熊耳群碲化物型金矿硫铅同位素及其在矿作用探讨

熊耳群火山岩中产出各种类型的金矿床，碲化物型（构造蚀变岩型）是金矿主要类型，该类型金矿以出现大量碲化物或富碲、硒为特征。硫化物δ＾３４Ｓ以较大的负值为特征，δ＾３４Ｓ＝－１９．２４‰－＋６．６８‰。本文通过综合研究及与国内外有关矿床对比，认为该碲化物型金矿δ＾３４Ｓ负值的主要原因是地表水的渗透参与导致成矿热液物理化学条件改变，ｆｏ２升高、ＰＨ降低，从而引起硫同位素强烈分馏形成的。有关铅同位素组成具     

成矿流体中碲逸度对自然金成色的影响

富碲化物型金矿具有自然金成色高的特点，通过热力学分析，推导出碲逸度与温度和自然金中银含量的关系式，建立了ｆＴｅ２－Ｔ－ＮＡｇ图解，并论述了该类型金矿中高自然金成色的内在原因，即成矿溶液中高的碲逸度导致了高的自然金成色，同时也分析了溶液中碲逸度对金银矿物的共生组合的影响，以及对如何计算成矿溶液中碲逸度问题进行了讨论。     

一个值得重视的金矿类型——碲化物型

碲化物型金矿在浅成低温热液型金矿中是属于研究较为薄弱的一种类型,本文对碲化物型金矿产出的地质背景、地质和地球化学特征及其时空分布特征进行了综合和总结,然后指出了该类型金矿研究中尚待解决的一些重要问题,并同时指出Te的地球化学异常可作为该类型金矿的有效的地球化学找矿标志。     

河南栾川北岭碲化物型金矿围岩蚀变特征

河南栾川北岭碲化物型金矿围岩蚀变特征李增慧，任富根，赵嘉农，高亚东，丁士应，王振宇（天津地质矿产研究所，天津３００１７０）关键词碲化物，金矿，围岩蚀变１矿床地质矿体赋存在熊耳群坡前街组富钾火山岩系中的构造破碎带内。矿区招皱构造简单，仅在西北部，为一轴...     

东坪式金矿的金银碲化物及其载金性

运用反光显微镜、电子显微镜及其能谱、波谱分析技术，对东坪式金矿矿石中的Au、Ag碲化物的共生组合、产状和化学成分进行了系统普查，发现除自然金外，还有碲金矿、碲金银矿和碲银矿等碲化合物，它们主要与自然金、黄铜矿连生，并包裹于石英型金矿石中的黄铁矿、方铅矿和闪锌矿的表面、孔洞或裂隙。这些碲化物形成于硫化物－石英阶段（220－390℃），为该阶段金矿化的主要特征，对形成石英脉型矿体的原生富金矿石及其Au-Te元素组合起决定作用。     

胶东玲珑金矿区碲化物形成条件及其对金富集过程的约束SCIEI北大核心CSCD

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   

黑龙江三道湾子金矿Au-Ag-Te系列矿物特征及其成矿阶段分析

黑龙江省三道湾子金矿床是碲化物型低硫化浅成低温热液矿床,矿石类型主要为贫硫石英脉型,矿石矿物组合较简单,除了黄铁矿、黄铜矿以外,通过光薄片鉴定以及电子探针、扫描电镜分析,在矿脉中发现大量金银碲化物,主要有斜方碲金矿、针碲金银矿、碲金银矿、碲银矿等;脉石矿物有石英、方解石等,富含碲化物的地段往往是富矿囊的部位。三道湾子金矿床经历了四个成矿阶段：石英-黄铁矿阶段;石英-多金属硫化物阶段;石英-金、碲化物-硫化物阶段,为金矿脉的主体;石英-碳酸盐阶段。     

黑龙江三道湾子金矿Au-Ag-Te系列矿物特征及其成矿流体

本文采用光学显微镜、扫描电镜和电子探针对黑龙江省三道湾子金矿中Au-Ag-Te系列矿物碲银矿、碲金银矿、针碲金银矿、斜方碲金矿和碲金矿进行了详细的矿物学研究,本次研究还发现Au2Te的存在。碲化物矿物多呈粒状或脉状分布于石英或硫化物矿物的裂隙中。Au-Ag-Te系列矿物中,Au含量与Ag含量呈负相关性,与Te含量呈弱的负相关性。结合Au-Ag-Te成分共生图解及镜下特征对金银碲化物矿物共生组合进行分析表明Te优先与Ag结合形成碲银矿或碲金银矿,只有成矿流体中Ag被大量消耗后,Te才与Au结合形成针碲金银矿、斜方碲金矿、碲金矿,最后当成矿流体中Te也被大量消耗后,Au才会形成自然金。氦、氩同位素研究表明石英—黄铁矿阶段流体包裹体中3He/4He值为0.01～0.03Ra,金银碲化物阶段3He/4He值为0.08～1.04Ra,指示金银碲化物阶段有大量地幔物质参与。     

