

蒙古-鄂霍茨克成矿带中段金矿床地质特征及构造背景   总被引：1，自引：0，他引：1  

武广  陈衍景  孙丰月  祁进平  李之彤  王希今  王宏博  李广远  庞庆帮 《矿床地质》2006,25(Z1):51-54

蒙古—鄂霍茨克成矿带是重要的金、稀有元素成矿带。作者将我国境内大兴安岭北部上黑龙江盆地和额尔古纳隆起区的砂宝斯金矿、小伊诺盖沟金矿等与俄罗斯赤塔州的达拉松、克留切夫等典型矿床进行了对比研究，以探讨该成矿带内金矿床的成因和形成的构造背景。研究表明，上述矿床均受蒙古—鄂霍茨克缝合带控制，矿床形成于西伯利亚地台与蒙古—华北陆块碰撞造山环境；我国上黑龙江盆地区与俄罗斯东后贝加尔地区同属蒙古—鄂霍茨克成矿带中段，以中温热液矿床为主，矿床类型主要为造山型金矿床。  相似文献   

新疆加曼特金矿矿床地质特征及流体包裹体初探     

吴艳爽  汪立今  马海杰  孙建华 《矿物学报》2011,(Z1)

加曼特金矿床距尼勒克县城北北西30km,矿区面积11.12km2。区域上位于伊犁亚板块的博罗霍洛古生代岛弧区也列莫顿成矿带,该矿带构造上处于伊犁亚板块北缘的博罗霍洛早古生代岛弧带,其西邻为赋存阿希大型金矿床的吐拉苏成矿带。吐拉苏-也列莫顿成矿(火山岩)带是西天山地区晚古生代重要金矿成矿区,其呈一狭  相似文献   

陕西安康沈坝金矿成矿地质特征及找矿前景分析     

《福建地质》2020,(2)

安康沈坝金矿位于南秦岭褶皱系南缘,安康北部志留纪岩金矿成矿带中部,矿体呈似层状、透镜状贮存于早志留世梅子垭组地层中,受韧性剪切带控制,其成矿与韧性剪切带时空、成因有密切联系,矿区金矿床应属于韧性剪切带蚀变岩型金矿。  相似文献   

柳西地区金矿成矿规律及找矿方向          下载免费PDF全文

张玉成 《地质找矿论丛》2002,17(3):175-179

柳西地区自古生代以来形成的柳园－俞井子裂谷带等构造奠定了金矿床产出的地质背景、金矿成矿作用受一定的地层、构造、岩浆岩控制，不同级别和规模的构造分别控制着金矿成矿带、矿床（体）的产出，同时控制着金矿的矿床类型及成矿元素组合。找矿方向为柳园－俞井子裂谷带南北缘深大裂带及其内部次级大断裂两侧。  相似文献   

辽宁省本溪县杨家堡子金矿地质特征及成因浅析     

武建勇  于天利  于波涛  邢兴庆 《化工矿产地质》2016,(1):27-32

本溪县杨家堡子金矿赋存于早古生代奥陶系马家沟组及寒武系凤山组内,矿体主要围岩为变质程度轻微的碎屑沉积岩及碳酸盐岩,矿体受断裂构造控制,金矿物及载金矿物——黄(褐)铁矿均呈稀疏浸染状分布,金成矿与燕山期二长花岗岩关系密切,具有"卡林型"金矿床地质特征。认为杨家堡子金矿是与早古生代寒武系、奥陶系地层、岩性、岩相(变质相)、断裂构造及燕山期岩浆活动有成因联系的金矿床,对矿体的矿物组合进行分析,初步确定矿化成因应属低温热液型金矿床。  相似文献   

四川省会东县金锁桥铁金矿床控矿因素及矿床成因     

《矿物学报》2015,(Z1)

<正>四川省会东县金锁桥铁金矿床位于杨子地台西缘川滇黔铜多金属成矿带,地处环太平洋构造域和特提斯构造域的结合部位,川滇黔菱形地块之会理-昆明裂陷带。该区经历了自早元古代弧后盆地、早中元中代拗拉槽、中元古代陆内裂谷、中晚元古代大陆边缘陆弧体、晚元古代后造山裂谷、古生代块断升降、地裂运动及中生代前陆盆地和山间断陷等漫长的地史演化,是以前震旦系变质岩作基底、古生代海相沉积作盖层的长期隆起地带,具地槽型变质岩系活动带及地台沉积。构成了本区良好的成矿  相似文献   

Structural Control to the Genesis of Sediment-hosted Disseminated Jinlongshan Gold Orebelt, China     

Liqing Zhao    Jun Deng    Xiang Chen    Hong Zhou  Xioumei Li 《Resource Geology》2005,55(1):9-19

