西藏铁格隆南斑岩-高硫型浅成低温热液矿床主要矿石矿物特征

铁格隆南矿床位于班公湖—怒江成矿带西段多龙矿集区,是青藏高原发现的首例具有典型高硫型浅成低温热液矿化特征的超大型Cu(Au、Ag)矿床。本文通过大量的钻孔岩矿心地质编录,结合矿相学及电子探针分析,查明铁格隆南矿床的矿石矿物以原生硫化物为主,主要是斑铜矿、黄铜矿等Cu-Fe-S体系矿物、硫砷铜矿、砷黝铜矿等Cu-As-S体系矿物和以铜蓝和蓝辉铜矿为代表的Cu-S二元体系矿物,以及少量辉钼矿、方铅矿、闪锌矿,微量硫锡砷铜矿等。从矿石矿物组合特征可看出,铁格隆南矿床是高硫型矿化叠加于斑岩型矿化之上复合成矿的典型实例,矿床深部具有进一步扩大斑岩铜矿规模的巨大潜力,是下一步获取更多资源量的重点勘查方向。     

河南槐树坪金矿成矿物质共生组合规律及成矿期次

槐树坪金矿是豫西熊耳山地区新发现的大型含金石英脉型金矿床,成矿具有多期次性等特点。为确定槐树坪金矿成矿物质共生组合及成矿期次,通过地球化学数据多元统计分析,得出矿床中Au的富集与成矿指示元素Bi、Ag密切相关,其中与Au矿化阶段相一致的3个主要阶段为:As-Ag-Hg组合沉淀作用阶段、Pb-Zn多金属硫化物矿化阶段和Cu-W-Mo组合沉淀作用阶段。通过岩矿鉴定及野外调研确定的矿石矿物共生组合为(黄铁矿、赤铁矿)—白铁矿—闪锌矿—方铅矿—(黄铜矿、斑铜矿)—蓝辉铜矿;围岩蚀变组合为钾长石、石英、黑云母、高岭土、方解石、白云石、绢云母、绿泥石、绿帘石。矿床成矿期次可划分为蚀变期、热液期及表生期,热液期又包括乳白色石英脉阶段、烟灰色石英—多金属硫化物阶段、白色石英脉—黄铁矿细脉状矿化阶段和石英—碳酸盐化阶段。     

新疆哈密卡拉塔格块状硫化物矿床金银赋存状态研究

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。     

西藏谢通门县雄村斑岩型铜金矿床成因讨论——来自元素的空间分布特征的证据

西藏谢通门县雄村铜金矿的成矿与含眼球状石英斑晶的角闪石英闪长玢岩有关,并至少受3个玢岩岩枝控制。主成矿元素为Cu,伴生元素为Au、Ag、Zn、Pb,其他微量元素Mo、As、Ba、Bi、Cd、Co、Mn、Ni、Sb含量较高。元素在垂向上具有分带特征,即从矿体中心向外可依次划分为Cu、Au、Ag、As、Sb、(Bi)→Co、Ni→Mo→Mn→Ba→Pb、Zn、Cd、Bi、(Sb),上述元素的异常和组合是寻找和评价该类矿床的重要地球化学标志。矿床的形成经历了早期Cu—Au—Ag成矿和晚期Zn—Pb—Cu—Au—Ag成矿两个阶段:早期成矿阶段形成了Cu—Au—Ag主矿体,晚期叠加Zn—Pb—Cu—Au—Ag矿化。Cu与Au、Ag呈显著的正相关,Cu主要呈独立矿物黄铜矿产出,Au、Ag主要赋存于黄铜矿中。矿石的K/Na值为6.9、Rb/Sr值为0.8,显示出矿床矿富K、Sr和贫Na、Rb的成矿环境;而Au(平均品位0.6×10-6)0.4×10-6、Au(0.6×10-6)/Cu(0.4%)1和n(Cu)/n(Au)(为20678)40000以及Mo(19.7×10-6),说明该矿床富金而贫钼。矿床所处的大地构造位置,成矿与偏中性的斑岩有关,元素组合特征,异常元素在垂向上的分带特征,主成矿阶段的Cu—Au—Ag矿化和晚期叠加的Zn—Pb—Cu—Au—Ag矿化,富Cu、Au、Ag和贫Mo的成矿元素组合及富K、Sr和贫Na、Rb的成矿环境,均表明矿床具有产于岛弧或类似岛弧环境的斑岩型铜金矿床的特征且叠加斑岩成矿系统晚期呈脉状产出的浅成低温热液型Zn—Pb—Cu—Au—Ag矿化。     

