Geochemical Tracing of Ore-forming Material Sources of Carlin-type Gold Deposits in the Yunnan-Guizhou-Guangxi Triangle Area --A Case Study of the Application of the Combined Silicon Isotopes Geochemistry and Siliceous Cathodoluminescence Analysis

Abstract This paper deals with characteristics of silicon isotope compositions and siliceous cathodoluminescence of host rocks, ores and hydrothermal silicified quartz of the Carlin-type ore deposits in the Yunnan-Guizhou-Guangxi triangle area. The study shows that primary silicified quartz is nonluminescent but quartz in host rocks and secondary silicified quartz are luminescent by the action of cathode rays. Correspondingly, silicon isotope compositions of host rocks, ores and hydro6thermal quartz veins are clearly distinguished. In strata from the Middle Triassic to the “Dachang” host bed, δ30Si of the host rocks ranges from 0.0% ?0.3%, while that of primary ore-forming silicified fluids from ?0.1% to ?0.4%; in the Upper Permian and Lower Carboniferous strata and Indosinian diabase host beds, δ30Si of the host rocks is from ?0.1% to ?0.2% and that of the primary silicified quartz veins from 0.3 % ?0.5 %. This pattern demonstrates the following geochemical mineralization process, primary ore-forming siliceous fluids migrated upwards quickly along the main passages of deep-seated faults from mantle to crust and entered secondary faults where gold deposits were eventually formed as a result of permeation and replacement of the siliceous ore-forming fluids into different ore-bearing strata. This gives important evidence for the fact that ore-forming fluids of this type of gold deposits were mainly derived from upper mantle differentiation and shows good prospects for deep gold deposits and geochemical background for large and superlarge 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.

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.

Geochemical characteristics and metallogenesis of Carlin-type gold deposits in the Sandu-Danzhai metallogenic zone,Guizhou Province,China

Geochemical studies of the Paiting and Miaolong Carlin-type gold deposits in the Sandu-Danzhai metal-logenic zone,Guizhou Province,have shown that the mineralized-altered rocks show LREE-enrichment patterns,generally displaying negative Eu anomalies(δEu=0.51?0.97) and unobvious negative Ce anomalies(δCe=0.86?0.99).Calcite and fluorite in relation with metallogenesis show MREE-enrichment patterns,generally displaying rather weak negative Eu anomalies(δEu=0.74?0.93) and weak negative Ce(δCe=0.70?0.98) anomalies.The δ13CPDB values of carbon in calcite are-1.61‰?-5.82‰,the δ18OSMOW values of oxygen are 13.97‰?19.24‰,and the δ34SCDT values of sulfur in stibnite are 17.72‰?21.68‰.In regard to δD and δ18O,ore-forming fluids pos-sess the characteristics of metamorphic water.The process of metallogenesis of the Carlin-type gold deposits is con-trolled by the Yanshanian tectonic activities.The Yanshanian movement promoted the migration and mobilization of metamorphic fluids in the extensively developed medium-to high-grade metamorphic rocks in this region,carrying primarily enriched gold and associated elements such as Hg,As,and Sb in the Sinian metamorphosed black shales and Lower Cambrian black shales.The ore-forming fluids found their way into a suitable metallogenic environment along the fault zone,followed by gold precipitation to form gold deposits.

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.

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.

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.

In-situ sulfur isotope and trace element of pyrite constraints on the formation and evolution of the Nibao Carlin-type gold deposit in SW China

The fault-controlled Nibao Carlin-type gold deposit,together with the strata-bound Shuiyindong deposit,comprise a significant amount of the disseminated gold deposits in southwestern Guizhou Province,China.Five main types and two sub-types of pyrite at the Nibao deposit(Py1a/Py1b,Py2,Py3,Py4,Py5)were distinguished based on detailed mineralogical work.Py1,Py2and Py3 are Au-poor,whereas Py4 and Py5 are Au-rich,corresponding to a sedimentary and hydrothermal origin,respectively.Through systematic in situ analyses of NanoSIMS sulfur isotopes,the framboid pyrite Py1a with negative δ^34S values(-53.3 to-14.9%)from the Nibao deposit were found to originate from bacterial sulfate reduction(BSR)processes in an open and sulfate-sufficient condition while the superheavy pyrite Py1b(73.7–114.8%)is probably due to the potential influence of closed-system Rayleigh fractionation or the lack of preservation of deepsea sediments.Data of Py2 and Py3 plot within the area of S isotope compositions from biogenic and abiogenic sulfate reduction.In view of few coeval magmatic rocks in the mining district,the near zero δ^34S values of the Au-rich pyrites(Py4 and Py5)may discount the potential involvement of magmatic but metamorphic or sedimentary origin.LA-ICP-MS and TEM work show that Au in ore-related pyrite is present as both nanoparticles and structurally bound.LA-ICP-MS analyses show that the Au-rich pyrite also contains higher As,Cu,Sb,Tl and S than other types of pyrite,which inferred a distal manifestation of deep hydrothermal mineralization systems.

