安徽新桥块状硫化物矿床地球化学特征

新桥块状硫化物矿床发育双层结构,地球化学特征也呈现出明显的“二元性”和垂向变化。下部网脉状蚀变矿化岩石SiO₂、Al₂O₃、K₂O和Na₂O等含量较高,上部层状块状矿石和含矿岩石Fe₂O₃、FeO、CaO、MgO及SiO₂等明显富集。稀土含量相对较低,上部层状块状矿层平均值为10.73×10^-6,下部通道相蚀变矿化岩石平均值为126.1×10^-6。重晶石δ³⁴S值为+16.2‰,硬石膏δ³⁴S值为+11.2‰,黄铁矿δ³⁴S值为+1.5‰～+4.7‰。含矿硅质岩δ¹⁸O为+12.0‰～+13.9‰,下部通道相含黄铁矿石英脉δ¹⁸O值为+13.3‰～+18.6‰。自下部网脉状矿化到上部层状块状矿层,从粗晶细晶到变胶状胶状黄铁矿,δ³⁴S、δ¹⁸O和δ30Si值逐渐降低,²⁰⁶Pb/²⁰⁴Pb、²⁰⁷Pb/²⁰⁴Pb和²⁰⁸Pb/²⁰⁴Pb平均值逐渐增高。     

北阿尔金地区大平沟金矿H-O-S-Pb同位素地球化学特征对金矿成因的启示

大平沟金矿床是北阿尔金地区典型金矿床之一,矿化类型以钾长石-石英脉型和蚀变岩型为主,矿体赋存于近东西向韧性剪切带中,围岩为太古宇米兰岩群钾长变粒岩。矿石矿物以黄铁矿为主,另有少量褐铁矿和自然金等。大平沟金矿床含金石英脉中石英的δ¹⁸O_VSMOW值为12.4‰~15.3‰,估算的流体δ¹⁸O_H2O值介于7.4‰~10.3‰之间,石英中流体包裹体的氢同位素为-97‰~-66‰,表明成矿流体以变质流体来源为主;含金石英脉中硫化物的δ³⁴S_VCDT值为6.9‰~8.3‰,主要为壳源硫,与典型造山型金矿的硫值一致;硫化物的²⁰⁶Pb/²⁰⁴Pb值为18.310 1~19.373 9,²⁰⁷Pb/²⁰⁴Pb值为15.587 2~15.654 1,而²⁰⁸Pb/²⁰⁴Pb值为38.119 1~39.143 9,反映硫化物的铅来源具有造山带铅特征。综合分析认为,大平沟金矿床属于造山型金矿,其形成受近东西向次级断裂和韧性剪切带控制,成矿流体以变质流体为主,成矿物质来源于太古宙深变质岩。     

内蒙古扎拉格阿木铜多金属矿床H、O、S、Pb同位素组成及矿床成因

内蒙古扎拉格阿木铜多金属矿床是近年来在大兴安岭中南段西坡发现的中大型铜多金属矿床。矿床产出于二叠纪花岗闪长岩体与中二叠统哲斯组外接触带，矿体受北东向断裂构造控制，矿石矿物主要为黄铁矿、黄铜矿、毒砂、闪锌矿、方铅矿和银黝铜矿等。本文通过H、O、S和Pb同位素组成的研究，试图查明该矿床成矿流体演化特征与成矿物质来源，进一步探讨矿床成因。结果显示，金属硫化物的δ³⁴S值为-4.5‰～0.2‰,金属硫化物²⁰⁶Pb/²⁰⁴Pb、²⁰⁷Pb/²⁰⁴Pb、²⁰⁸Pb/²⁰⁴Pb分别为18.663～18.040、15.655～15.528、37.992～38.709;成矿流体的δ¹⁸O_水值为-8.5‰～-7.5‰,δD_V-SMOW值为-115.5‰～-98.1‰。结合大兴安岭中南段构造-岩浆演化背景认为，扎拉格阿木铜多金属矿床成矿流体主要来源于地幔，上升过程中有大气降水的加入；成矿物...     