申家窑金矿床地气测量异常特征

河南申家窑金矿床属典型的蚀变破碎带型金矿,矿区大部分被第四系沉积物所覆盖。文章通过偏光显微镜与扫描电子显微镜观察、电子探针微区分析、矿石成分化学分析等方法,认为申家窑金矿床的主要金矿物为自然金和银金矿,主要载体矿物为石英、黄铁矿和方铅矿。作者在总结矿床矿物学特征的基础上,实验研究了地气测量在该隐伏矿床上方黄土覆盖层的勘查效果。地气测量使用泡塑为捕集介质,利用surfer软件绘制元素空间分布图。元素空间分布图表明Au具有明显的地球化学异常,同时Cu、Pb、Zn等成矿伴生元素也存在异常。综合矿床矿物学的研究结果和元素空间分布特征,认为地气测量异常为矿致异常,地气异常结果能够指示深部隐伏矿体的产状。地气测量方法作为深穿透地球化学找矿方法之一,在研究区能够反映深部矿化,可以应用于黄土覆盖区寻找隐伏矿床。     

青海陆日格斑岩钼铜矿床地质特征及矿化赋存状态研究

陆日格斑岩钼铜矿床为近期于青海南部三江北段发现的斑岩钼铜矿床(点),在矿床野外地质调查基础上,利用室内显微观察、电子探针分析技术,研究了陆日格矿床矿石组构、成分及伴生元素Mo、Cu、Pb、Zn、Ag、Re等的赋存状态。研究表明,陆日格矿床以浸染状、细脉状构造为主,发育大量石英-多金属硫化物脉、石英-绢云母-多金属硫化物脉和石英-碳酸盐脉等。根据矿床矿化产出及矿石组构特征,进行了成矿阶段划分。陆日格矿床具备较全的斑岩热液-期后热液矿床的矿化元素组合,表明其良好的找矿潜力。     

新疆包古图地区金矿床矿化类型和与围岩关系研究

西准噶尔包古图地区是新疆北部重要的金铜产地,已发现中型金矿床1处,金矿点20余处,大型斑岩铜（金、钼）矿床1处。金矿床按矿化类型可分为石英脉-蚀变岩型、蚀变岩型、辉锑矿-石英脉型、富硫化物型以及产于斑岩型铜矿中的伴生金。石英脉-蚀变岩型是最主要的矿石类型,构成包古图地区最主要的经济矿体。蚀变岩型是包古图地区近年来发现的新矿化类型,矿体由就位于NW向断裂中的蚀变凝灰质细砂岩和蚀变凝灰岩组成。辉锑矿-石英脉型矿石中含自然砷、自然锑、Paakkonenite、方锑金矿和硫锑金银矿等罕见矿物,这些矿物都与金矿化直接相关。富硫化物型矿石中,自然铋和辉铋矿与金矿化紧密相关。这些金矿化在空间上与中酸性岩体和岩体附近的岩脉关系紧密,成因上金矿化与岩体密切相关,而与岩脉关系不大。成矿元素在岩体中含量最高,其次为岩体附近的火山碎屑沉积岩,同一区域内岩脉的成矿元素含量最低,离岩体越远,成矿元素含量越低。Au与As、Sb、Bi之间具有不同程度的正相关性,As、Sb、Bi异常是该区找金的重要化探标志。中酸性岩体是最重要的找矿标志,岩体附近的断裂系统是金矿最有利的就位空间。     

