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1.
河南嵩县松里沟金矿床中碲化物的发现及其地质意义 总被引:1,自引:0,他引:1
松里沟金矿位于华北陆块南缘熊耳山地区,已探明金资源储量26 t。矿体产于中新太古界-古元古界太华群片麻岩NWW向的断裂带中。其热液成矿过程包括4个成矿阶段:黄铁矿-石英阶段、石英-黄铁矿阶段、金-碲化物阶段和石英-碳酸盐阶段。显微镜下发现金-碲化物阶段存在大量与金共生的碲化物。利用电子探针和能谱分析查明碲化物的种类、共生关系和形成条件,确认的碲化物有碲铅铋矿、碲铅矿、碲铋矿、碲金矿、碲金银矿、硫碲铋铅金矿、辉碲铋矿,此外还有大量的自然金和少量的辉铋矿。该矿床为一与岩浆作用有关的碲金矿床。Au主要以自然金和金银碲化物的形式存在。Au、Ag以硫氢络合物的形式发生迁移,Te2(g)和H2Te(g)冷凝进入含贵金属的氯化物溶液是碲化物沉淀主要机制。相图及化学反应方程式分析表明,金-碲化物阶段受温度、碲逸度、硫逸度、氧逸度和酸碱度控制,其中,黄铁矿-石英阶段和石英-黄铁矿阶段形成于logf_(Te2)-14.4和logf_(S2)=-11.1~-6.5的环境。金-碲化物阶段形成于温度为110~313℃、logf_(Te2)=-15.2~-9.4和logf_(S2)=-16.5~-14.6、f_(O_2)升高和pH值降低的环境。碲化物的发现为探讨该矿床成因和熊耳山地区寻找同类型的矿床提供了依据。 相似文献
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江西银坑矿田的牛形坝-柳木坑矿床是赣南于都-赣县矿集区典型的金银铅锌多金属矿床。根据野外调研、系统矿相学研究和电子探针成分分析,表明铋在牛形坝-柳木坑矿床中是一种重要的伴生矿化金属元素,呈独立矿物或呈微细矿物包体分布在早期硫化物内部或边缘。铋矿物种类丰富,主要包括块硫铋银矿、硫铋银矿、板硫铋铜铅矿、针硫铋铅矿、硫铜铋矿、库辉铋铜铅矿、辉碲铋矿等。与同一矿集区石英脉型盘古山钨铋矿床相比,两矿床铋矿物种类均出现Pb-Ag-Bi-S、Te-Bi-S元素组合,赋存形式和含量有所不同,Cu-Pb-Bi-S元素组合仅在牛形坝-柳木坑矿床出现。矿床属于Au-Bi-(低Te)-S体系,铋盐矿物形成于中低温、中高密度、低盐度的成矿环境。从岩浆中分馏出来的成矿流体发生减压沸腾迫使大量蒸汽相逸散,硫逸度增加,铋主要以硫络合物形式运移,随着黄铁矿等硫化物沉淀,硫被大量消耗形成金矿物和碲化物(碲银矿)。成矿流体演化过程中由于温度和硫逸度进一步降低导致在成矿后期沉淀出大量铋硫盐矿物。成矿过程中的Bi促进金的迁移富集。铋矿物在两矿床中的赋存特征、化学成分、形成环境以及沉淀机制等表现出差异,说明铋具有成矿选择性,起到对成矿物质示踪的作用。 相似文献
3.