河北大白阳金矿床黄铁矿微量元素及S-Pb同位素地球化学特征

大白阳金矿床位于华北克拉通北缘张家口地区,为一中型金矿床。矿床产于太古宇桑干群化家营组和涧沟河组变质地层中,受区内断裂和褶皱控制,金矿脉总体走向北北西。矿石类型为含金石英脉型和蚀变岩型,矿石矿物主要为磁铁矿、赤铁矿、黄铁矿、方铅矿、闪锌矿、黄铜矿、斑铜矿、自然金、银金矿及少量碲化物。矿床的成矿期可划分为4个成矿阶段,分别为石英-钾长石阶段、石英-黄铁矿阶段、石英-多硫化物阶段和石英-碳酸盐-硫酸盐阶段。矿床硫化物的δ³⁴S_V-CDT为-16.2‰~-10.5‰,为高氧逸度成矿流体所致;Pb同位素组成²⁰⁶Pb/²⁰⁴Pb=16.762~17.293、²⁰⁷Pb/²⁰⁴Pb=15.350~15.463、²⁰⁸Pb/²⁰⁴Pb=36.777~37.328,与区内岩浆岩Pb同位素组成一致。黄铁矿微量元素低,主要赋存于黄铁矿晶格中。黄铁矿中低的Co、Ni质量分数表明,黄铁矿从岩浆流体中沉淀。桑干群斜长角闪岩在蚀变过程中为流体提供部分成矿物质,为矿源层之一。大白阳金矿床属于与岩浆有关的热液矿床,其形成经历了泥盆纪金的初始矿化和侏罗纪-白垩纪的叠加成矿,由此也导致了张宣地区大量金矿床的出现。     

西北天山莱历斯高尔岩体年代学、地球化学及其成因

西北天山莱历斯高尔岩体主要由花岗闪长斑岩和二长花岗斑岩组成,二者具有相似的地球化学特征,可能为同源岩浆分异演化的产物。锆石SHRIMP U-Pb年龄显示岩体形成于晚泥盆世(374±4 Ma)。莱历斯高尔岩体具有较高的SiO₂(67.75% ～74.71%)含量和K₂O/Na₂O(1.24～2.20)比值,属于高钾钙碱性系列。稀土元素配分曲线为轻稀土富集型(La/Yb)_N(5.25～10.57),具有中等-弱的Eu负异常δEu(0.55～0.92)。微量元素特征显示富集大离子亲石元素(LILE),而亏损高场强元素(HFSE),具有较低的Sr(122×10^-6～356×10^-6)含量、较高的Y(17.19×10^-6～21.82×10^-6)和Yb(1.78×10^-6～2.57×10^-6)含量。岩体的Sr-Nd同位素特征为I_Sr=0.707 867～0.709 654,ε_Nd(t)=-2.79～-1.46。铅同位素特征为²⁰⁶Pb/²⁰⁴ Pb=18.423～19.915,²⁰⁷ Pb/²⁰⁴Pb=15.576～15.685,²⁰⁸ Pb/²⁰⁴Pb=38.344～39.305。元素和同位素地球化学特征表明,莱历斯高尔岩体岩浆源区主要为中元古代下地壳的部分熔融,并有部分地幔物质的加入。岩体形成于晚泥盆世准噶尔洋向伊犁-中天山微板块陡角度俯冲的大陆弧构造环境。     

西天山浅成低温金矿容矿火山岩地球化学及成矿环境初探

20世纪90年代,在新疆西天山北段晚古生代火山岩区内相继发现了阿希大型金矿床及其外围的伊尔曼得、恰布坎卓它等金矿床(点),并进一步确定了其系产于晚古生代火山岩内的浅成低温矿床.矿床赋存于伊犁晚古生代火山岩区的吐拉苏-也里莫墩火山岩带中.矿床围岩为下石炭统大哈拉军山组中基性-中酸性陆相火山岩系,以钙碱性为主,少量碱性系列岩石,具有富硅、钠、贫钾、铝、镁、钙成分和里特曼指数偏高的特点;岩石稀土元素含量中等(ΣREE=41.59×10^-6~135.83×10^-6),属于轻稀土富集型(含量29.05×10^-6~95.37×10^-6),分镏程度较高;容矿火山岩以K、Rb、Ba、Th等大离子元素富集和Ti、Y、Yb、Sc等亏损为特征,接近于板内过渡型玄武岩系列岩石;火山岩和矿石²⁰⁶Pb/²⁰⁴Pb值为17.5269~18.6644,²⁰⁷Pb/²⁰⁴Pb值为15.1073~16.0108,²⁰⁸Pb/²⁰⁴Pb值为37.3670~38.1958,具壳幔混合源特征;含金石英脉锶同位素初始值与区内容矿火山岩、矿化有关蚀变矿物十分接近,介于0.705~0.709之间,显示成矿作用与火山岩系的密切成因联系;文中结合容矿火山岩时空分布和成矿地球化学特征的讨论分析,揭示了金矿成矿与容矿火山岩的内在联系,确立了金矿化的陆内裂谷环境特点,建立了浅成低温热液型金矿的第三种成矿背景,拓宽了找矿区域.     