西藏班-怒带西段荣那铜（金）矿床流体包裹体特征及矿床成因

荣那铜(金)矿床是班公湖-怒江缝合带西段新发现的矿床,是多龙矿集区的重要组成矿床之一,已探明储量达大型规模,具有超大型矿床的成矿潜力。荣那铜(金)矿床矿石矿相学与岩相学研究显示其具有典型高硫化型浅成低温热液型矿床的矿物组合(明矾石、硫砷铜矿等)和矿化蚀变特征。通过资料收集与野外观察,本文将荣那铜(金)矿床的成矿过程划分为石英-黄铁矿阶段、石英-多金属硫化物阶段与碳酸盐阶段,其中石英-多金属硫化物阶段为主成矿阶段。为查明该矿床的成矿流体特征,进一步确定矿床成因类型,对取自深部矿石中的石英脉(均为主成矿阶段含黄铁矿、黄铜矿石英脉)开展了流体包裹体的岩相学观察、显微测温和激光拉曼光谱分析。结果表明,上述矿物中主要发育富液相、富气相和含子矿物三相包裹体;富液相包裹体的均一温度与盐度分别为:80~440℃和4.63%~11.95%NaCl eqv;富气相包裹体的均一温度和盐度分别为:320~440℃和5.55%~10.74%NaCl eqv;含子矿物三相包裹体的均一温度与盐度分别为200~400℃和29.4%~32.56%NaCl eqv;富液相与富气相包裹体的气体成分除少量N2外,气体成分均为H2O。综合分析认为,荣那矿床成矿流体发生了强烈的沸腾作用,流体沸腾作用是该矿床的重要成矿机制。可见,荣那矿床具有高硫型浅成低温热液矿床的矿物组合及蚀变特征,但主成矿阶段石英脉流体包裹体特征与典型斑岩型铜(金)矿床的流体包裹体特征相似。因此,推测荣那高硫型浅成低温热液铜金矿的深部存在斑岩型铜金矿化,该矿床应属浅成低温热液型-斑岩型铜金矿床。     

滇西北香格里拉东炉房铜钼矿床斑岩-热液成矿特征及找矿预测

东炉房铜钼矿床位于扬子西缘坳陷带,是滇西北香格里拉地区近年新勘查评价的中型矿床,该矿床具大型规模远景。本次通过地质详查及综合研究工作,基本查明了矿床特征,理清了成矿规律,提出了深部及外围找矿预测区。研究认为:铜钼铅锌金多金属矿化与石英闪长玢岩-石英二长斑岩复式侵入岩紧密相关,矿化蚀变具有斑岩型-矽卡岩型-中低温热液脉型成矿系统特征;矿区共圈定24条矿体,其中斑岩型钼(铜)矿体3条,矽卡岩型铜(钼)矿体14条,中低温热液脉型铅锌(金)矿体7条,具有由内到外,由高温至中低温为Mo(Cu)→Cu(Mo)、Fe→Pb、Zn、Au的斑岩成矿系统元素分带特征;结合矿区矿床地质、地球物理、土壤地球化学特征,矿区外围及深部圈定3处寻找斑岩型-矽卡岩型铜钼多金属矿找矿靶区。该矿床的评价对区内寻找同类型矿床具有重要指示意义。     

山西省繁峙义兴寨金矿新发现蚀变斑岩型金矿体的地质地球化学特征与成矿时代

山西义兴寨金矿是五台山—恒山金矿集区内最为典型的金矿床,也是山西省最大的金矿床。近年来,在矿区河湾斑岩体的深部探矿过程中发现了一个大型蚀变斑岩型金矿体(20 t Au)。然而,关于该蚀变斑岩金矿体的成因还缺乏相关的研究,因而制约了对该矿床深部及外围勘探工作的开展。本文通过对蚀变斑岩的锆石开展了LA–ICPMS原位的U–Pb同位素分析,结果表明蚀变石英斑岩的侵位时间为141±1 Ma,从而限定了蚀变斑岩金矿化的时间在131-141 Ma之间。对硫化物石英脉和蚀变斑岩型金矿石系统的元素地球化学分析结果表明两种类型矿石具有相似的特征,进而提出蚀变斑岩型金矿化与脉状金矿是同期成矿流体作用的结果。     

