Metallogenic model and prognosis of the Shuiyindong super-large strata-bound Carlin-type gold deposit, southwestern Guizhou Province, China

The Shuiyindong deposit is one of the largest (more than 100 tonnes of Au) and highest grade (more than 7×10-6-10×10-6), strata-bound Carlintype gold deposits in southwestern Guizhou Province, China. The deposit is controlled by both structure and favorable lithology. It is situated near the axis of the striking Huijiabao anticline and is hosted in bioclastic limestone of the Permian Longtan Formation. Gold mineralization occurred under low temperature with Th of 220℃± and is closely associated with decarbonation, silicification, sulfidation and dolomitization. The deposit has a characteristic elemental assemblage of Au-As-Hg-Tl. Studies of geochemistry and isotope compositions indicated that the ore-bearing materials and fluids of the gold deposit mainly originated from a plutonic source, and possess a mixing feature with the strata matter during transportation from mantle to crust. Fluid inclusions in vein quartz from the gold deposit are rich in volatile flux, indicating that metallogenic fluid is an overpres-sured one. The activity and geothermal state of the Earth's crust in the long period of time are favorable for the formation of overpressured fluids in a large area, and extensive structures would drive the fluids into ore-forming sys-tem and make gold deposits formed. The complexity of structural movement in the upper crust of southwestern Guizhou Province resulted in complicated gold mineralization. Through metallogenic prognosis and exploration, the proven reserves of the deposit increased by tens of tonnes of Au and the deposit has become a super-large strata-bound Carlin-type gold deposit.

A study on the genetic relations between Permian Longtan Formation coal series strata and Carlin-type gold deposits,southwestern Guizhou Province,China

A large number of the Carlin-type gold deposits occur in the Longtan Formation in southwestern Guizhou Province.The Long-tan Formation contains abundant basalt,tuff and siliceous rocks.All rocks of the Longtan Formation are enriched in gold,which were deposited in a limited platform environment in the transition zone from marine to continental.The process of sedimentation was accompanied by the eruption of Emeishan basalt and hydrothermal deposition controlled by co-sedimentary submarine deep faults in the west,which led to the formation of a peculiar gold-bearing formation with coal series strata.This formation controlled the occurrence of the Carlin-type gold deposits in southwestern Guizhou Province.In response to the remobilization of the Emei mantle plume during the Yanshanian period,As,Au and other ore-forming materials were continuously extracted by deeply circulating waters from the Emeishan basalt and coal seams,thereafter forming ore-forming hydrothermal solutions.When these elements were transported in the coal seams,large amounts of As,Au and other elements were enriched in pyrite within the coal seams,thus forming high-As coal and Carlin-type gold deposits in the Longtan Formation coal series strata.

Trace Elements in Fluid Inclusions in the Carlin-Type Gold Deposits, Southwestern Guizhou Province

Fluid inclusions in quartz from the Lannigou and Yata Carlin\|type gold deposits in southwestern Guizhou were analyzed by inductively coupled plasma\|mass spectrometry for their trace elements (Co, Ni, Cu, Pb, Zn, Pt, etc.). The results show that quartz fluid inclusions entrapped at different ore\|forming stages contain higher Co, Ni, Cu, Pb and Zn. It has been found for the first time that the ore\|forming fluids responsible for the Carlin\|type gold deposits are rich in Pt. From this it can be concluded that basic volcanic rocks seem to be one of the important sources of ore\|forming materials for the Carlin\|type gold deposits.

A Comparison of Carlin-type Gold Deposits：Guizhou Province,Golden Triangle,Southwest China,and Northern Nevada,USA