碲是一种重要的战略性关键金属,主要以共伴生形式产出多个类型矿床中,斑岩-矽卡岩型矿床是碲资源重要的来源之一。城门山铜金矿床是长江中下游成矿带中一典型斑岩-矽卡岩型矿床,也是该区目前已报道的最大的共伴生碲矿床,然而碲在该矿床的赋存状态、碲的沉淀机制等尚不清楚。本文在详细划分成矿阶段基础上,对该矿床不同类型矿石中的矿物开展电子探针测试、LA-ICP-MS微量元素分析以及面扫描研究工作。测试结果表明碲元素主要以碲银矿、碲铋银矿等碲化物和辉碲铋矿、硫楚碲铋矿、碲黝铜矿等碲的硫化物形式存在,少量呈类质同象赋存在黄铁矿和黄铜矿中。黄铜矿中Te含量在矽卡岩型矿石中变化范围(0.15×10~(-6)~20.50×10~(-6))大于碳酸盐岩交代型矿石(0~3.44×10~(-6))。黄铁矿中Te含量在碳酸盐岩交代型矿石中最高,可达173×10~(-6);黄铁矿mapping显示在同一颗矿物中Te含量分布也不均匀。通过300℃logf_(Te_2)-logf_(S_2)相图分析,硫逸度介于-6.8~-11.4,碲逸度介于-7.8~-14.8;自花岗闪长斑岩向碳酸盐岩地层围岩,从成矿早阶段到晚阶段,硫逸度和温度逐渐降低,碲逸度升高,这是城门山矿床碲矿物沉淀的主要机制。城门山矿床中无论是单颗粒黄铁矿硫同位素还是原位硫同位素均显示岩浆来源特征,结合岩相学碲矿物与黄铁矿等硫化物密切共生,具有成因联系,表明碲的成矿物质来源也应为岩浆来源,与花岗闪长斑岩岩浆热液作用有关。 相似文献
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鄂东南地区鸡冠嘴铜金矿床Au-Ag-Bi-Te-Se矿物学研究与金银富集机理 总被引:5,自引:3,他引:2
鸡冠嘴铜金矿床是鄂东南地区典型的矽卡岩型铜金矿床。矿体主要赋存于下三叠统大冶组大理岩中,矿石矿物以黄铜矿和黄铁矿及少量金银矿物为主,与矿化有关的蚀变包括矽卡岩化、硅化、绿泥石化、碳酸盐化、钾长石化等。根据野外观察和镜下鉴定将成矿过程划分为干矽卡岩阶段、湿矽卡岩阶段、硫化物阶段和碳酸盐阶段,其中硫化物阶段为金矿化的主要阶段。矿相学研究、扫描电子显微镜-能谱分析和电子显微探针分析结果表明,主要载金矿物为黄铜矿和黄铁矿,金的赋存状态包括可见金和不可见金,可见金以银金矿为主,其次为自然金和含银自然金,不可见金为纳米级自然金。主要载银矿物是黄铜矿和斑铜矿,银矿物多以可见银(硒银矿、碲银矿和辉银矿等)产出,包括独立银矿物和显微包体银;不可见银主要以次显微包体的形式分布于硫化物中。鸡冠嘴铜金矿床是高温岩浆热液与碳酸盐岩地层发生接触交代作用形成的,Au在高温热液中可能主要以氯络合物、碲络合物或碲化物熔体的形式搬运。随着矽卡岩化等蚀变作用的进行和热液温度的降低,热液中氯被消耗的同时硫逸度快速上升,Au主要以金硫络合物的形式在热液中运移,硫化物阶段早期大量Bi-Te-S矿物及少量纳米级自然金以显微包裹体的形式包裹于近于同时沉淀的黄铁矿中,随后碲银矿、辉银矿及硫铋铜矿与硫化物及石英和碳酸盐矿物共生产出。成矿流体演化过程中由于温度和硫逸度的进一步降低导致金络合物不稳定,当Logf Te2-20且-14Logf Se2-10时,金矿物与硒化物与黄铜矿近于同时沉淀,或充填于先期沉淀的黄铁矿微裂隙和其他矿物之间的空隙中。综合分析表明,鸡冠嘴铜金矿床成矿过程中Te和Bi对Au的富集具有重要重用。 相似文献
5.