湖南常宁县康家湾铅锌金矿硅化角砾岩岩石地球化学特征

湖南常宁县康家湾铅锌金矿床硅化角砾岩带由未硅化角砾岩—极弱硅化角砾岩—硅化角砾岩—强硅化角砾岩(似硅质岩)组成,产于侏罗系与下伏二叠系间的不整合面附近,角砾成份复杂,充填物和胶结物类型多样。随着硅化程度的加强,硅化角砾岩带SiO₂含量变化大,最高可达95.34%,而Al₂O₃、MgO、FeO、K₂O、Na₂O、CaO、CO₂和P₂O₅含量特别是MgO、CaO、CO₂和P₂O₅含量明显降低,且K₂O>Na₂O,TiO₂的含量显著偏低。硅化角砾岩带LREE/HREE比值为1.95～4.93,Ce(δCe=0.44～0.81)和Eu(δEu=0.58～0.89)均为弱负异常,属轻稀土富集型,但随硅化程度增高稀土元素含量显著减少:未硅化和弱硅化角砾岩稀土元素总量较高,为(176.82～318.93)×10^-10,与当冲组泥质岩配分曲线相似;硅化强烈的角砾岩稀土元素总量低,为(7.71～65.95)×10^-10,与下伏栖霞组灰岩稀土元素配分曲线极为相似。结合微量元素F、Ba、Cl、Cr、Ni、Sr、V研究结果及硅化角砾岩带自底部至顶部特有的下粗上细的韵律性层理构造,认为康家湾铅锌金矿床硅化角砾岩带是在地台体制向地洼体制转变期的大地构造环境下,由于地壳快速隆升,二叠纪灰岩、泥质岩、石英砂岩等岩石剥蚀,在古河流环境下搬运、沉积形成的。此     

内蒙古白云鄂博地区识别出新火成碳酸岩

【研究目的】白云鄂博超大型稀土矿床的形成与碳酸岩关系密切。在白云鄂博矿区外围,西矿区西南部中新生代沉积覆盖区,也存在一定规模的碳酸质岩石,其成因属性对白云鄂博矿床的形成具有启示意义。【研究方法】本文通过岩石学及矿物学研究发现,该碳酸质岩石实际为火成碳酸岩。【研究结果】碳酸岩总体受流体交代程度较弱,根据矿物组成,可分为白云石型和方解石型两种类型。岩石地球化学分析表明,碳酸岩样品富Sr(>4940×10^-6),Mn(>2150×10^-6)以及Ba(>106×10^-6),REE平均含量为938×10^-6,远高于本区沉积碳酸盐岩;样品全岩δ¹³C_V-PDB和δ¹⁸O_V-SMOW值范围分别为：-3.7‰～-4.2‰和6.7‰～7.7‰,为典型原始火成碳酸岩特征;岩石具有较均一的Sr同位素组成,⁸⁷Sr/⁸⁶Sr=0.702815～0.703185,表明它们为地幔...     