Several Au deposits in Guizhou Province,southwest China,described as being similar to the highly productive Carlin-type gold deposits in northern Nevada.USA,were examined to identify similarities and differences between the two districts.Samples were collected along transects from lowto high-grade rock,where possible,and fram stockpiles at the Shuiyindong,Zimudang,Taipingdong,Yata and Jinfeng(formerly Lannigou)deposits.Methods used to examine ore and alteration minerals included hand-sample description:reflectance spectroscopy using an ASD Terraspec spectrometer;analyses of hand samples by carbonate staining with Alizaren red and potassium ferricyanide;transmitted and reflected light petrography;chemical analyses,mineral identification,and imaging using a JEOL.JSM-5610 scanning electron microscope:and quantitative chemical analyses using a JEOL JXA-8900 electron probe microanalyzer.Geochemical analyses of hand samples for 52 elements were done by ALS Chemex.Results indicate both similarities and differences between the two districts.Both districts have similar geologic histories.and deposits at both locations appear to have formed as a result of similar tectonic events.though the district in southwest China lacks evidence of eoeval felsic igneous activity;however,the ore-stage minerals and the fluids that produced the minerals and deposits have some significant differences.The Nevada deposits were dominated by fluid-rock reaction in which host rock Fe was sulfidized to form Au-bearing pyrite.Although ore fluids sulfidized host rock Fe in the Cuizhou deposits.the timing of Fe metasomatism is unknown,so whether the deposits formed in response to sulfidation or pyritization is unclear.Fluid-rock reaction between an acidic,aqueous fluid and highly reactive calcareous rocks in Nevada caused extensive decarbonatization of host rocks,jasperoid replacemerit of carbonate minerals,and alteration of silty rock components to illite and kaolinite.In Guizhou,CO2-bearing ore fluids with temperatures and pressures approaching 100℃ and 500 bars greater than temperatures and pressures detemained for ore fluids in the Nevada deposits,deposited Aubearing pyrite.In examined Guizhou deposits these fluids carbonatized host rocks and farmed both replacement and open-space-filling ore.The fluids,which may have been immiscible,were sufficiently overpressured to fracture wall rocks and to create significant open space filled by vein quartz.While deposit architecture,tectonic setting,and host rocks in Guizhou are quite similar to northern Nevada,ore and alteration minerals suggest that ore-forming processes in examined Guizhou deposits have important similarities to processes associated with formation of orogenic Au systems.The Guizhou deposits display characteristics of both Carlin-type and orogenic systems,perhaps indicating formation at conditions somewhat intermediate to conditions for Carlin-type deposits and orogenic systems.

郑明华矿(Zhengminghuaite):黔西南卡林型金矿床中新矿物的发现及其成矿学意义

郑明华矿是最近在黔西南紫木凼卡林型金矿床中发现的一种硫盐类新矿物。文章在概述郑明华矿产出状态、物理性质、光学特征、化学组成和晶体结构基础上,侧重介绍该新矿物形成的地质背景、显微组构特征及与同型系列其他矿物的关系,并结合矿物共生组合特征,探讨其形成的物理化学条件。郑明华矿产于受断层破碎带控制的角砾状金矿石中,与其共生或伴生的矿物为成矿晚阶段石英、雄黄和方解石,以及少量至微量As-Sb-Hg-Tl的硫化物和硫盐。郑明华矿为不透明矿物,金属光泽,性脆易碎,无解理,莫氏硬度约为4;反射色为浅灰色,双反射和反射多色性不显至微弱,非均质性微弱,反射率为23%~29%(546 nm);理想化学式为Cu_(6)Fe_(3)As_(4)S_(12),三方晶系,空间群R3,晶胞参数:a=13.5373(17)Å,c=9.2354(13)Å,V=1465.7(4)Å^(3)(Z=3),属硫砷锌铜矿同型系列的新矿物。郑明华矿形成于成矿主阶段含金富砷黄铁矿、毒砂等Fe硫化物沉淀后的成矿晚阶段,但主要形成于雄黄等As硫化物大量沉淀前,在此期间成矿流体的硫逸度(f(S_(2)))升高了1~2个对数单位,温度降低了60~100℃。郑明华矿的发现及与其他热液矿物的共生组合关系,为揭示卡林型金矿床的成矿过程和成矿物理化学条件提供了重要信息。

Geological and geochemical characteristics of the Baogudi Carlintype gold district(Southwest Guizhou, China) and their geological implications