酸性体系下硫化矿浮选因素的交互影响研究

在酸性体系中,碱性脉石矿物溶解受磨矿细度、酸用量的影响明显,矿物溶解改变了体系pH值,使可溶性离子增加,影响了硫化矿物的浮选。为探究酸性体系下卡林型金矿浮选硫化矿过程中的影响因素及其交互作用,在单因素试验的基础上进行了响应曲面优化试验,并分析了磨矿细度、H_(2)SO_(4)用量、丁基黄药用量三因素的交互作用对浮选的影响。研究结果表明:最优的浮选指标的药剂制度为磨矿细度-0.075mm粒级占比90%,H_(2)SO_(4)用量为800g/t,水玻璃用量为400g/t,CuSO_(4)用量为300g/t,丁基黄药用量为200g/t,松醇油用量为75g/t。单因素试验可获得硫回收率为75.28%,品位为10.46%,金品位为6.73%,回收率为58.19%的选矿指标。探究的三种因素对硫精矿回收率的影响大小为:磨矿细度>丁基黄药用量>H_(2)SO_(4)用量;对硫精矿品位的影响大小为:丁基黄药用量>磨矿细度>H_(2)SO_(4)用量。磨矿细度对浮选指标的影响较大,为显著影响因素;磨矿细度与捕收剂用量的交互作用对浮选指标的影响显著。响应曲面优化预测结果与实际结果基本一致,可见该模型所得预测结果可靠,为该矿的酸性废水再用于浮选过程提供了技术参考。

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。

宽频大地电磁法寻找“界面型”隐伏金矿床:以黔西南戈塘地区深部找矿为例

【研究目的】随着黔西南戈塘地区豹子洞等浅表红土型金矿开采资源的逐渐枯竭,寻找深部接替资源的任务已经十分迫切。从区域成矿规律、物化探异常、典型矿床特征等成矿预测要素出发,戈塘地区海马谷控矿断层北西侧下盘深部二叠纪茅口组、龙潭组之间的碳酸盐岩与碎屑岩Si/Ca界面上具有较大地寻找“层控型”金矿床的找矿前景。【研究方法】引入了宽频大地电磁法查明了海马谷断裂西南段0~2 km深部的电性结构特征,从电阻率反演断面图中的低阻带异常特征推断海马谷断裂具有多期活动特征,早期(中二叠世前)表现为张性正断层性质,倾向北东;后期(早三叠世后)表现为压性逆断层性质,倾向南东,倾角70°~80°。从电阻率反演断面图中的高低阻等值线梯度带推断茅口组与龙潭组存在古岩溶地貌特征,在深部存在相对“隆起”和“凹陷”变化。【研究结果】综合本区典型矿床的成矿模式、找矿标志和区域物化探异常特征,认为处于“空白”状态的海马谷断裂北西盘深部值得部署探索性钻探工程,揭示其深部的资源潜力。【结论】浅深结合的勘查技术方法(组合元素化探异常+宽频大地电磁探测技术)能够为靶区优选提供证据支撑,邻近海马谷断裂的P_(2)/P_(3)、Si/Ca界面相对“隆起”位置是开展钻探验证工作的有利位置。