胶东地区探明金储量超过5000t,是我国最重要的金矿集区。玲珑金矿区位于胶东西北部招-平断裂北段,具有典型含金石英脉矿床的特征。矿区部分矿段产出富碲铋化物的明金矿石,是研究富碲铋化物金矿床成因和金超级富集机制的理想对象。通过显微岩相学观察、扫描电镜及电子探针分析,首次对胶东玲珑金矿区富碲铋化物明金矿石的矿物组合和形成机制进行了较为详细的研究。玲珑金矿区含明金矿石中的金矿物主要为含银自然金,成色整体较高,平均为894。共发现了五种与自然金共生的碲化物,分别是辉碲铋矿、碲铋矿、碲银矿、碲铋银矿和碲镍矿,其中辉碲铋矿含量最多。通过矿物共生组合研究及物理化学条件分析,确定成矿流体的碲逸度范围为-12.6相似文献
6.
北山成矿带霍勒扎德盖金矿床碲化物的发现及其地质意义 总被引:2,自引:1,他引:1
甘肃省霍勒扎德盖大型金矿床位于北山造山带的黑鹰山弧内,含金石英脉主要赋存在早石炭世英云闪长岩内的裂隙或断裂中。流体成矿过程从早到晚划分为Ⅰ、Ⅱ、Ⅲ三个阶段,分别形成(磁铁矿)-黄铁矿-石英脉、石英-多金属硫化物脉和石英-方解石脉。本次研究通过矿相学观察、扫描电镜/能谱及电子探针分析,在该矿床Ⅱ阶段矿石样品中首次发现大量碲化物,该矿物系列主要产出在黄铁矿、石英中或其裂隙内。矿区已发现的碲化物包括碲金矿、斜方碲金矿、针碲金银矿、碲金银矿、碲银矿、碲铅矿、碲汞矿、碲铋矿等;金银矿物仅以碲化物的形成存在。Ⅰ阶段流体的硫逸度(logfS2=-11.1~-9.5)较高、碲逸度(logf Te2≤-12.8)较低,Ⅱ阶段流体显示低硫逸度(logfS2=-13.5~-10.2)、高碲逸度(logfTe2=-11.1~-7.8)特征。碲化物的发现揭示了矿床与深部幔源的紧密联系,但同时不能排除矿区英云闪长岩提供成矿物质的可能。 相似文献
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位于胶东东部苏鲁地体内的乳山金矿曾是我国单脉金储量最大的矿床,其主矿脉为一具有复杂内部结构的富金石英脉,形成于包含周期性流体活动的增量增长过程。该矿床成矿流体演化、精细成矿过程和金沉淀机制仍缺乏有效制约。本研究在详细结构构造观察基础上,在代表单次成矿流体活动的同一石英层内识别出分别代表三个连续成矿阶段的三类黄铁矿,开展激光剥蚀-电感耦合等离子质谱原位微量元素测试。结果显示不同阶段黄铁矿微量元素成分基本一致,Co、Ni、As等元素因成矿流体间歇性压力波动而周期性地以不同含量进入黄铁矿,形成这些元素的韵律成分环带。Au等其他微量元素在不同阶段黄铁矿内均匀分布,其分布行为受压力波动影响较小。间歇性压力波动和由此引发的周期性流体不混溶使乳白色粗粒石英和黄铁矿、烟灰色中细粒他形石英和黄铁矿依次大规模沉淀,金银碲化物、银金矿、自然金和方铅矿、闪锌矿、黄铜矿等硫化物随后在愈加富Au、Ag、Te、Pb、Zn和Cu等的流体中近于同时沉淀。在此过程中成矿流体虽整体表现为还原性,但其还原性随着压力波动而不断递减氧化性持续增加;流体碲逸度早期保持稳定,后期则大幅上升。金以可见金形式充填先成黄铁矿裂隙或沿黄铁矿边缘分布,周期性流体压力波动引发的间歇性流体不混溶导致H_2S、CO_2和CH_4等气体大规模逸出,金硫络合物失稳分解,金被吸附至黄铁矿内水力致裂形成的裂隙面发生沉淀。排除了先成黄铁矿内不可见金再活化为可见金的可能性,认为周期性流体压力波动引起的流体不混溶是引发乳山金矿床可见金高效沉淀的关键机制。 相似文献
8.