The newly discovered Baogudi gold district is located in the southwestern Guizhou Province,China,where there are numerous Carlin-type gold deposits.To better understand the geological and geochemical characteristics of the Baogudi gold district,we carried out petrographic observations,elemental analyses,and fluid inclusion and isotopic composition studies.We also compared the results with those of typical Carlin-type gold deposits in southwestern Guizhou.Three mineralization stages,namely,the sedimentation diagenesis,hydrothermal(main-ore and late-ore substages),and supergene stages,were identified based on field and petrographic observations.The main-ore and late-ore stages correspond to Au and Sb mineralization,respectively,which are similar to typical Carlin-type mineralization.The mass transfer associated with alteration and mineralization shows that a significant amount of Au,As,Sb,Hg,Tl,Mo,and S were added to mineralized rocks during the main-ore stage.Remarkably,arsenic,Sb,and S were added to the mineralized rocks during the late-ore stage.Element migration indicates that the sulfidation process was responsible for ore formation.Four types of fluid inclusions were identified in ore-related quartz and fluorite.The main-ore stage fluids are characterized by an H2O–NaCl–CO2–CH4±N2system,with medium to low temperatures(180–260℃)and low salinity(0–9.08%NaCl equivalent).The late-ore stage fluids featured H2O–NaCl±CO2±CH4,with low temperature(120–200℃)and low salinity(0–7.48%Na Cl equivalent).The temperature,salinity,and CO2and CH4concentrations of ore-forming fluids decreased from the main-ore stage to the late-ore stage.The calculated δ^13C,d D,and δ^18O values of the ore-forming fluids range from-14.3 to-7.0%,-76 to-55.7%,and 4.5–15.0%,respectively.Late-ore-stage stibnite had δ^34S values ranging from-0.6 to 1.9%.These stable isotopic compositions indicate that the ore-forming fluids originated mainly from deep magmatic hydrothermal fluids,with minor contributions from strata.Collectively,the Baogudi metallogenic district has geological and geochemical characteristics that are typical of Carlin-type gold deposits in southwest Guizhou.It is likely that the Baogudi gold district,together with other Carlin-type gold deposits in southwestern Guizhou,was formed in response to a single widespread metallogenic event.

Au-Sb association and fractionation in micro-disseminatedgold deposits, southwestern Guizhou——geochemistry andthermodynamics

The dual geochemical character of paragenesis and fractionation between gold, arsenic and antimony in micro-disseminated gold deposits in southwestern Guizhou is discussed in terms of spatial distribution of independent deposits, lateral and vertical enrichment, mineralization stage and factor and correlation analyses. Thermodynamic calculations of solubility and speciation of gold and antimony minerals indicate that gold is transported in hydrothermal solution as Au(HS) 2and antimony is mainly as Sb(OH)30 although HSb2S4 may be of increasing importance in acidenvironment at low temperatures during the late stage of mineralization. Changes in physico-chemical conditions hold the key to the association and fractionation between gold and antimony. Gold and antimony response differently to physicochemical variations because they are distinct from each other in soluble speciation and mineral solubility, leading to precipitation at different times and localities during hydrothermal evolution.

Preliminary study on light hydrocarbons in ore-forming fluids of gold and antimony deposits in southwestern Guizhou, China

METAL minerals precipitate generally from ore-forming fluid. It is suggested that organic mat-ter in ore-forming fluid is one of the best media which show the role of organic matter in oregenesis. Because mineralizing temperatures of many ore deposits exceeded the stable rangesof liquid hydrocarbons, only light hydrocarbons were preserved well in inclusions. Thus,

Two kinds of Carlin-type gold deposite in southwestern Guizhou,China

Based on the organic geochemical studies on two typical Carlin-type deposits in southwestern Guizhou, as well as the comparison between the two deposits in terms of geological background,igneous rock, paleo-oilfield, lithofacies and paleogeographical and geochemical features, two kinds of Carlin-type deposit were proposed: Lannigou Type and Getang Type. The former includes Lannigou,Banqi and Yata gold deposits. These deposits are hosted by turbidite, geographically situated in the southwest of the mineralized district, and related genetically to paleo-oilfields. The latter includes Getang, Zimudang and Dachang gold (mercury and thallium) deposits, situated geographically in the northwest of the mineralized district where Emeishan basalt commonly occurs. These deposits are associated with reduction of coaly organic matter.