胶东牟平-乳山金矿带金青顶金矿碲化物矿物的特征及沉淀机制

通过光学显微镜、电子显微镜并结合能谱分析,在金青顶金矿Ⅱ号矿脉深部除含碲化物碲银矿、碲金银矿和碲铋矿外,首次发现碲金矿的存在,进一步证实了前人对于该矿床中存在碲金矿这一新矿物的推测,也打破了该金矿深部无碲金银矿的传统认识。这些碲化物呈连生体或者细脉状产于黄铁矿等硫化物、石英与黄铁矿裂隙中。在金银碲化物矿物中,Te含量变化较小,Au含量变化较大,与Ag呈负相关,与Bi为正相关。结合金-银-碲矿物成分-共生图解,对金银碲化物矿物的共生组合特征进行了研究。研究表明,Te总是优先与Ag结合形成碲银矿或碲金银矿,只有热液中Ag被消耗后才与Au结合形成碲金矿,最后Te被耗尽,矿液中残留很多的Au,从而形成自然金,说明随着成矿过程的演化,成矿热液可能逐渐富金,具体表现为碲银矿-碲金银矿-碲金矿-自然金的析出顺序。     

全球金—碲化物型矿床的分布规律和主要成矿条件

金－碲化物型矿床是一种重要的金矿类型。本文通过对全球各主要金－碲化物型矿床的成矿地质背景、赋矿围岩、控矿构造和地球化学特征进行了分类综合研究,阐明了全球金－碲化物型矿床的分布规律与主要成矿条件。     

鲁西归来庄金矿田碲金元素地球化学过程研究

归来庄金矿田是中国重要的富碲型金矿田之一,金矿体产于燕山早期中-碱性次火山杂岩中,以富含碲化合物为特征,由于其碲金成矿机理尚不明确,而受到广泛关注。文章以归来庄金矿田代表性矿石为研究对象,探索成矿过程中的碲金元素地球化学过程。通过二次飞行时间离子探针、电子探针及矿石微量稀土元素分析等多种研究手段,试图揭示成矿过程中碲元素参与成矿的主要地球化学行为。研究认为,Te在中、低温条件下易置换S,而使Te以类质同象的形式分散于硫化物晶格中,在高碲逸度的条件下,Te易与Au、Ag、Cu、Pb等元素形成碲化物而参与成矿,这是碲元素参与成矿的主要地球化学行为。     

河北东坪金矿田蚀变作用研究

水泉沟超单元碱性岩中产出的东坪金矿田以其产出环境、规模、尤其是特征的蚀变作用为地质界关注,并称之为“钾长石化”。经过较系统的理论研究。对钾长石,碱性长石的含义进行了明确的限定和规范,在此基础上对东坪金矿田的蚀变作用,特别是“钾长石化”进行了系统深入的岩石学,矿物学研究,发现主要是富钠的微斜长石化,斜长石的微斜长石化和微斜长石自身的相转化可能是主要的金矿化蚀变,进而对该矿田的蚀变作用进行了全面系统的     

Mineral Paragenesis and Ore‐Forming Processes of the Dongping Gold Deposit,Hebei Province,China

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.     

捷克Jílové金矿集区中硒矿物的特征与硒化物-碲化物的形成物理化学条件

捷克Jílové金矿集区在中世纪时期曾是波希米亚地块最大、最富集金的地区,黄金开采已具有2000多年的悠久历史。最重要的矿床有Pepˇr、Bohuliby、Radlík和Rotlev,主要赋存于新元古界těchovice组火山-沉积岩和波希米亚花岗闪长岩深成岩体中。金矿化存在3种类型:脉状矿化、含金网脉状矿化、浸染状矿化。金矿床中的矿物组成已超过70种,包括Cu、Pb、Zn、Fe、As、Mo、Bi、Hg、Au和Ag的一些硫化物、硫盐、氧化物、氢氧化物、硫酸盐、碳酸盐、钨酸盐、硅酸盐,还有碲化物、卤化物和自然元素的矿物。笔者通过显微镜观察、电子探针和扫描分析等综合分析技术,确认金矿床中也存在一些硒矿物。金矿石中的矿物种类较多,组成复杂以及存在大量碲化物、自然金,构成Jílové金矿集区的一大特色。一般说来,亲硫环境越强,出现硒化物、碲化物这样的特殊矿物就越少。因此,金矿床中同时存在大量碲化物、硒化物矿物,表明金矿床的形成具有特殊的物理化学条件。在成矿早阶段,具有高f(S2)和低f(Se2)、f(Te2)、f(O2)的介质,且f(S2)/f(Se2)>1、f(S2)/f(Te2)>1,此时形成大量的黄铁矿、白铁矿、磁黄铁矿、黄铜矿、毒砂、方铅矿、闪锌矿等硫化物。而Se、Te有可能以类质同象的形式赋存于硫化物矿物中。在成矿晚阶段,随着硫化物的大量沉淀,具有f(Se2)/f(S2)、f(Te2)/f(S2)、f(O2)逐渐增高,有利于硒化物、碲化物的形成。根据金矿石中的硒矿物、碲矿物组合,获得在300℃成矿温度下形成硒化物、碲化物时的f(Se2)、f(Te2)分别为10-14.97～10-7.09和10-10.98～10-7.50。     