贵州卡林型金矿成矿系列及找矿方向

卡林型金矿为华南低温成矿域重要的矿产。贵州为南盘江—右江卡林型金矿聚集区最重要的组成部分,是我国重要的金资源产地之一,其大地构造位处江南复合造山带西段。本文采用成矿系列理论研究方法,深入研究典型矿床特征,系统总结了卡林型金矿时空规律。建立了贵州卡林型金矿矿床式10个、成矿亚系列5个、成矿系列3个,建立了基于构造蚀变体的南盘江—右江卡林型金矿多层次构造滑脱成矿系统。建立了贵州卡林型金矿综合找矿预测模型,据此开展了区域成矿预测,圈定找矿预测区24个,明确贵州卡林型金矿找矿方向。

桂西北金牙金矿床成矿流体性质与成矿机制

金牙金矿床是滇黔桂“金三角”地区典型的卡林型金矿床之一,矿体明显受断裂构造控制,主要呈似层状、豆荚状、透镜状产于中三叠统百逢组的泥质粉砂岩和粉砂质泥岩中。为探讨成矿流体性质与成矿机制,对研究区流体包裹体进行岩相学研究、显微测温以及激光拉曼成分分析。结果表明,该矿床成矿热液过程可以划分为3个阶段:石英-黄铁矿阶段(Ⅰ)、黄铁矿-毒砂阶段(Ⅱ)和石英-碳酸盐阶段(Ⅲ),其中Ⅱ阶段为主成矿阶段。流体包裹体岩相学研究显示:成矿期流体包裹体主要为气液两相包裹体,液相成分主要为H_(2)O;气体成分主要为CO_(2)、N_(2)、SO_(2)及CH_(4),从早阶段到晚阶段平均均一温度分别为189、157、137℃;平均w(NaCleq)依次为6.01%、4.18%、2.01%,初始成矿流体具有中低温、低盐度、低密度的特征,含CO_(2)、N_(2)和SO_(2)等挥发分的H_(2)O-NaCl体系流体。成矿早期中高温、还原性的盆地热卤水与周围地层发生了强烈的水岩反应,活化迁移其中的Au和S;主成矿期成矿流体在异常高压与断裂活动驱使下不断向上流动,并与白云石中的Fe等元素反应生成黄铁矿和毒砂,同时与大气降水相混合,温度和盐度快速降低,Au等成矿元素大量卸载;成矿晚期,流体中的成矿元素消耗殆尽,大气降水持续混入,温度和盐度明显下降,成矿作用结束。成矿机制为流体混合与水岩反应。

贵州贞丰县卡务地区金矿地质特征与找矿预测

为进一步识别卡务地区金矿新的找矿标志,开展了找矿预测工作。首先,通过对卡务地区进行野外地质调查,开展研究区地质背景和典型矿床地质特征的深入研究,新识别出区内岩石能干性差异大的岩层界面之间存在构造蚀变体(SBT),且金矿体主要赋存于SBT和背斜近轴部的高角度逆断层及层间破碎带中;然后,通过系统总结卡务地区金矿成矿要素,发现其成矿地质特征与新寨金矿基本一致,认为卡务地区金矿与区域卡林型金矿属于同一成矿系统;最后,基于黔西南金矿多层次构造滑脱成矿系统和找矿预测模型,开展了找矿预测,圈定找矿预测区3个,预测卡务地区潜在金资源量为50 t。

黔西南水银洞金矿床载金黄铁矿标型特征

水银洞金矿床为近年来在黔西南地区所发现的又一重要卡林型金矿床,黄铁矿为矿床的重要载金矿物。通过系统采样和光片鉴定,区分出具有不同标型特征的四种黄铁矿,即草莓状黄铁矿、生物碎屑状黄铁矿、粗粒自形黄铁矿和细粒自形黄铁矿。四种黄铁矿的含金性存在着显著差异,以生物碎屑状黄铁矿和细粒自形黄铁矿的含金性为优,而草莓状黄铁矿和粗粒自形黄铁矿的含金性较差。各种黄铁矿的主成分及微量组分也显示出一定的变化规律。本文初步分析了四种黄铁矿的形成条件及金的差异性富集机理。