三矿沟矿床位于黑龙江省嫩江县多宝山矿集区西北部,为小型矽卡岩型铁铜矿床。在野外地质调查与ICP_MS测试的基础上,通过显微观察、扫描电镜与电镜能谱分析,对三矿沟矿床的矿石特征进行了研究。在矿石中新识别出钨铁矿、白钨矿、锡石、自然铋、碲铋矿、辉铋矿、硫铜铋矿、硫铋铜矿、碲银矿、银金矿、金银矿、自然金,钴黄铁矿、辉砷钴矿、含锌硫砷铜矿等金属矿物。矿石有用金属元素为Cu、Fe、Zn、W、Co、In、Bi,建议对这些元素展开进一步的研究,并在开采时进行综合评价。详细的矿石镜下研究结果显示,矿床形成过程分为内生成矿期与表生期,其中内生成矿期分为干矽卡岩阶段、湿矽卡岩阶段、氧化物阶段(主要的铁矿化阶段)和低热液-硫化物阶段这4个阶段(主要的铜矿化阶段),表生期只包含表生阶段。其中铁矿化形成于高温阶段,铜矿化系中温热液交代形成。 相似文献
9.
吉林小西南岔金铜矿床的金属矿物及矿石特征。 总被引:3,自引:0,他引:3
小西南岔矿床是与燕山期花岗岩有关的斑岩矿床,以金、铜为主,伴有银、铋矿化。金属硫化物主要是黄铁矿、毒砂、磁黄铁矿、黄铜矿。金矿物是金-银系列的自然金、银金矿及金银矿。金的成色低,平均成色728,且变化在305~993这一较大范围内。另外,还发现了碲银矿、硫碲银铋铅矿、自然铋、赫啼铋矿、富硫铋铅矿等多种银、铋矿物。成矿早期只有微弱的铜(钼)矿化,大量金和铜富集于成矿中期(210~475℃),而银、铋矿化则出现在成矿作用晚期(160~240℃)。 相似文献
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11.
Dazhao Wang Jiajun Liu Degao Zhai Emmanuel J. M. Carranza Yinhong Wang Shimin Zhen Jiang Wang Jianping Wang Zhenjiang Liu Fangfang Zhang 《Resource Geology》2019,69(3):287-313
The Dongping gold deposit is located near the center of the northern margin of the North China Craton. It is hosted in the Shuiquangou syenite and characterized by large amounts of tellurides. Numerous studies have addressed this deposit; the mineral paragenesis and ore‐forming processes, however, are still poorly studied. In this contribution, a new mineral paragenesis has been evaluated to further understand ore formation, including sulfides (pyrite, chalcopyrite, galena, sphalerite, molybdenite, and bornite), tellurides (altaite, calaverite, hessite, muthmannite, petzite, rucklidgeite, sylvanite, tellurobismuthite, tetradymite, and volynskite), and native elements (tellurium and gold). Molybdenite, muthmannite, rucklidgeite, and volynskite are reported for the first time in this deposit. We consider the Dongping gold deposit mainly formed in the Devonian, and the ore‐forming processes and the physicochemical conditions for ore formation can be reconstructed based on our newly identified ore paragenesis, that is, iron oxides → (CO2 effervescence) → sulfides → (fTe2/fS2 ratio increase) → Pb‐Bi‐tellurides → (condensation of H2Te vapor) → Au‐Ag‐tellurides → (mixing with oxidizing water) → carbonate and microporous gold → secondary minerals → secondary minerals. The logfO2 values increase from the early to late stages, while the fH2S and logfS2 values increase initially and then decrease. CO2 effervescence is the main mechanism of sulfides precipitation; this sulfidation and condensation of H2Te vapor lead to deposition of tellurides. The development of microporous gold indicates that the deposit might experience overprint after mineralization. The Dongping gold deposit has a close genetic relationship with the Shuiquangou syenite, and tellurium likely originated from Shuiquangou alkaline magmatic degassing. 相似文献
12.