Typomorpic Characteristics of the Major Minerals in the Puziwan Gold Deposit, Datong, Shanxi, China

Utilizing theories of minerageny and prospecting mineralogy, the authors studied the attitude, morphotype and chemical composition of metallic minerals of pyrite, gold, chalcopyrite, galena and sphalerite, non-metallic minerals of quartz, carbonate, dolomite and rutile in the Puziwan gold deposit. The study shows the following results. （1） The mineral assemblage is complex and the species of sulfide are abundant with occurrences of sulfosalt minerals. （2） The composition in the minerals is complex and there rich micro elements, including As, Sb, Bi, Se, Te, Au, Ag, Cu, Pb, Zn, and Cr, Ni, V. The typomorphic characteristics of the association of the elements and their specific value suggest that gold mineralization is associated with shallow magmatic hydrothermal activity, the oreforming fluid is the mixture of abundant rising alkali magmatic water originating from the mantle or the lower crust and the descending acid atmospheric water. （3） Ankerite, Fe-rich sphalerite, granular Ti-rich rutile are widely distributed, which indicate great denudation depths, high mineralization temperature. The deposit is found in the middle and shallow positions of the porphyry series. The deep layers are not favorable for gold mineralization. （4） Copper minerals are rich in the ores and sulfides have high content of copper, suggesting possible porphyry-type Cu （Au） mineralization in deep positions and the surrounding areas.     

Petrology,Geochemistry, and Fluid Inclusion Microthermometry of Sphalerite from the Laloki and Federal Flag Strata‐Bound Massive Sulfide Deposits,Papua New Guinea: Implications for Gold Mineralization

The Laloki and Federal Flag deposits are two of the many (over 45) polymetallic massive sulfide deposits that occur in the Astrolabe Mineral Field, Papua New Guinea. New data of the mineralogical compositions, mineral textures, and fluid inclusion studies on sphalerite from Laloki and Federal Flag deposits were investigated to clarify physiochemical conditions of the mineralization at both deposits. The two deposits are located about 2 km apart and they are stratigraphically hosted by siliceous to carbonaceous claystone and rare gray chert of Paleocene–Eocene age. Massive sulfide ore and host rock samples were collected from each deposit for mineralogical, geochemical, and fluid inclusion studies. Mineralization at the Laloki deposit consists of early‐stage massive sulfide mineralization (sphalerite‐barite, chalcopyrite, and pyrite–marcasite) and late‐stage brecciation and remobilization of early‐stage massive sulfides that was accompanied by late‐stage sphalerite mineralization. Occurrence of native gold blebs in early‐stage massive pyrite–marcasite‐chalcopyrite ore with the association of pyrrhotite‐hematite and abundant planktonic foraminifera remnants was due to reduction of hydrothermal fluids by the reaction with organic‐rich sediments and seawater mixing. Precipitation of fine‐grained gold blebs in late‐stage Fe‐rich sphalerite resulted from low temperature and higher salinity ore fluids in sulfur reducing conditions. In contrast, the massive sulfide ores from the Federal Flag deposit contain Fe‐rich sphalerite and subordinate sulfarsenides. Native gold blebs occur as inclusions in Fe‐rich sphalerite, along sphalerite grain boundaries, and in the siliceous‐hematitic matrix. Such occurrences of native gold suggest that gold was initially precipitated from high‐temperature, moderate to highly reduced, low‐sulfur ore fluids. Concentrations of Au and Ag from both Laloki and Federal Flag deposits were within the range (<10 ppm Au and <100 ppm Ag) of massive sulfides at a mid‐ocean ridge setting rather than typical arc‐type massive sulfides. The complex relationship between FeS contents in sphalerite and gold grades of both deposits is probably due to the initial deposition of gold on the seafloor that may have been controlled by factors such as Au complexes, pH, and fO₂ in combination with temperature and sulfur fugacity.     