东坪金矿主要地质特征及控矿条件

东坪金矿产于水泉沟偏碱性杂岩体与太古宇桑干群变质岩之内接触带,矿石工业类型为石英脉和蚀变岩型,以前者为主.矿脉带走向为NNE,主要载金矿物为石英、黄铁矿、镜铁矿、黄铜矿和碲金矿,金成色937~990,矿化蚀变主要是钾长石化和硅化;肉红色钾长石化是东坪金矿乃至赋存于水泉沟杂岩体中所有金矿的典型特征.矿化共分5个阶段,其中第2、3两个阶段,即镜铁矿-自然金-石英阶段和多金属硫化物-自然金-石英阶段为主要成矿阶段.水泉沟杂岩体在东坪金矿成矿过程中,不仅提供了热动力,而且提供了成矿物质和矿化剂;太古宙桑干群涧沟河组提供了部分成矿物质,近E-W向尚义-崇礼-赤诚深大断裂控制了水泉沟金矿田的产出,而NNE和NW向两组裂隙则控制了东坪金矿矿体的产出.     

南秦岭汉阴北部金矿田长沟金矿区控矿构造解析

南秦岭汉阴北部金矿田含矿岩系主要是志留系梅子垭岩组中浅变质岩层，该套地层经历了中生代的构造变形，复杂多样，其中发育的脆-韧性剪切带成为梅子垭岩组发育蚀变岩型金矿富集的良好场所。通过对汉阴北部金矿田近年新发现的长沟金矿区及周邻区带成矿地质背景、控矿构造特征等进行解析研究，结合以往资料，总结汉阴北部金矿田该类型金矿床的控矿构造特征和成矿规律，初步探讨长沟金矿床的热液成因类型。研究发现汉阴北部金矿田区发育有五条脆-韧性剪切带，其构造样式、变质作用具多样性和多期性，其中第二期变形与金成矿作用关系密切；长沟金矿区受区域DSZ3(≈RF5)脆-韧性剪切带及多期构造置换中的S₂面理控制，控矿构造样式具有斜列排布特征。含矿流体包裹体研究认为其在低—中温热液环境形成，主要是在退变质作用下易于在局部两种岩性差异界面附近、片理面之间薄弱变形带、密集剪切节理带或劈理化带等有利构造部位含金热液发生富集成矿。因此，脆-韧性剪切带及其多期面理置换与密集片理、剪切节理带及热液蚀变岩是主要的控矿构造类型。进一步的找矿预测工作主要应该紧抓其脆-韧性剪切带的走向延伸和倾向延深，更应重视侧向斜列富集规律。      

Gold distribution in As-deficient pyrite and telluride mineralogy of the Yangzhaiyu gold deposit,Xiaoqinling district,southern North China craton