The Beiya deposit, located in the Sanjiang Tethyan tectonic domain (SW China), is the third largest Au deposit in China (323 t Au @ 2.47 g/t). As a porphyry-skarn deposit, Beiya is related to Cenozoic (Himalayan) alkaline porphyries. Abundant Bi-minerals have been recognized from both the porphyry- and skarn- ores, comprising bismuthinite, Bi–Cu sulfosalts (emplectite, wittichenite), Bi–Pb sulfosalts (galenobismutite, cosalite), Bi–Ag sulfosalt (matildite), Bi–Cu–Pb sulfosalts (bismuthinite derivatives), Bi–Pb–Ag sulfosalts (lillianite homologs, galena-matildite series), and Bi chalcogenides (tsumoite, the unnamed Bi2Te, the unnamed Ag4Bi3Te3, tetradymite, and the unnamed (Bi, Pb)3(Te, S)4). Native bismuth and maldonite are also found in the skarn ores. The arsenopyrite geothermometer reveals that the porphyry Au mineralization took place at temperatures in the range of 350–450 °C and at log fS2 in the range of − 8.0 to − 5.5, respectively. In contrast, the Beiya Bi-mineral assemblages indicate that the skarn ore-forming fluids had minimum temperatures of 230–175 °C (prevailing temperatures exceeding 271 °C) and fluctuating fS2–fTe2 conditions. We also model a prolonged skarn Au mineralization history at Beiya, including at least two episodes of Bi melts scavenging Au. We thus suggest that this process was among the most effective Au-enrichment mechanisms at Beiya. 相似文献
13.
Elena D. Andreeva Hiroharu Matsueda Victor M. Okrugin Ryohei Takahashi Shuji Ono 《Resource Geology》2013,63(4):337-349
Mineralogic studies of major ore minerals and fluid inclusion analysis in gangue quartz were carried out for the for the two largest veins, the Aginskoe and Surprise, in the Late Miocene Aginskoe Au–Ag–Te deposit in central Kamchatka, Russia. The veins consist of quartz–adularia–calcite gangue, which are hosted by Late Miocene andesitic and basaltic rocks of the Alnei Formation. The major ore minerals in these veins are native gold, altaite, petzite, hessite, calaverite, sphalerite, and chalcopyrite. Minor and trace minerals are pyrite, galena, and acanthine. Primary gold occurs as free grains, inclusions in sulfides, and constituent in tellurides. Secondary gold is present in form of native mustard gold that usually occur in Fe‐hydroxides and accumulates on the decomposed primary Au‐bearing tellurides such as calaverite, krennerite, and sylvanite. K–Ar dating on vein adularia yielded age of mineralization 7.1–6.9 Ma. Mineralization of the deposit is divided into barren massive quartz (stage I), Au–Ag–Te mineralization occurring in quartz‐adularia‐clays banded ore (Stage II), intensive brecciation (Stage III), post‐ore coarse amethyst (Stage IV), carbonate (Stage V), and supergene stages (Stage VI). In the supergene stage various secondary minerals, including rare bilibinskite, bogdanovite, bessmertnovite metallic alloys, secondary gold, and various oxides, formed under intensely oxidized conditions. Despite heavy oxidation of the ores in the deposit, Te and S fugacities are estimated as Stage II tellurides precipitated at the log f Te2 values ?9 and at log fS2 ?13 based on the chemical compositions of hypogene tellurides and sphalerite. Homogenization temperature of fluid inclusions in quartz broadly ranges from 200 to 300°C. Ore texture, fluid inclusions, gangue, and vein mineral assemblages indicate that the Aginskoe deposit is a low‐sulfidation (quartz–adularia–sericite) vein system. 相似文献
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鸡笼山金矿是长江中下游鄂东南地区典型的矽卡岩金矿床,其矽卡岩矿物学特征研究较少。围岩为三叠纪大冶组灰岩和白云质灰岩,决定了该矿床发育丰富的矽卡岩矿物组合,主要包括石榴石、透辉石、硅灰石、绿帘石、金云母等。本文详细研究了不同阶段矽卡岩的矿物学特征,并对其进行了电子探针分析(EMPA)。结果表明石榴石属于钙铝-钙铁系列,辉石为透辉石,以钙铁榴石-透辉石共生的富金矽卡岩组合是在较高氧逸度和较低酸度条件下形成的,具有铜金矿的成矿专属性。伴随着流体的演化,矽卡岩与矿体在时空和成因上都具有密切的联系。结合矿区内发育有斑岩型矿体,暗示鸡笼山金矿床可能具有统一的斑岩-矽卡岩型成矿系统,深部具有很大的找矿潜力。 相似文献
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Panagiotis Christos Voudouris Paul G. Spry Gregory Aarne Sakellaris Constantinos Mavrogonatos 《Mineralogy and Petrology》2011,101(3-4):169-183
A cervelleite-like mineral, two unnamed silver sulfotellurides in the system Ag-Cu-Te-S [Ag2CuTeS, (Ag,Cu)2TeS], Te-rich polybasite and cadmian tetrahedrite occur in gold-bearing quartz veins in metapelites and faults within brecciated marbles of the Cycladic Blueschist Unit in the Kallianou area (southern Evia Island, Greece). The quartz veins and faults are discordant to syn-metamorphic structures and formed during ductile to brittle deformation in the final stages of exhumation of the Styra Nappe extrusion wedge (~21?Ma). Te-rich polybasite (up to 7.4 wt. % Te), cadmian tetrahedrite (up to 12.4 wt. % Cd), together with electrum (23?C54 wt. % Ag) and the sulfotellurides, are the main silver carriers in the mineralization. The two unnamed sulfotellurides, Ag2CuTeS and (Ag,Cu)2TeS are believed to be new quaternary minerals in the system Ag-Cu-Te-S. These minerals and the cervelleite-like phase could have exsolved from galena during cooling (below 200°C). Initial temperatures for the formation of the sulfotellurides, in the form of hessite-intermediate solid solution, at Kallianou may be up to 300°C under logfS2 values between?~ ?11.5 to ?8.3, and logfTe2 from?~ ?14.8 to ?7.8. The values of logfTe2 and logfS2 during re-equilibration (at ~200°C) were constrained to ?19.5 to ?15.2 and to ?15.8 to ?11.5 respectively. 相似文献
16.
