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1.
浙江弄坑金银矿区黄铁矿成分标型研究 总被引:1,自引:0,他引:1
为确定弄坑矿区金银矿化成因类型及对该矿区深部矿化远景进行预测,应用找矿矿物学方法研究了浙江武义弄坑金银矿区黄铁矿成分及其特征比值(如S/Fe、Fe/(S+As)、Co/Ni、S/Se、Se/Te、Au/Ag)、S、Pb同位素特征,分析了黄铁矿成分的成因标型及找矿标型,为该矿化区矿化成因类型的确定提供可靠性的矿物学依据.同时,利用黄铁矿微量元素的三角形图解对本矿区深部矿化远景进行了预测.结论显示,该区金银矿化属浅成低温火山热液成因类型,在矿化区的深部地段可望找到富的金银矿化体. 相似文献
2.
铁格隆南斑岩-浅成低温热液型铜(金)矿床是班公湖—怒江成矿带上最重要的矿床之一。本文以矿床内发育的黄铁矿为主要研究对象, 对其开展微量元素、稀土元素和硫同位素分析。依据产出状态, 黄铁矿可以分为黄铁矿-1, 黄铁矿-2和黄铁矿-3, 其中黄铁矿-2与浅成低温热液型矿化相关, 黄铁矿-3与斑岩型矿化相关。黄铁矿-1的Au、Ag、Cu、Pb、Zn、Bi的含量最低, 黄铁矿-2的Au、Ag、Cu、Pb、Zn、Bi的含量最高。Cu和Ni、Ag和Cu、Cu和Pb、Ag和Pb、Pb和Zn的相关性可作为黄铁矿-2和黄铁矿-3的辨别标志。黄铁矿-1的δ34S值(1.9‰)最大; 黄铁矿-2和黄铁矿-3的δ34S值在–4.5‰~0.3‰之间。黄铁矿富集轻稀土, 亏损重稀土, 具有“右倾”式稀土配分模式, 浅部(200—450 m)黄铁矿的轻重稀土分异程度较大, 以正铕异常为主, 而深部(700—1000 m)黄铁矿轻重稀土分异相对较小, 以负铕异常为主。铁格隆南矿床含硫热液运移方向为横向上从ZK1604向东运移, 纵向以ZK1604的230—250 m为中心向深部和侧向运移。黄铁矿中高含量的Cu、Au、Ag以及Ag和Cu、Pb和Zn、Cu和Pb、Ag和Pb的正相关性是指示浅成低温热液型矿化的重要标志, 而黄铁矿内Cu和Ni的负相关性是指示斑岩型矿化的标志。 相似文献
3.
小石人金矿在区域、矿区、矿脉3个不同层次上均存在Au、Ag、Cu、Pb、As、Sb、Hg和Bi等元素的异常。矿区范围内近东西向和北北东向两组构造的更汇部位是成矿的最有利部位。矿区内有3个异常带,已知矿脉均赋存在北部异常带内,中部和南部的两个异常带应是Au成矿的有望地段。Ag、As、Sb、Hg、Ba为上部矿脉的特征元素,Bi、Cu、Co为下部矿脉特征元素。根据矿脉中元素分带标志,1^#脉的矿化向深部还有一定延深,2^#矿脉深部可能无新的育矿体。 相似文献
4.