滇黔桂“金三角”卡林型金矿含砷黄铁矿和毒砂的矿物学研究

滇黔桂"金三角"卡林型金矿不同矿床亚类的典型矿床硫化物显微镜下观察和电子探针显微分析(EP-MA)表明,含砷黄铁矿和毒砂是主要的载金矿物。载金黄铁矿主要以环带状含砷黄铁矿、细粒自形含砷黄铁矿为主。环带状黄铁矿核部贫As、Au,富S、Fe,而环带则相反,且Au与As具有正相关关系。核部贫As的黄铁矿成因复杂,既有成矿早阶段的热液成因,又有受热液蚀变交代的沉积成因。核部和环带是不同成矿阶段的产物。元素的相关关系表明环带中As主要取代S的位置。多环带的特点还表明,热液活动是脉动式的,含矿流体化学成分也是在不断变化的。不论是核部还是环带,均有Au含量高出检出限的测点,但环带是主要的载金部位。细粒含砷黄铁矿为均质结构,具有高As、Au,低S、Fe的特点,类似环带状黄铁矿的环带特征,推测与富砷环带是同期热液活动形成的。毒砂-黄铁矿集合体中的黄铁矿分为环带结构和均质结构2种,并分别具有上述2种黄铁矿的特点。载金毒砂可以细分为3个世代,具均质结构,热液成因。各世代毒砂Au含量均有高出检出限的测点,同时Au、As、S、Fe的含量变化不大,均为主成矿阶段的产物。载金矿物的结晶顺序为:贫砷的沉积成因或早阶段热液成因黄铁矿→富砷的细粒黄铁矿颗粒和富砷黄铁矿环带→毒砂。黄铁矿和毒砂中的Au在EPMA微束的分辨率下均显示分布是不均匀的,环带状黄铁矿中Au元素图出现的均匀结构可能为一种假象,说明金主要以"不可见"的纳米级超显微包裹金形式存在,少量为"不可见"晶格金和微米级显微"可见金"。整个滇黔桂"金三角"卡林型金矿不同亚类矿床之间的载金矿物特征和金的赋存状态没有本质区别,说明它们具有相同的成矿作用过程和成矿背景。

贵州贞丰烂泥沟卡林型金矿床含砷黄铁矿Re-Os同位素测年及地质意义

贵州贞丰烂泥沟金矿(现称锦丰金矿)是滇黔桂“金三角”已知最大的卡林型金矿床,矿体赋存于断层破碎带内,最主要的载金矿物是具环带结构的含砷黄铁矿。本文运用Re-Os同位素法对该矿床的9个含砷黄铁矿样品进行了两次测试,成功获得10-9～10-12级Re-Os同位素数据:Re0.1257～1.233ng/g,Os6.75～33.50pg/g,等时线年龄为193±13Ma,反映其成矿时代为早侏罗世。等时线的初始n(187Os)/n(188Os)值为1.127±0.043,指示成矿物质来源于地壳而不是地幔。结合其他资料,初步建立其成矿模式为:盆地流体不断地从沉积物中萃取出包括金在内的成矿组分,形成含矿流体。印支期挤压造山期间,含矿流体沿不整合接触面和同生断层向上运动,造山后的伸展含矿流体进入减压扩容空间沉淀形成超大型金矿床。成矿作用发生在从印支期挤压造山向燕山期伸展转变的构造转换期。该模式与本文得到的成矿年龄和初始比值相吻合。

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。

贵州簸箕田金矿单矿物稀土元素和同位素地球化学特征

簸箕田金矿位于灰家堡背斜东头倾覆端,是灰家堡卡林型金矿田重要的组成部分。金矿床具有低温成矿特征,出现硅化、白云石化、黄铁矿化等围岩蚀变和特征的Au-As-Hg元素组合。成矿期方解石具有MREE富集和正Eu异常特点,显示矿热液是一种MREE相对富集以及具有正Eu异常的还原性流体,来源于深部或至少经历过对富含斜长石源区的水-岩反应。成矿期方解石的δ^(13)C为-6‰～-0.1‰,成矿期后方解石的δ^(13)C为0.2‰～3.2‰,显示成矿期碳来源于地幔碳和地层碳的混合,成矿期后碳主要来自于地层。矿床硫同位素变化于0.73‰～5.86‰,组成均一化较高,具有接近幔源硫的特征,反映了成矿物质可能主要来自于深源岩浆。总之我们推测成矿物质主要来源于深部,在燕山期区域构造作用下沿深大断裂上涌,当成矿流体运移至背斜核部时,由于成矿条件的聚变,金被快速富集沉淀,形成簸箕田金矿床。