Abstract. Jinlongshan gold orebelt is a newly discovered sediment-hosted gold orebelt in Southeastern Qinling Mountains hosted by Late Devonian to Early Carboniferous sedimentary rocks. The location of the belt is regionally controlled by E-W striking Zhenan-Banyan and Ningshan Faults, which were formed during the Indo-Sinian Orogeny. Circular patterns on TM images indicate that intrusive rocks occur at shallow depths in the Jinlongshan orebelt. Two basic types of disseminated and vein-type mineralization have been recognized. Calcareous siltstone is the most favorable host for disseminated mineralization. Vein-type mineralization is mostly hosted by limestone. Locally vein-type mineralization has envelop of disseminated mineralization.
Gold deposits are distributed north and south of the Zhenan-Banyan Fault zone, and the zone is considered to be the feeder zone and pathway for mineralizing fluids. During the Indo-Sinian Orogeny, magmatic and orogenic fluids may have extracted gold and other elements from underlying Proterozoic rocks and Paleozoic sedimentary rocks. The ore solutions evolved continuously with sedimentary rocks until gold was precipitated in appropriate structural sites. Exploration needs to be expanded along the Jinlongshan gold orebelt, focusing on inferred concealed intrusions and calcareous host rocks close to the Zhenan-Banyan Fault.  相似文献   

西天山地区金矿床主要成因类型及找矿方向   总被引：13，自引：4，他引：13  

沙德铭  董连慧  鲍庆中  王宏  胡秀军  张建东  孙加鹏 《新疆地质》2003,21(4):419-425

西天山地区地处古亚洲构造域天山-兴蒙成矿带的西段，经历了漫长复杂的构造演化过程，尤其是海西期强烈的构造岩浆活动，为金成矿创造了有利的条件．近几年，本区找金工作取得了突破性的进展，相继发现了阿希、望峰、大山口等金矿床，显示了良好找金前景．根据前人和笔工作，讨论了本区主要金矿化类型浅成低温热液型(又进一步划分为冰长石-绢云母型和硅化岩型)斑岩型、韧性剪切带型穆龙套型等的成矿特征，在综合分析基础上，指出找矿方向．  相似文献   

新疆北山西段裂谷演化及金矿成矿规律     

刘振涛  王满仓  张飚  李维成  崔继岗  梁群峰  王小平  杜少喜  王北颖 《陕西地质》2007,35(1):19-27

新疆北山裂谷构造带,呈北东东—北西西向展布,是在塔里木地块太古界、元古界的基础上开裂演化而成,总体呈两地块夹裂谷的构造格局,经历了∈、O-S、C-P三次大规模的裂开与闭合、由南向北迁移的演化模式。在该裂谷带晚古生代沉积盖层中分布着一系列不同类型的金矿(点),并划分了多个Au成矿亚带。本文所论为新疆北山晚古生代金(铜)Ⅴ级成矿带金矿的成矿规律。根据赋矿岩系划分为6类,矿石建造划分为四类,分别为石英脉型、破碎蚀变岩型、破碎蚀变岩型 石英脉型、中酸性岩浆热液型,以石英脉 破碎蚀变岩型为主。控矿因素为沉积建造(火山岩—碎屑岩及炭质岩系)、韧—脆性断裂、岩浆岩等;成矿时代为华力西晚期、印支期、燕山期和喜山期,成矿作用与各期构造活动同步或准同步。  相似文献   

The Suzdal gold-sulfide deposit in the black shale of Eastern Kazakhstan     

K. R. Kovalev  Yu. A. Kalinin  V. I. Polynov  E. L. Kydyrbekov  A. S. Borisenko  E. A. Naumov  M. I. Netesov  A. G. Klimenko  M. K. Kolesnikova 《Geology of Ore Deposits》2012,54(4):254-275

The Suzdal gold-sulfide deposit is situated in the northwestern part of the West Kalba gold belt in Eastern Kazakhstan and belongs to the genetic type of stringer-disseminated mineralized zones hosted in the Lower Carboniferous black-shale volcanic-carbonate-terrigenous sequences. Mineralization is controlled by the NE-trending Suzdal Fault. In the north, the deposit borders on the Early Triassic Semeytau volcanic-plutonic structure. Mineralization is superposed on the Late Paleozoic complex of metadolerite and quartz porphyry dikes. Ore deposition was a long-term process comprising four stages. The first stage was related to deposition of slightly auriferous pyrite syngenetic to host rocks. The second stage is characterized by formation of the first productive (with invisible gold) fine-acicular arsenopyrite mineralization accompanied by sericitization and localized in the tectonic zone. The stockwork ore with pocket-disseminated base-metal mineralization and free microscopic gold of the third stage is hosted in silicified rocks. The ore formation has been completed by quartz-stibnite veins superposed on all preceding types of mineralization. According to Ar/Ar dating of sericite, a chronological gap between the second and the third stages is estimated at 33 Ma. The deposit is an example of polygenetic and multistage mineralization.  相似文献   