浙江弄坑金银矿化区黄铁矿标型研究 总被引:3,自引:1,他引:3
通过对浙江武义弄坑金银矿化区黄铁矿的产状、形态、成分及其特征比值[如w(S)/w(Fe),w(Fe)/w(S As),w(Co)/w(Ni),w(S)/w(Se),w(Se)/w(Te),n(Au)/n(Ag)]、硫、铅同位素、热电性、包裹体特征的研究,分析了黄铁矿成因标型及找矿标型,提取了大量的成因及找矿信息,为该矿化区矿化成因类型的确定提供了可靠性的矿物学依据。并首次利用黄铁矿微量元素的三角形图解对本矿化区深部矿化远景进行了预测。笔者们认为:该区金银矿化属浅成低温火山热液成因类型;在矿化区的深部地段可望找到富的金银矿化体。 相似文献
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为探讨黑龙江省东宁县金厂特大型金矿床角砾筒型和蚀变岩(石英脉)型两种矿化类型的关系,系统采集样品,利用LA-ICPMS方法对4个成矿阶段黄铁矿微量元素进行了原位点分析和面扫描。结果表明,金厂金矿黄铁矿富含As、Co、Ni、Cu、Pb、Zn、Au、Ag、Sb、Se、Te、Bi,含少量W、Mo、Sn。两种类型金矿化,从第一成矿阶段到第四成矿阶段,黄铁矿微量金属元素成分及其变化具有相对一致的脉动演化规律,总体表现为从高Co、Ni低As向高As低Co、Ni演化,Au、Ag、Cu、Pb、Zn集中在第二、第三成矿阶段。研究认为,金厂金矿区不同矿化类型、不同金矿体属同一斑岩系统、不同空间位置产物;黄铁矿中As、Au+Ag、Cu、Pb+Zn含量,微量元素总量以及成分环带发育情况是评价金(多金属)矿化强度、伴生成矿元素以及富矿部位的有效指标。LA-ICPMS方法对黄铁矿微量元素的面扫描能高效经济地识别不同阶段黄铁矿,并简单量化其微量元素变化特征。 相似文献
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研究认为,Au、Ag、Cu、Pb、As和Sb是崤山金矿及外围异常检查、深部预测和找矿评价的指示元素。Au、Ag、As和Sb 4个元素是1号矿脉浅部矿体的特征指示元素。矿体浅部矿化样品、矿体中部矿化样品和矿体深部矿化样品的归类十分明确,可用作判断地表矿体的剥蚀程度及地表矿体向下延深情况。 相似文献
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半宽金矿床有两类矿石:石英-黄铁矿型和石英-多金属硫化物型。微量元素研究表明元素组合为Bi、Pb、Au、Ag、Zn、Sb、W、Cu、As、Mo。矿石中铅含量是区分黄铁矿型矿石和多金属硫化物矿石的重要指际。金矿化与Co/Ni、Cu+Pb、Rb/Sr值密切相关。1号脉和9号脉矿石微量元素的对比研究表明9号脉Au与Mo、Ag、Hg,As、Pb具显著正相关;1号脉Au与其他元素相关性不明显。9号脉经历三次金矿化,1号脉仅有一次金矿化。从矿石微量元素地球化学研究结果分析,9号脉下部仍有延伸。 相似文献
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河北省灵寿县土岭-石湖金矿床产于燕山期花岗闪长岩体与太古宙阜平群变质岩系的外接触带中。金矿床中黄铁矿的硫同位素显示金的成矿热液与花岗闪长岩岩浆同源。黄铁矿的主成分具有亏硫特征,属典型的内生型。从矿脉到蚀变岩及受蚀变围岩,黄铁矿的Au、Ag、As含量及Au/Ag比值降低,Co、Ni、Se含量及Co/Ni此值、S/Se比值升高。这些元素的含量及有关参数对金及黄铁矿的取样位置具有良好的指示意义,是确定矿体位置及其含金性的标志,也是成矿温度的函数。 相似文献
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本文分析了小秦岭成矿带金矿化不同矿化类型,石英脉型金矿化不同矿化阶段及不同金矿床类型在垂向上的变化特征,确立了金矿化在垂向上的分带规律。在此基础上,探讨了深部“第二矿化段”存在的可能性,推断了金矿化的剥蚀深度及矿脉在深部的矿化特点,为金矿床的深部预测提供了可靠的依据。 相似文献
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在胶东莱州吴一村地区完成的3266.06 m深钻,是目前焦家金成矿带最深见矿钻孔,研究钻孔揭露的深部矿石中金矿物及黄铁矿微量元素特征,对探讨深部成矿作用演化具有重要意义。笔者采取深钻中2420~3206 m垂深的岩(矿)芯样品进行了详细的岩相学和矿相学研究,结合扫描电镜和电子探针微区分析,研究了矿石中金矿物的赋存状态和成分。对不同成矿阶段形成的黄铁矿进行了LA-ICPMS微量元素分析。研究结果表明,深部矿石中载金矿物主要为黄铁矿,其次为石英、黄铜矿、方铅矿,可见金主要以自然金和银金矿的形式存在,以晶隙金和裂隙金为主,其次为包体金。与浅部金矿床比较,深部金的成色较高。黄铁矿分为6种类型,第Ⅰ成矿阶段形成富Co型黄铁矿Py1,第Ⅱ成矿阶段形成富Ni型黄铁矿Py2a和Py2b,第Ⅲ成矿阶段形成富Au、As型黄铁矿Py3a和富Au、Ag、Pb、Bi型黄铁矿Py3b,第Ⅳ成矿阶段形成贫微量元素黄铁矿Py4。其中,Py1和Py2a发生强烈破碎,裂隙表面对热液中的Au络合物产生吸附作用,对金沉淀富集起重要作用。黄铁矿中Co、Ni、As等微量元素主要以类质同象形式赋存,而Au、Ag、Cu、Pb、Zn、Bi等主要以纳米级、微米级矿物包体形式赋存。Pb+Bi、Cu+Pb+Zn、Te+Bi与Au+Ag呈明显正相关,而Au与As相关性较差。黄铁矿中Co、Ni含量较低,而Au+Ag+As或Au+Ag+Pb+Bi+Cu含量较高指示成矿有利。另外,黄铁矿中Co、Ni含量较高,并且破碎强烈,成矿相关元素含量较高也指示成矿有利。 相似文献