黔西南两类容矿围岩金矿对比及对深部找矿勘查的指示

黔西南是中国著名的卡林型金矿集区,已查明金资源量约750 t,特别是近年来在该地区新发现了玄武岩容矿金矿,以架底大型金矿床、大麦地中型金矿床为典型代表,取得了新的找矿突破和认识,至此,该地区原生金矿容矿围岩主要有玄武岩和沉积岩两类。通过对黔西南玄武岩容矿金矿与沉积岩容矿金矿进行对比分析研究,认为:(1)卡林型金矿的定义可能存在一定局限性,需进一步拓展,黔西南玄武岩容矿金矿与沉积岩容矿金矿典型特征相似,可能形成于同一区域成矿事件,是同一区域岩浆热液成矿作用形成的卡林型金矿,在深部勘查与研究工作中应系统考虑;(2)构造(背斜、穹隆、断裂、SBT)+有利岩石组合(厚度大于100 m的碳酸盐岩与上覆厚度大于50 m的碎屑岩或玄武岩/凝灰岩)+Au-As-Sb-Hg-Tl组合异常+围岩蚀变(硅化、黄铁矿化、毒砂化),可能指示深部存在卡林型金矿;(3)玄武质岩石也是卡林型金矿很好的赋矿围岩,卡林型金矿容矿岩石、容矿地层具有多样性,几乎区内所有岩石和地层均可以成为卡林型金矿的容矿岩石和容矿地层,但具体到某一个特定的矿床时,往往有特定的就位地层和特殊的容矿围岩。

黔西南泥堡金矿床大型隐伏金矿体地质特征研究

泥堡金矿区Ⅲ号金矿体是近年来发现的受断裂控制的大型隐伏矿体,是泥堡金矿区找矿勘探工作的重大突破。该矿体受F1断层控制,其容矿岩石为蚀变沉凝灰岩。蚀变沉凝灰岩普遍发育粘土化、碳酸盐化,而与金矿化密切关联的蚀变类型为黄铁矿化、硅化,次为毒砂化。对泥堡金矿床产出特征进行分析发现,Ⅲ号矿体明显受构造(F1断层)、地层(P3l2)和岩性(蚀变沉凝灰岩)控制。结合矿床赋矿岩石、矿物组合和控矿因素分析,认为泥堡金矿的形成与晚二叠世沉积火山凝灰质密切相关,F1断层活动及燕山期热水(液)作用是Ⅲ号金矿体成矿的关键。通过对比分析,认为区域上车榔-泥堡-三道沟-潘家庄一线是寻找类似金矿体(断控型)的重要区域,龙潭组二段及蚀变沉凝灰岩是重要的找矿标志。

黔西南水银洞层控超大型卡林型金矿床成矿模式及成矿预测研究

贵州省贞丰县水银洞金矿是一个近年来发现的、具较高品位、资源量已达超大型的层控卡林型金矿床。矿床受灰家堡背斜核部构造和有利岩性组合控制。金矿床具有低温成矿特征,出现去碳酸盐化、硅化、黄铁矿化和粘土化等围岩蚀变,特征的Au-As-Hg-Tl元素组合。成矿流体具有低温低盐度和较高压力和富挥发份的特点,均一温度在220℃左右,盐度在6%NaCl左右,压力为160±40MPa。成矿物质主要来自深部。高压和富挥发份促使成矿流体从深部迁移至控矿背斜核部,并由于构造作用挥发份的快速逃逸,压力骤降,促使流体快速卸载,金快速沉淀,形成水银洞超大型层控卡林型金矿床。根据找矿标志及成矿和找矿模型,进行了成矿预测研究并取得很好效果,使水银洞金矿新增储量数十吨,并且预示该类型金矿找矿远景巨大,已经成为黔西南第一个超大型层控卡林型金矿床。

贵州泥堡金矿地质地球化学特征

泥堡金矿具多层含矿特征,各层金矿体均与二叠系火山碎屑岩密切相关。根据对矿床地质、地球化学、流体包裹体等多方面研究认为,火山碎屑岩与大厂石英岩之间的假整合面是最主要的容矿空间;金矿的成矿时代为晚侏罗世,金矿的形成与峨眉山地幔柱残留部分在燕山期的活动有关。