Azam Zahedi Mohammad Boomeri Kazuo Nakashima Mohammad Ali Mackizadeh Masao Ban David R. Lentz 《Resource Geology》2014,64(3):209-232
The Khut copper skarn deposit is located at about 50 km northwest of Taft City in Yazd province in the middle part of the Urumieh‐Dokhtar magmatic arc. Intrusion of granitoid of Oligocene–Miocene age into carbonate rocks of the Triassic Nayband Formation led to the formation of marble and a calcic skarn. The marble contains high grade Cu mineralization that occurs mainly as open space filling and replacement. Cu‐rich sulfide samples from the mineralized marble are also anomalous in Au, Zn, and Pb. In contrast, the calcic skarn is only weakly anomalous in Cu and W. The calcic skarn is divided into garnet skarn and garnet–pyroxene skarn zones. Paragenetic relationships and microthermometric data from fluid inclusions in garnet and calcite indicate that the compositional evolution of skarn minerals occurred in three main stages as follows. (i) The early prograde stage, which is characterized by Mg‐rich hedenbergite (Hd53.7Di42.3–Hd86.1Di9.5) with Al‐bearing andradite (69.8–99.5 mol% andradite). The temperature in the early prograde skarn varies from 400 to 500°C at 500 bar. (ii) The late prograde stage is manifested by almost pure andradite (96.2–98.4 mol% andradite). Based on the fluid inclusion data from garnet, fluid temperature and salinity in this stage is estimated to vary from 267 to 361°C and from 10.1 to 21.1 wt% NaCl equivalent, respectively. Pyrrhotite precipitation started during this stage. (iii) The retrograde stage occurs in an exoskarn, which consists of an assemblage of ferro‐actinolite, quartz, calcite, epidote, chlorite, sphalerite, pyrite, and chalcopyrite that partially replaces earlier mineral assemblages under hydrostatic conditions during fracturing of the early skarn. Fluids in calcite yielded lower temperatures (T < 260°C) and fluid salinity declined to ~8 wt% NaCl equivalent. The last stage mineralization in the deposit is supergene weathering/alteration represented by the formation of iron hydroxide, Cu‐carbonate, clay minerals, and calcite. Sulfur isotope data of chalcopyrite (δ34S of +1.4 to +5.2‰) show an igneous sulfur source. Mineralogy and mineral compositions of the prograde assemblage of the Khut skarn are consistent with deposition under intermediately oxidized and slightly lower fS2 conditions at shallow crustal levels compared with those of other typical Fe‐bearing Cu–Au skarn systems. 相似文献
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The Asachinskoe epithermal Au‐Ag deposit is a representative low‐sulfidation type of deposit in Kamchatka, Russia. In the Asachinskoe deposit there are approximately 40 mineralized veins mainly hosted by dacite–andesite stock intrusions of Miocene–Pliocene age. The veins are emplaced in tensional cracks with a north orientation. Wall‐rock alteration at the bonanza level (170–200 m a.s.l.) consists of the mineral assemblage of quartz, pyrite, albite, illite and trace amounts of smectite. Mineralized veins are well banded with quartz, adularia and minor illite. Mineralization stages in the main zone are divided into stages I–IV. Stage I is relatively barren quartz–adularia association formed at 4.7 ± 0.2 Ma (K‐Ar age). Stage II consists of abundant illite, Cu‐bearing cryptomelane and other manganese oxides and hydroxides, electrum, argentite, quartz, adularia and minor rhodochrosite and calcite. Stage III, the main stage of gold mineralization (4.5–4.4 ± 0.1–3.1 ± 0.1 Ma, K‐Ar age), consists of a large amount of electrum, naumannite and Se‐bearing polybasite with quartz–adularia association. Stage IV is characterized by hydrothermal breccia, where electrum, tetrahedrite and secondary covellite occur with quartz, adularia and illite. The concentration of Au+Ag in ores has a positive correlation with the content of K2O + Al2O3, which is controlled by the presence of adularia and minor illite, and both Hg and Au also have positive correlations with the light rare‐earth elements. Fluid inclusion studies indicate a salinity of 1.0–2.6 wt% NaCl equivalent for the whole deposit, and ore‐forming temperatures are estimated as approximately 160–190°C in stage III of the present 218 m a.s.l. and 170–180°C in stage IV of 200 m a.s.l. The depth of ore formation is estimated to be 90–400 m from the paleo‐water table for stage IV of 200 m a.s.l., if a hydrostatic condition is assumed. An increase of salinity (>CNaCl≈ 0.2 wt%) and decrease of temperature (>T ≈ 30°C) within a 115‐m vertical interval for the ascending hydrothermal solution is calculated, which is interpreted as due to steam loss during fluid boiling. Ranges of selenium and sulfur fugacities are estimated to be logfSe2 = ?17 to ?14.5 and logfS2 = ?15 to ?12 for the ore‐forming solution that was responsible for Au‐Ag‐Se precipitation in stage III of 200 m a.s.l. Separation of Se from S‐Se complex in the solution and its partition into selenides could be due to a relatively oxidizing condition. The precipitation of Au‐Ag‐Se was caused by boiling in stage III, and the precipitation of Au‐Ag‐Cu was caused by sudden decompression and boiling in stage IV. 相似文献
18.