11.
云南大坪超大型金多金属矿床地质地球化学特征 总被引:3,自引:0,他引:3
大坪金矿床是哀牢山金矿带上的超大型金多金属共生矿床.矿体为赋存于闪长岩体内部近平行的多金属硫化物-石英薄脉.矿床地质、流体包襄体地球化学和同位素地球化学研究表明:成矿作用与中、新生代的区域构造-岩浆活动密切相关,至少可分为燕山期石英-黄铁矿和喜山早期石英-方铅矿两期;早期形成金矿化,晚期形成铅和银矿化并伴生金矿化;二者叠加于同一容矿空间,形成多期叠加的复式铅、锌、银、金共生矿床.成矿物质与成矿流体的来源一致,各成矿期流体均是以深源流体为主的壳-幔混合流体,但具有不同的地球化学特征,是相对独立的成矿流体体系.矿床成因属中-高温热液硫化物-石英脉型. 相似文献
12.
Mineralogy of the Boroo Gold Deposit in the North Khentei Gold Belt,Central Northern Mongolia 
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下载免费PDF全文 Mineral assemblages and chemical compositions of ore minerals from the Boroo gold deposit in the North Khentei gold belt of Mongolia were studied to characterize the gold mineralization, and to clarify crystallization processes of the ore minerals. The gold deposit consists of low‐grade disseminated and stockwork ores in granite, metasedimentary rocks and diorite dikes. Moderate to high‐grade auriferous quartz vein ores are present in the above lithological units. The ore grades of the former range from about 1 to 3 g/t, and those of the latter from 5 to 10 g/t, or more than 10 g/t Au. The main sulfide minerals in the ores are pyrite and arsenopyrite, both of which are divisible into two different stages (pyrite‐I and pyrite‐II; arsenopyrite‐I and arsenopyrite‐II). Sphalerite, galena, chalcopyrite, and tetrahedrite are minor associated minerals, with trace amounts of bournonite, boulangerite, geerite, alloclasite, native gold, and electrum. The ore minerals in the both types of ores are variable in distribution, abundance and grain size. Four modes of gold occurrence are recognized: (i) “invisible” gold in pyrite and arsenopyrite in the disseminated and stockwork ores, and in auriferous quartz vein ores; (ii) microscopic native gold, 3 to 100 µm in diameter, that occurs as fine grains or as an interstitial phase in sulfides in the disseminated and stockwork ores, and in auriferous quartz vein ores; (iii) visible native gold, up to 1 cm in diameter, in the auriferous quartz vein ores; and (iv) electrum in the auriferous quartz vein ores. The gold mineralization of the disseminated and stockwork ores consists of four stages characterized by the mineral assemblages of: (i) pyrite‐I + arsenopyrite‐I; (ii) pyrite‐II + arsenopyrite‐II; (iii) sphalerite + galena + chalcopyrite + tetrahedrite + bournonite + boulangerite + alloclasite + native gold; and (iv) native gold. In the auriferous quartz vein ores, five mineralization stages are defined by the following mineral assemblages: (i) pyrite‐I; (ii) pyrite‐II + arsenopyrite; (iii) sphalerite + galena + chalcopyrite; (iv) Ag‐rich tetrahedrite‐tennantite + bournonite + geerite + native gold; and (v) electrum. The As–Au relations in pyrite‐II and arsenopyrite suggest that gold detected as invisible gold is mostly attributed to Au+1 in those minerals. By applying the arsenopyrite geothermometer to arsenopyrite‐II in the disseminated and stockwork ores, crystallization temperature and logfs2 are estimated to be 365 to 300 °C and –7.5 to –10.1, respectively. 相似文献
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西秦岭温泉斑岩钼矿床岩浆-热液演化 总被引:5,自引:3,他引:2
西秦岭北缘广泛出露印支期中酸性侵入岩和相关的斑岩-矽卡岩矿床。温泉矿床位于该矿带东段,是其内已探明规模最大的斑岩钼矿床。温泉矿床发育多阶段热液脉体,黄铁矿作为其中的贯通性金属硫化物,其化学组成蕴含着岩浆-热液演化及金属沉淀过程等诸多信息,对于斑岩系统模型的厘定具有重要意义。温泉矿床热液脉体时序为:钾长石-黑云母-石英脉(A脉)、石英-黄铜矿脉、石英-辉钼矿脉(B脉)和石英-绢云母-黄铁矿脉(D脉)。A脉是斑岩系统岩浆-热液演化的最早期脉体,主要矿物组合为钾长石+黑云母+石英+黄铁矿±磁铁矿±磷灰石±黄铜矿,代表了引起早期基性岩浆矿物被蚀变为黑云母的流体通道;B脉与钾长石化蚀变关系密切,围岩中斜长石斑晶大量被蚀变为钾长石;石英-辉钼矿脉切割所有早期黑云母化-钾化蚀变阶段的石英-硫化物网脉,并形成于所有斑岩侵位之后,少量黄铁矿和黄铜矿共生于辉钼矿裂隙及边部;D脉是斑岩系统岩浆-热液成矿作用的最晚期事件,其主要被黄铁矿和石英及少量黄铜矿填充,发育晚期的绢英岩化和泥化蚀变,长石多发生破坏性蚀变。四个阶段石英网脉中黄铁矿电子探针分析显示,A脉的黄铁矿中Cu、Mo和Au含量均较低,有少量的金属硫化物(黄铁矿+黄铜矿)沉淀,但通常不能形成规模矿体;石英-黄铜矿脉的黄铁矿中Cu含量明显较高,且多与高品位Cu矿体的空间产出位置相一致,可能是斑岩系统伴随钾化蚀变作用主要的铜沉淀阶段;B脉的黄铁矿中Mo含量明显较高,与高品位钼矿体空间产出关系密切,可能代表了斑岩系统钼成矿作用的主要阶段;D脉的黄铁矿中Au含量明显升高,可能代表了金在斑岩系统岩浆-热液成矿作用的最晚期事件中的沉淀。 相似文献
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《International Geology Review》2012,54(7):816-832
The newly discovered Jiyuan Cu–Ag–(Pb–Zn–Au) deposit is located in the southern section of the eastern Tianshan orogenic belt, Xinjiang, northwestern China. It is the first documented deposit in the large Aqikekuduke Ag–Cu–Au belt in the eastern Tianshan orogen. Detailed field observations, parageneses, and fluid inclusion studies suggest an epithermal ore genesis for the main Cu–Ag mineralization, accompanied by a complicated hydrothermal alteration history most likely associated with the multi-stage tectonic evolution of the eastern Tianshan. The Jiyuan Cu–Ag ore bodies are located along the EW-striking, south-dipping Aqikekuduke fault and are hosted by Precambrian marble and intercalated siliceous rocks. Early-stage skarn alteration occurred along the contact zone between the marble layers