拉鸡山裂谷带特征及演化   总被引：1，自引：0，他引：1  

左国朝  李志林 《甘肃地质》2001,10(1):26-31

拉鸡山构造带东西长逾 6 50km ,展布于由元古宇组成的结晶地块内部 ,是一条早古生代火山岩极为发育的构造带。通过作者在拉鸡山多年的野外调查工作和研究 ,认为该地区无论在区域地质学、岩石学、构造变形学还是大地构造演化方面 ,其早古生代构造演化史皆具典型的裂谷带特征。晚古生代以来 ,区内经历了陆内多阶段造山过程。新生代早更新世 ,拉鸡山巨型断裂带发生左旋走滑运动 ,导致断裂带弧形转折部位强烈崛起 ,形成雄伟高山。  相似文献   

萨热阔布—铁米尔铁矿区金铅锌成矿系列   总被引：11，自引：4，他引：11       下载免费PDF全文

马忠美  仇银江等 《地质与勘探》2001,37(4):23-26

萨热阔布－铁米尔特金铅锌多金属矿床受下泥盆统康布铁堡组上亚组第二岩性段含酸性火山碎屑岩的泥质沉积和化学沉积层控制，铁铅锌金矿床的成因类型与火山气液喷流沉积改造型。在时间和空间分布上有明显的规律性：在成矿时序上有先铁铜、后铅锌、最后为金矿；在空间分布规律上，铁铜矿床产于喷口附近，金产于火山沉积洼地的边缘的火山斜坡上，铅锌产于沉积洼地之中。  相似文献   

西秦岭地区造山型与卡林型金矿床   总被引：33，自引：0，他引：33  

毛景文 《矿物岩石地球化学通报》2001,20(1):11-13

西秦岭金矿床分为卡林型和造山型两类。卡林型金矿床麇集于南秦岭和松潘—甘孜造山带的东北部。三叠纪和早侏罗世的同构造花岗闪长岩广泛分布于西秦岭中部和南部、松潘—甘孜盆地以及扬子克拉通边缘。造山型脉状金矿床主要分布于西秦岭造山带中的脆韧性剪切带内。大部分粗粒金主要赋存在网格状石英细脉和角砾状围岩中的黄铁矿、磁黄铁矿、毒砂和少量贱金属硫化物中和以分散状分布在蚀变围岩中。同位素资料表明晚三叠世 -中侏罗世与扬子克拉通俯冲有关的作用控制了造山型金矿床的形成。  相似文献   

Prospects of large-scale noble metal mineralization in the Upper Selemdzha minerogenic zone (by the example of the Malomyr and Sagur-Semertak ore clusters)     

A. V. Melnikov  S. G. Agafonenko  I. V. Babichev  Yu. G. Piskunov  V. G. Moiseenko 《Doklady Earth Sciences》2013,449(2):380-385

The Upper Selemdzha minerogenic zone, which has the potential for noble metal mineralization in the Upper Amur, has been studied. It is confined to the thick strata of Paleozoic terrigeneous-sedimentary rocks (sandstones, siltstones, clay schists, packages of their thin rhythmical interlayering, sedimentary breccias, and conglomerates) in the Tokura subzone of the Selemdzha-Kerbinsk zone in the Amur-Okhotsk area of the Mongol-Okhotsk system, overlain by Early Cretaceous volcanogenic sedimentary rocks and intruded by Early Cretaceous quartz diorites, granodiorites, and dacites. In the Malomyr and Sagur-Semertak ore clusters, there are a few known potential deposits of noble metals and ore occurrences; when studied and prospected, they can exhibit vein-veinlet noble metal mineralization with rich contents of gold and platinoids in ore columns and metasomatic deposits.  相似文献   

Geologic structure of the Mukodek gold field (northern Transbaikalia) and sources of matter (Pb-Pb and Sm-Nd data)     

V.A. Vanin  A.V. Chugaev  E.I. Demonterova  D.P. Gladkochub  A.M. Mazukabzov 《Russian Geology and Geophysics》2018,59(9):1078-1086

The Mukodek gold field is located in the Yana zone of the Baikal-Muya fold belt (northern Transbaikalia). Its orebodies are gold-bearing metasomatites confined to the fault of NE strike. It is shown that pre-ore faults played a crucial role in the spatial localization of the orebodies, as they favored the concentration of ore-bearing fluids. Results of geological and structural studies, along with available geochronological data (⁴⁰Ar-³⁹Ar dates for micas in gold-bearing pyrite), testify to ore-forming processes in the ore field during two Late Paleozoic stages. Early gold-bearing metasomatites of sericite-chlorite-albite-ankerite-quartz composition formed at 320 Ma, and late gold-bearing vein metasomatites of ankerite(calcite)-quartz composition originated at 285 Ma. A Pb-Pb isotope study of gold mineralization has shown that ore lead was supplied into the mineral-forming system mainly from a mantle source, most likely, regional Neoproterozoic igneous rocks. According to Sm-Nd isotope data, these rocks formed with the participation of a material of mantle genesis.  相似文献