The Mesozoic Yangzhaiyu lode gold deposit is situated in the southern edge of the North China craton. Gold mineralization is hosted in Archean amphibolite facies metamorphic rocks, and consists mainly of auriferous quartz veins. Pyrite is the predominant sulfide mineral, with minor amounts of chalcopyrite, sphalerite, and galena. Based on morphology and paragenesis, there are three generations of pyrite, termed as first generation (G1), second generation (G2), and third generation (G3). They have distinct contents, occurrences, and distribution patterns of gold. The coarse-grained, euhedral G1 pyrite contains negligible to low levels of gold, whereas both invisible and visible gold are present in the fine- to medium-grained G2 pyrite that is characterized by abundance of microfractures and porosities, forming a foam-like texture. Laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) depth profiles indicate that invisible gold occurs either as solid solution or as nanoparticles of gold-bearing tellurides in the G2 pyrite. Visible gold is widespread and present as irregular grains and stringers of native gold mostly along grain boundaries or filling microfractures of pyrite, likely resulting from remobilization of invisible gold once locked in the G2 pyrite. The G3 pyrite, invariably intergrown with chalcopyrite, sphalerite, and galena, contains the highest levels of invisible gold. There is a positive correlation between Au, Ag, and Te, indicating that gold occurs as submicroscopic Au-bearing telluride inclusions in the host minerals. Whenever gold, either invisible or visible, is present, As is always below or only marginally higher than the detection limit of LA-ICP-MS. This indicates that As played an insignificant role in gold mineralization. Tellurides are widespread in the auriferous quartz veins, consisting mainly of petzite, calaverite, hessite, altaite, and tellurobismuthite. Native gold commonly occurs as intergrowths with tellurides. Textural evidence indicates a precipitation sequence, in a temporal order, of calcaverite, petzite, altaite, tellurobismuthite, and hessite. Little amount of sulfide phases has been found in association with the tellurides, indicating that tellurides were deposited under low S fugacity (fS ₂ ) and/or high Te fugacity (fTe ₂ ) conditions. The textural relationships, when combined with fluid inclusion microthermometric data of auriferous quartz veins and tellurides thermodynamic data, permit estimation for logfTe ₂ during telluride formation, which are −6.8 to −10.8 at 300°C and −9.6 to −17.6 at 250°C. Available geochronological and geochemical data suggest that Te was most likely derived from the late Mesozoic magmatic rocks widespread in the Xiaoqinling district and other parts of the southern North China craton, which were emplaced broadly contemporaneous with gold mineralization at Yangzhaiyu. This study highlights the role of Te and tellurides as important gold scavengers in As-deficient ore fluids.     

Indicative features of placer gold for the prediction of the formation types of gold deposits (east of the Siberian Platform)

Prediction and search for gold deposits in the east of the Siberian Platform are problematic because the study area is overlain by a thick cover of MZ-KZ deposits. Search for gold deposits by the largest geological institutions using conventional methods have not yielded positive results, because the main attention was focused on the discovery of ancient gold-bearing conglomerates of the Witwatersrand type and on the evaluation of the gold ore potential of basic magmatism. Typomorphism of placer gold bears huge information about the genesis of native gold, both its primary endogenous origin and its exogenous transformation, which makes it possible to identify the formation type of mineralization, increases the reliability of the prediction of gold deposits, and ensures their purposeful search in the platform areas. The revealed indicative features of placer gold made it possible to substantiate the formation of the gold ore sources of Precambrian low-sulfide gold-quartz, gold-iron-quartzite, porphyry gold-copper, and gold-PGE mineralization and Mesozoic gold-silver, gold-rare-metal, and gold-sulfide-quartz mineralization in the east of the Siberian Platform. We have established that high-fineness placer gold with microinclusions of pyrite, arsenopyrite, quartz, and carbonates with recrystallized structures and lines of plastic deformation is specific to the ore sources of low-sulfide gold-quartz mineralization. A high content of Cu (up to 4%) in flaky high-fineness gold is one of indicators of porphyry gold-copper mineralization. The angular shape of gold grains, the fine fraction and high fineness of gold, its completely recrystallized and regrown internal structure, and the permanent presence of Fe, Bi, and Cu microimpurities and hematite, ilmenite, and corundum microinclusions are typical of gold-iron-quartzite mineralization. Flaky and laminated high-fineness gold particles with steady Pt, Pd, and Ni impurities and Pt-mineral phases and Au-Pt intergrowths in them testify to the ore sources of gold-PGE mineralization. Laminated and cloddy gold fractions of > 0.25-2.0 mm, the medium and low fineness of gold, its single-crystal or, sometimes, porous internal structure, the wide range of microimpurities (Pb, Zn, As, Sb, Cu, Te, etc.), and microinclusions of native Ag, adularia, Sr-barite, and calcite are indicators of gold-silver mineralization. Laminated, dendritic, and cloddy-angular gold grains, wide variation in gold fineness (307-950‰), and the presence of microinclusions of native bismuth, maldonite, arsenopyrite, and silver tellurides are indicative of gold-rare-metal mineralization. Laminated and cloddy gold grains, their size varying from dust to > 0.25 mm, their mono- and coarse-grained internal structure, wide variation in gold fineness (600-900‰), and the presence of Hg microimpurities (up to 6% and more) and microinclusions of quartz, calcite, pyrite, arsenopyrite, tellurides, selenides, and REE phosphates point to gold-sulfide-quartz mineralization. The established placer gold indicators of the particular formation types of ore sources in the east of the Siberian Platform made it possible to predict Precambrian gold deposits with low-sulfide-gold-quartz mineralization similar to the Kirkland Lake and Porcupine mines and gold deposits with Mesozoic gold-silver mineralization similar to the Cripple Creek mine. The developed criteria for determining the types of mineralization by indicative features of placer gold give an insight into the ore genesis and can be successfully applied to prediction and search for gold deposits and to evaluation of their gold resources.