and Early Carboniferous diorite–granodiorite and monzogranite intrusions; the skarns are characterized by diopside–tremolite–andradite–pyrite–(magnetite) assemblages. Local REE-enriched synchysite–rutile–arsenopyrite–(clinochlorite–microcline–albite) assemblages are related to K–Na alteration associated with the monzogranite intrusions and formed under conditions of high temperature (310°C) and high salinity (19.9 wt.% NaCl). Subsequent hydrothermal alteration produced a series of quartz and calcite veins that precipitated from medium- to low-temperature saline fluids. These include early ‘smoky’ quartz veins (190°C; 3.0 wt.% NaCl) that are commonly barren, coarse-grained Cu–Ag mineralized quartz veins (210°C; 2.4 wt.% NaCl), and late-stage unmineralized calcite veins (140°C; 1.1 wt.% NaCl). Tremolite and Ca-rich scapolite veins formed at an interval between early and mineralized quartz veins, indicating a high-temperature, high-salinity (>500°C; 9.5 wt.% NaCl) Ca alteration stage. Fluid mixing may have played an important role during Cu–Ag mineralization and an external low-temperature Ca-rich fluid is inferred to have evolved in the ore-forming system. The Jiyuan auriferous quartz veins possess fluid characteristics distinct from those of the Cu–Ag mineralized quartz veins. CO2-rich fluid inclusions, fluid boiling, and mixing all demonstrate that these auriferous quartz veins acted as hosts for the orogenic-type gold mineralization, a common feature in the Tianshan orogenic belt. 相似文献
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经过对4个金矿区带的系统调查研究。发现脉状热液金矿由早而晚具有磁黄铁矿-石英、黄铁矿-毒砂,黄铁矿-石英大脉、金-脉状黄铁矿、金银-多金属硫化物、金银-碲化物,黄铁矿-石英-碳酸盐7个阶段,矿床之间的差异只是成矿阶段系列发育的完整程度和成矿阶段发育的强度不同。在矿床、矿带和矿田范围内,都具有由上而下,由早而晚的金矿化垂向相对分带,Au,Cu,Zn,Pb,Ag存在明显的时空变化趋势。 相似文献
17.
新疆哈密卡拉塔格块状硫化物矿床金银赋存状态研究 总被引:3,自引:0,他引:3
新疆哈密红海黄土坡VMS矿床位于东天山卡拉塔格隆起带,是卡拉塔格矿集区内新发现的块状硫化物矿床。矿体产于卡拉塔格隆起带核部火山沉积岩建造中,具有典型的VMS型矿床“上层下脉”二元结构特征。该矿床中含金硫化物矿石主要有块状黄铁矿黄铜矿、块状黄铁矿黄铜矿闪锌矿、块状黄铁矿闪锌矿黄铜矿和块状闪锌矿。文中在对各类含金硫化物矿石进行详细的矿相学研究基础上,结合扫描电子显微镜与能谱仪联用技术(SEM/EDS),对硫化物样品中金、银的赋存状态进行研究。结果表明,4种块状硫化物中的主要矿物形成于多个期次,主要包括VMS成矿期(黄铁矿阶段、闪锌矿黄铜矿黝铜矿方铅矿阶段、石英重晶石阶段)、热液叠加期(石英黄铁矿黄铜矿闪锌矿方铅矿阶段)和表生期(铜蓝纤铁矿阶段)。矿区首次发现4颗金银金属互化物(银金矿、碲银矿),其较大的化学成分差异指示了热液环境由中酸性中性转变为更有利于Au、Ag迁移沉淀的偏碱性。后期的偏碱性热液对VMS成矿期形成矿物产生了交代作用,使得Au、Ag活化再富集。由于后期热液叠加改造,红海VMS型矿床中Au、Ag不仅赋存于VMS成矿期后期中低温闪锌矿黄铜矿阶段,也赋存于VMS成矿期早期中高温黄铁矿阶段,并贯穿整个热液叠加期。各含金矿物组合中除4颗金银金属互化物外Au多呈显微不可见状态,推测Au、Ag主要以原子或离子形式赋存于矿物晶格中或矿物空位处。 相似文献
18.