内蒙古北山东段珠斯楞铜金矿床的基本特征

珠斯楞铜金矿位于晚古生代板块缝合部位,产于华力西晚期花岗斑岩和闪长玢岩岩脉中,通过矿区基础地质、物化探等的研究,确定有2个矿体、1个矿化体。主要矿石矿物为黄铜矿、黄铁矿、磁黄铁矿、闪锌矿、方铅矿、毒砂等,呈浸染状、细脉状分布。化探垂直分带性表明,Au和前缘晕元素在浅部富集,Cu在中深部富集。矿床为斑岩型,主要发育青磐岩化带,其可作为区域上大型斑岩铜矿的找矿标志。     

河北平泉碾子沟-洛金洼金矿床蚀变围岩微量元素研究

平泉县碾子沟－洛金洼金矿床赋存于太古界上迁西群变质岩系和石英二长斑岩、花岗石长斑岩及闪长粉财等岩浆侵入体中,本文研究了该矿床蚀变围岩的微量元素地球化学特征,探讨了元素的迁移富集与蚀变的关系,并讨论了蚀变与矿化的联系。     

Zircon U–Pb,Molybdenite Re–Os and K‐feldspar 40Ar/39Ar Dating of the Bolong Porphyry Cu–Au Deposit,Tibet, China

The Bolong porphyry Cu–Au deposit is a newly discovered deposit in the central Tibetan Plateau, and is ranked as the second largest copper deposit discovered to date in the Bangong‐Nujiang metallogenic belt in China. Three granodiorite porphyry phases occur within the Bolong porphyry Cu–Au deposit. Phyllic alteration is widespread on the surface of the deposit, and potassic alteration occurs at depth, associated with granodiorite porphyries. The copper and gold mineralization is clearly related to the potassic and phyllic alteration. Multiple chronometers were applied to constrain the timing of magmatic–hydrothermal activity at the Bolong deposit. Zircon U–Pb geochronology reveals that the granodiorite porphyry phases were emplaced at ca. 120 Ma. Re–Os data of four molybdenite samples from quartz–molybednite veinlets yielded an isochron age of 119.4 ± 1.3 Ma. The plateau age of hydrothermal K‐feldspar from the potassic alteration zone, analyzed by ⁴⁰Ar/³⁹Ar dating, is 118.3 ± 0.6 Ma, with a similar reverse isochron age of 118.5 ± 0.7 Ma. Therefore, the magmatic–hydrothermal activity occurred at ca. 120–118 Ma, which is similar in age to the neighboring Duobuza porphyry copper deposit. The period of 120–118 Ma is therefore important for the development of porphyry Cu–Au mineralization in the central Tibetan Plateau, and these porphyry deposits were formed during the final stages of the northward subduction of the Neo‐Tethys Ocean.     

Genetic Environment of the Intrusion-related Yuryang Au-Te Deposit in the Cheonan Metallogenic Province, Korea