论深源流体参与黔西南金矿床成矿的可能性

通过研究黔西南金矿床时空分布及地球化学特征,讨论了深源流体参与金矿床成矿的可能性。金矿床在时空上受莫霍面隆起、深大断裂、幔源岩浆岩体的控制,且与航磁异常、重力异常、环形构造等存在对应关系。铅、硫、氢、氧同位素及稀土元素地球化学研究表明,成矿物质可能来源于深源流体及地层岩石;金矿床是深源流体改造地壳岩石的产物。

贵州泥堡金矿床流体包裹体特征及其成矿意义

为揭示泥堡金矿床的成因机制,本文对泥堡金矿床两类矿体中的萤石、方解石中的流体包裹体进行了岩相学、显微热力学和单个包裹体成分的激光拉曼显微探针分析.结果表明,层控型矿体为早期成矿阶段的产物,其中的脉石矿物萤石中发育了气液两相水溶液包裹体、含CO2包裹体,其均一温度为220～260℃,盐度为0.00％～2.00％NaCleq,密度为0.54～1.03g/cm3;断裂带型矿体方解石中发育气液两相水溶液包裹体、含CO2气液两相包裹体和含子矿物的三相包裹体,其均一温度主要为100～200℃,盐度为3.00％～6.00％ NaCleq,密度为0.69～1.00 g/cm3.计算得到早期成矿阶段流体捕获压力为40～80MPa,成矿深度为1.5～3.0 km;断裂带型矿体中流体的捕获压力为30～40MPa,成矿深度为1.0～2.5 km.反映出初始流体的中低温、低盐度、低密度并含CO2及CH4、N2等有机气体成分的特点.流体混合是导致成矿早期阶段矿质初步富集形成层控型矿体的原因,后期的断裂带活动引发的流体沸腾是形成断裂带型矿体的原因.

黔西南卡林型金矿矿田控矿构造类型及成矿流体特征

黔西南地区是我国卡林型金矿重要的矿集区,滇黔桂"金三角"的重要组成部分之一。区内金矿的主控矿构造可归纳为三类:不整合型、断层型以及不整合和断层复合型。前人分别针对三类构造中的流体开展了研究,但由于缺乏系统对比研究,在成矿流体特征及来源方面一直存在较大的争议。本次研究在结合前人已获稳定同位素结果的基础上,选取了水银洞、丫他等典型矿床,针对三类构造中成矿期脉体进行流体包裹体以及H-O-C-S同位素研究,探讨其成矿期成矿流体特征以及来源。不整合型构造中流体包裹体可见气液两相包裹体(W型)以及含CO_2三相包裹体(C型),复合型构造和断层型构造主要以气液两相包裹体(W型)为主。不整合型气液两相包裹体(W型)均一温度集中在180~220℃之间,流体盐度范围为0.70%~6.50%Na Cleqv,密度0.78g/cm^3;复合型构造中W型包裹体均一温度为163~323℃,盐度0.30%~9.00%Na Cleqv,密度平均为0.73g/cm^3;断层型构造中W型包裹体均一温度集中于140~176℃,盐度为0.90%~9.30%Na Cleqv,密度平均为0.74g/cm^3。在均一温度-盐度图中未发现温度或盐度异常端元,指示三类构造中流体是一个连续演化的过程。结合激光拉曼光谱分析,CO_2、CO、CH_4等气体的减少指示了在由深到浅的演化过程中成矿流体发生了沸腾作用。不整合型构造中方解石δ^(13)CV-PDB值为-8.78‰~1.69‰,δ^(18)OSMOW值为8.01‰~23.08‰;复合型构造方解石中δ^(13)CV-PDB范围为-7.93‰~0.00‰,δ^(18)OSMOW为9.44‰~16.09‰;断层型构造方解石中δ^(13)CV-PDB范围为-1.06‰^-4.46‰,δ^(18)OSMOW=12.33‰~22.58‰。从数据投点结果来看,成矿流体中碳主要来源于深部和沉积地层,且从不整合型构造到断层型构造,深部贡献渐弱而地层贡献渐强。根据计算,不整合型构造流体中δD_(H_2O)值范围为-32.30‰^-97.40‰,δ^(18)OH_2O值为-1.28‰~12.40‰;复合型构造中δD_(H_2O)值为-75.00‰^-78.00‰,δ^(18)OH_2O值为11.30‰~12.30‰;断层型构造中δD_(H_2O)值为-60.01‰^-104.40‰,δ^(18)OH_2O值为8.35‰~13.90‰。δD_(H_2O)-δ^(18)OH_2O图中,数据点显示出三类构造中成矿流体的多源性,不整合型构造与岩浆水的关系相对密切,而断层型构造与盆地流体及变质水关系密切,水岩反应造成氧同位素值呈向右漂移趋势。不整合型构造中的S主要以幔源为主,复合型构造和断层型构造中分别受到沉积地层的影响,造成δ^(34)SV-CDT值有所偏大。因此,本文认为黔西南三类主要控矿构造中成矿流体均为中低温、低盐度、低密度的流体,且显示出多来源的特征,不整合型构造中以深部来源为主,断层型构造中以盆地卤水为主,而复合型构造中两类来源相当。另外,变质流体的加入暗示黔西南卡林型金的成矿与造山作用之间存在某种联系。