A‐Juan Pang Sheng‐Rong Li M. Santosh Qing‐Yu Yang Bao‐Jian Jia Cheng‐Dong Yang 《Geological Journal》2014,49(1):52-68
The Jilongshan skarn Cu–Au deposit is located at the Jiurui ore cluster region in the southwestern part of the Middle–Lower Yangtze River valley metallogenic belt. The region is characterized by NW‐, NNW‐ and EW‐trending faults and the mineralization occurs at the contact of lower Triassic carbonate rocks and Jurassic granodiorite porphyry intrusions. The intrusives are characterized by SiO2, K2O, and Na2O concentrations ranging from 61.66 to 67.8 wt.%, 3.29 to 5.65 wt.%, and 2.83 to 3.9 wt.%, respectively. Their A/CNK (A/CNK = n(Al2O3)/[n(CaO) + n(Na2O) + n(K2O)]) ratio, δEu, and δCe vary from 0.77 to 1.17, 0.86 to 1, and 0.88 to 0.96, respectively. The rocks show enrichment in light rare earth elements ((La/Yb)N = 7.61–12.94) and large ion lithophile elements (LILE), and depletion in high field strength elements (HFSE), such as Zr, Ti. They also display a peraluminous, high‐K calc‐alkaline signature typical of intrusives associated with skarn and porphyry Cu–Au–Mo polymetallic deposits. Laser ablation inductively coupled plasma spectrometry (LA‐ICP‐MS) zircon U–Pb age indicates that the granodiorite porphyry formed at 151.75 ± 0.70 Ma. A few inherited zircons with older ages (677 ± 10 Ma, 848 ± 11 Ma, 2645 ± 38 Ma, and 3411 ± 36 Ma) suggest the existence of an Archaean basement beneath the Middle–Lower Yangtze River region. The temperature of crystallization of the porphyry estimated from zircon thermometer ranges from 744.3 °C to 751.5 °C, and 634.04 °C to 823.8 °C. Molybdenite Re–Os dating shows that the Jilongshan deposit formed at 150.79 ± 0.82 Ma. The metallogeny and magmatism are correlated to mantle–crust interaction, associated with the subduction of the Pacific Plate from the east. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
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20.
湖北鸡笼山矽卡岩型金铜矿床铅同位素地球化学研究 总被引:1,自引:0,他引:1
湖北鸡笼山金铜矿床是长江中下游铁铜金多金属成矿带鄂东南成矿区中典型的矽卡岩矿床,对其成矿物质来源的专门研究相对贫乏。对鸡笼山矽卡岩带的11件黄铁矿、2件方铅矿和2件闪锌矿样品进行了铅同位素分析,结果显示206Pb/204Pb为17.358~18.589,207Pb/204Pb为15.414~15.745,20 8Pb/204Pb为37.956~39.094,矿石铅属异常铅,其单阶段模式年龄(136.3~707.3 Ma)不能代表成矿年龄,但其分布特征反映了铅的多源混合特征。同位素构造模式图上投点的线性分布特征显示了花岗闪长斑岩、矽卡岩、大理岩中的铅同位素演化具有很好的继承性和相应性,但各类铅同位素组成在20 8Pb/204Pb-206Pb/204Pb图上均落在下地壳和地幔之间,指示其具有来自壳幔边界附近的深源的特点。鸡笼山金铜矿床、丰山洞铜钼矿床、城门山铜金矿床、铜绿山铜铁矿床4个相似矿床的铅同位素组成进行对比,显示整体成矿物质来源在主体相似的背景下也具有局部的差异性。 相似文献