胶东罗山金矿床成矿流体来源:蚀变岩型和石英脉型矿石载金黄铁矿稀土与微量元素特征约束 总被引:3,自引:0,他引:3
罗山金矿床是胶东玲珑金矿田最大的金矿床之一,同时发育蚀变岩型矿化和石英脉型矿化。本研究在系统的野外和镜下工作基础上,利用电感耦合等离子体质谱(ICP-MS)技术分析了载金黄铁矿的微量和稀土元素,对比了蚀变岩型和石英脉型矿石载金黄铁矿稀土和微量元素特征,探讨了成矿流体的性质与来源。黄铁矿稀土总含量较低,多呈较明显的"右倾"式稀土配分模式,总体表现出负Eu异常,基本无Ce异常; Hf/Sm、Th/La、Nb/La值均<1,推断成矿流体为富Cl的还原性流体。Co/Ni比值范围在0. 08~3. 77,平均值为1. 09; Co/Ni值以及Co、Ni、Bi、Cu和Zn含量均与变质热液型金矿平均含量相近; Y/Ho比值范围总体在21~32之间,与中国东部大陆地壳Y/Ho比值(20~35)基本重合;结合个别样品的弱正Eu异常以及前人的研究成果,推断成矿流体与变质热液类似,主要来源于古太平洋板块俯冲板片脱水和脱碳作用,且可能有长英质岩浆流体和地壳流体的混入。蚀变岩型和石英脉型矿石内的载金黄铁矿的稀土、微量元素组成没有明显区别,Y/Ho、Nb/Ta和Zr/Hf比值变化范围均很小,表明两类矿石的载金黄铁矿为同一期热液活动作用的产物。 相似文献
19.
Ping'an Wang Hiroaki Kaneda Shijiang Ding Xiaowen Zhang Xiangjun Liao Faxian Dong Zhongjian Li Xiaochun Liu Yong Lai 《Resource Geology》2006,56(2):157-166
Abstract. The Baolun quartz vein type Au deposit, is located at the southwestern Hainan Island. It occurs next to a Triassic ilmenite-series/S-type syenogranite complex. A 40 Ar/39 Ar plateau age for muscovite from the master orebody is dated to be 219.4±0.6 Ma, suggesting that the gold deposit genetically related to the granite pluton. In the Baolun mining area, orebodies of auriferous quartz vein and wall rock alteration occur in NNW-striking fracture zones hosted by weakly metamorphosed turbidite of the Lower Silurian age. Eight fracture zones, 400∼1300 m long and 10∼30 m wide, have been identified. The five fracture zones of them form orebodies. The ores are mainly of quartz vein type. More than 20 orebodies in shapes of vein and lens of 195∼751 m in length and 0.20∼7.49 m in thickness are known, and 14 of them occur in the No. 1 vein belt. Silicification, sericitization and pyritization are closely related to the Au mineralization. The ores exhibit commonly 1.54∼29.48 g/t in Au grade, partially >98 g/t. The master orebody is 720 m long and 2.62 m thick in average, with 9.53∼29.27 g/t Au. Gold reserves of more than 70 t have been proven by geological exploration. More than 20 metallic minerals including native gold and sulfides such as pyrite, pyrrhotite, chalcopyrite, and others are identified to be formed in four ore-forming stages: (1) Au-coarse grain quartz stage, (2) Au-fine grained quartz stage, (3) Au-bismuthide-bismuth sulfosalt-sulfide-quartz stage, and (4) calcite-sulfide-quartz stage. The Au mineralization in this deposit occurred mainly in the first three stages. A variety of Bi- and Te-bearing minerals is closely associated with native gold suggesting that the mineralization may take place in a relatively high temperature. 相似文献