从流体包裹体特征探讨泥堡金矿成因

泥堡金矿床据脉石矿物和萤石的包裹体研究,包裹少而小,类型较为简单。综合包裹体各项参数和气液成分分析认为,成矿流体属NaCl-H_2O体系的富K^+的、弱酸性溶液,具有较高密度、较低盐度和中-低温度的特点。结合硫和氢氧同位素测定结果,成矿流体是燕山运动阶段的地表水沿断裂深循环,特别是在富K、富Au的凝灰岩中往复循环作用形成的。当各种条件具备时即可卸载成矿,成矿的最佳位置就是沿P_(2-3)β_1与P_2m^(dc)之间沉积间断面发生的层间滑动构造带。

黔西南水银洞金矿床流体包裹体研究

水银洞金矿床是黔西南典型的特大型卡林型金矿床之一。但其成矿流体来源尚有争议。通过对水银洞金矿床脉石英和方解石中流体包裹体的温度与压力、盐度与密度、包裹体成分和包裹体H和O同位素等方面的研究,指出水银洞卡林型金矿床成矿流体属中低温（96.7220℃）、低盐度（NaCl）0.635%9.861%,平均值为4.282%±2.260%、中等密度（0.7250.977 g/cm3,平均值为0.910±0.061 g/cm3）;脉石英阶段流体水化学类型属Cl--Na＋型或SO42--Cl-Na＋型,方解石阶段属SO42--Cl--Ca2＋型。成矿流体压力可能为高-超高压（160±40 MPa）;成矿流体主要是大气降水形成的地下热水,可能有部分岩浆热液的掺入。

黔西南泥堡金矿含矿岩系元素地球化学特征

为探讨泥堡金矿成矿物质来源，采用ICPMs对黔西南泥堡金矿典型含矿剖面上9个岩（矿）石样品进行微量和稀土元素测试，结果表明，含矿岩系中As、Sb、Hg、Ti、U等元素的富集与组合特征，显示热液作用是成矿过程中重要影响因素。峨眉山玄武岩组7个样品的微量元素含量变化相似，相关性较好（r为0．60～O．99，均值为0．83），矿石中Zr／Ni、La／Nb、Rb／Nb、Th／Nb、Th／LA．等不相容元素比值均落在峨眉山玄武岩变化范围之内；含矿岩系稀土含量较高，轻稀土明显富集且分馏明显，均与峨眉山玄武岩相似。综合该区地质背景和岩浆活动特征，可认为成矿物质来源与该地区广泛分布的峨眉山玄武岩关系密切，峨眉山玄武岩本身可能即是金矿的矿源层，而峨眉地幔热柱活动引发广泛的岩浆活动和裂谷作用，为富矿热液提供了热源和话移捅道．