Abstract. The Yuryang gold deposit, comprising a Te‐bearing Au‐Ag vein mineralization, is located in the Cheonan area of the Republic of Korea. The deposit is hosted in Precambrian gneiss and closely related to pegmatite. The mineralized veins display massive quartz textures, with weak alteration adjacent to the veins. The ore mineralization is simple, with a low Ag/Au ratio of 1.5:1, due to the paucity of Ag‐phases. Ore mineralization took place in two different mineral assemblages with paragenetic time; early Fe‐sulfide mineralization and late Fe‐sulfide and Au‐Te mineralization. The early Fe‐sulfide mineralization (pyrite + sphalerite) occurred typically along the vein margins, and the subsequent Au‐Te mineralization is characterized by fracture fillings of galena, sphalerite, pyrrhotite, Te‐bearing minerals (petzite, altaite, hessite and Bi‐Te mineral) and electrum. Fluid inclusions characteristically contain CO₂ and can be classified into four types (Ia, Ib, IIa and IIb) according to the phase behavior. The pressure corrected temperatures (≥500d?C) indicate that the deposit was formed at a distinctively high temperature from fluids with moderate to low salinity (<12 wt% equiv. NaCl) and CH₄ (1?22 mole %). The sphalerite geo‐barometry yield an estimated pressure about 3.5 ?2.1 kbar. The dominant ore‐deposition mechanisms were CO₂ effervescence and concomitant H₂S volatilization, which triggered sulfidation and gold mineralization. The measured and calculated isotopic compositions of fluids (δ¹⁸O_H2^O = 10.3 to 12.4 %o; δD_H2^O = ‐52 to ‐77 %o) may indicate that the gold deposition originated from S‐type magmatic waters. The physicochemical conditions observed in the Yuryang gold deposit indicate that the Jurassic gold deposits in the Cheonan area, including the Yuryang gold deposit are compatible with deposition of the intrusion‐related Au‐Te veins from deeply sourced fluids generated by the late Jurassic Daebo magmatism.     

Gold–Silver mineralization in porphyry–epithermal systems of the Baimka trend,western Chukchi Peninsula,Russia

Mineralogical, fluid inclusion, and geochemical studies of precious metal mineralization within the Baimka trend in the western Chukchi Peninsula have been preformed. Porphyry copper–molybdenum–gold deposits and prospects of the Baimka trend are spatially related to monzonitic rocks of the Early Cretaceous Egdygkych Complex. Four types of precious metal-bearing assemblages have been identified: (1) chalcopyrite + bornite + quartz with high-fineness native gold enclosed in bornite, (2) low-Mn dolomite + quartz + sulfide (chalcopyrite, sphalerite, galena, tennantite-tetrahedrite) ± tourmaline with low-fineness native gold and hessite, (3) rhodochrosite + high-Mn dolomite + quartz + sulfide (chalcopyrite, sphalerite, galena, tennantite- tetrahedrite) with low-fineness native gold, electrum, acanthite, Ag and Au–Ag tellurides, and Ag sulfosalts, and (4) calcite + quartz + sulfide (chalcopyrite, sphalerite, galena) with low-fineness native gold, Ag sulfides and selenides, and Ag-bearing sulfosalts. Study of fluid inclusions from quartz, sphalerite, and fluorite have revealed that hydrothermal ores within the Baimka trend precipitated from fluids with strongly variable salinity at temperatures and pressures ranging from 594 to 104°C and from 1200 to 170 bar, respectively. An indicator of vertical AgPbZn/CuBiMo geochemical zoning is proposed. The value range of this indicator makes it possible to estimate the erosion level of the porphyry–epithermal system. The erosion level of the Baimka deposits and prospects deepens in the following order: Vesenny deposit → Pryamoi prospect → Nakhodka prospect → Peschanka deposit → III Vesenny prospect.     

Mineralization,Geochemistry and Zircon U‐Pb Ages of the Paodaoling Porphyry Gold Deposit in the Guichi Region,Lower Yangtze Metallogenic Belt,Eastern China

The newly discovered Paodaoling porphyry Au deposit from the Guichi region, Lower Yangtze River Metallogenic Belt(LYRB), contains 35 tons of Au at an average grade of ~1.7 g/t. It is a porphyry ‘Au-only' deposit, as revealed by current exploration in the depths, mostly above-400 m, which is quite uncommon among coeval porphyry mineralization along the LYRB. Additionally, there are also Cu-Au bearing porphyries and barren alkaline granitoids in the Paodaoling district. Zircon LA-ICP-MS U-Pb dating of the Cu-Au-bearing porphyries yield an age of 141–140 Ma, falling within the main magmatic stage of the LYRB, whereas the barren granites give an age of 125–120 Ma, coeval with the regional Atype granites. The Cu-Au-bearing porphyries are LILE-, LREE-enriched and HFSE-depleted, typical of arc magmatic affinities. The barren granites are HFSE-enriched, with lower LREE/HREE ratios and pronounced negative Eu anomalies. The Cu-Au-bearing porphyries in the Paodaoling district have high oxygen fugacities and high water content. Pyrite sulfur isotopes of the Paodaoling gold deposit indicate a magmatic-sedimentary mixed source for the ore-forming fluids. Based on the alteration and poly-metal zonation of the deepest exploration drill hole from the Paodaoling Au deposit, we propose that Cu ore bodies could lie at depth beneath the current Au ore bodies. The magmatism and associated Cu-Au mineralization of the Paodaoling district are likely to have formed in a subduction setting, during slab rollback of the paleo-Pacific plate.     

东川播卡Au矿的成矿时代及成矿背景:来自硫化物Re⁃Os同位素和炭质板岩微量元素证据

播卡金矿床位于扬子西缘“康滇地轴”中南段,其与东川因民-汤丹地区元古代“东川式”铜矿成矿作用具有显著差别而备受人们关注.该矿床富矿围岩为东川群黑色碳酸盐岩-碎屑岩地层,Au产出于石英-白云石硫化物脉中,具有明显辉绿岩岩浆萃取型Au矿蚀变特征,有别于韧性剪切带型Au矿.选取新山-马家沟矿段含金黄铁矿和围岩炭质板岩分别进行Re-Os同位素和微量元素研究.结果显示,黄铁矿Re-Os等时线年龄为779±14 Ma（MSWD=11.1）,说明播卡金矿床成矿时代为新元古代.黄铁矿的Os初始比值为3.03±0.42,说明播卡金矿床金属成矿物质主要来源于地壳（围岩地层）而非辉绿岩岩浆,黄铁矿和炭质板岩微量中Au（平均为402.5.00×10-9和44.98×10-9）和Cu（平均为1 733.00×10-6和46.07×10-6）的含量远远大于克拉克值（约4×10-9和60×10-6）,进一步证实成矿物质来源于围岩地层炭质板岩本身.东川播卡金矿成岩时代与该区新元古代岩浆岩相关的热液改造事件基本一致,表明成矿背景为该区新元古代岩浆/热液改造的成矿响应,该时期岩浆岩与富矿围岩热接触,同时萃取围岩地层中沉积预富聚的有利成矿元素,在良好的成矿空间内富集形成东川播卡金矿床.      

四川九寨沟葫芦沟金矿地质特征及其对成矿作用的指示

九寨沟葫芦沟金矿是川陕甘金成矿三角区典型的微细浸染型金矿床之一,矿体主要受断裂控制,赋存于中泥盆统三河口组三段上亚段灰岩(D_2s~(3-2))和下亚段板岩(D_2s~(3-1))中,容矿岩石以花岗斑岩为主,板岩次之,两者混合岩类少见。葫芦沟金矿床相关地球化学特征显示,构造-岩浆活动对成矿起了重要的控制作用,有深部流体参与成矿的迹象。富矿岩石板岩与花岗斑岩的主量、微量元素地球化学研究表明,矿石中Au、As、Ag、Hg、Cu、Fe、Zn、S、Sb等成矿元素极为富集,其形成的Au-(Fe+S)-Ag-Sb和As-Hg 2种元素组合,与矿床内黄铁矿、辉锑矿、毒砂等矿化特征极为吻合,反映它们与金成矿具紧密联系。研究表明:区内岩浆活动时代与金矿成矿时代相当,岩浆活动不仅为区内成矿提供热源动力,而且还提供了一部分颇为主要的成矿物质(岩浆水源和矿源);之后,浅成—超浅成花岗质酸性岩浆活化并萃取了矿源层中泥盆统三河口组(D_2s)中的Au,形成了含Au较高的成矿热液,在构造改造和多元含矿地热流体作用下,又以其能干性和化学活泼性等特点,为金矿的形成提供了良好的赋矿空间,直至演变形成葫芦沟金矿床。