甘肃合作早子沟金矿床流体包裹体及硫铅同位素特征

早子沟金矿床是西秦岭西段近年来发现的大型金矿床之一。矿床产于中三叠世古浪堤组中,矿体产出与中酸性岩脉关系密切;矿体受断裂控制,呈脉状、条带状,少数似层状产出。含金石英脉可分为两个成矿期次,分别为含金粗粒石英脉期和多金属硫化物-金石英期;金属硫化物主要为辉锑矿、黄铁矿、毒砂等。辉锑矿石英脉型金矿石中流体包裹体主要为富液相的气液两相流体包裹体,均一温度为129.8 ~324.3 ℃,平均为203.2 ℃,盐度（w（NaCl））为1.22%~10.73%,平均为6.04%,成矿流体的密度平均为0.90 g/cm³,矿床的成矿平均深度约为2.00 km;阴阳离子分析结果表明,流体包裹体液相成分主要为Na⁺-SO₄^2--Cl^-,单个流体包裹体激光拉曼显示流体包裹体中的气相成分主要为H₂O、CO₂和SO₂,个别样品显示有CO和CH₄,成矿流体为NaCl-H₂O-CO₂体系。流体包裹体研究揭示了早子沟金矿床辉锑矿-金成矿阶段的成矿流体为浅成中低温低盐度低密度流体,主要为岩浆水与地下水的混合热液,不同性质流体的混合作用和它们的沸腾作用是使金沉淀的重要因素。矿石中辉锑矿硫同位素组成很稳定,δ³⁴S_V-CDT值为-10.30‰~-8.10‰,平均为-9.33‰,表明硫主要为岩浆热液来源,并混有地层硫。矿石铅同位素组成显示²⁰⁶Pb/²⁰⁴Pb为18.166~19.027,²⁰⁷Pb/²⁰⁴Pb为15.608~15.741,²⁰⁸Pb/²⁰⁴Pb为38.249~39.275,矿石铅同位素组成为壳幔混合成因铅。根据早子沟金矿床特征,结合成矿流体性质及来源、成矿物质来源研究成果,推测甘肃早子沟金矿床应为岩浆期后低温热液金矿床。     

安徽省铜陵桂山铜铅锌矿C-H-O-S-Pb 同位素地球化学特征及其意义

安徽铜陵桂山铜铅锌矿床是铜陵矿集区沙滩脚矿田内近年来新发现的以铜矿为主,伴生铅锌矿的中小型多金属矿床,该矿床的矿体主要赋存于三叠系南陵湖组灰岩与青山花岗闪长斑岩体接触带附近及花岗闪长斑岩体内。本文在对该矿床地质特征的研究基础上,对代表性（岩）矿石进行碳、氢、氧、硫、铅同位素研究分析,据此约束该矿床的成矿流体和成矿物质来源。研究成果显示, 桂山铜铅锌矿床中方解石样品中δ¹³C_V-PDB 值为−3.2‰～2.0‰ 间,δ¹⁸O_V-SMOW 为8.3‰～15.2‰ 间,石英流体包裹体水的δD_V-SMOW 为−112.6‰～−6.8‰,δ¹⁸O_V-SMOW 为10.5‰～14.7‰,矿石中硫化物δ³⁴S值变化范围为−0.9‰～4.1‰,具塔式分布特征,矿石铅中的²⁰⁶Pb /²⁰⁴Pb 比值为18.409～18.585,²⁰⁷Pb /²⁰⁴Pb 比值为15.588～15.703,²⁰⁸Pb /²⁰⁴Pb 比值为38.483～38.843,以上指示了桂山铜铅锌矿床的成矿流体主要来源于岩浆水,并有大气降水的加入。分异成矿流体的岩浆可能来源于地幔,且伴有上地壳物质混入的特点。岩浆-地幔的溶解作用,伴有地层中碳质的混入。     

西天山阿希金矿成矿地球化学特征研究

阿希金矿为1990年代在西天山发现的产于晚古生代陆相火山岩中的大型金矿床.容矿围岩为下石炭统大哈拉军山组中基性-中酸性火山岩,以钙碱性为主,少量碱性系列岩石,具有富硅、钠,贫铝、钾、镁、钙成分和里特曼指数偏高的特点;岩石稀土元素含量中等,属于轻稀土富集型,分馏程度较高;容矿火山岩以K、Rb、Ba、Th等大离子元素富集和Ti、Y、Yb、Sc等亏损为特征,接近于板内过渡型玄武岩系列岩石;容矿岩、近矿蚀变岩和矿石皆富集有Au、Ag、As、Sb、Bi等低温组合元素,且表现出渐进富集之特点;火山岩和矿石中铅具壳幔混合源特征;含金石英脉锶同位素初始值与区内容矿火山岩、矿化有关的蚀变矿物十分接近,均小于0.709而大于0.705;成矿流体属于K⁺[Na⁺]-SO₄^2-[Cl^-]型,具有低温(120~180℃)、低压(7.2~21.8 MPa)、低盐度(2.4%~4.5%,NaCl)、富含CO₂、N₂、O₂等特征;流体pH值中等(5.7~8.8),E_h值-0.88~+1.18 eV,成矿环境弱还原;金矿石中黄铁矿δ³⁴S值0.95‰~10.51‰,以深源火山成因硫为主;氢氧同位素值域较宽,反映流体以大气降水为主.总之,阿希金矿具备了浅成低温热液系统金矿的基本地球化学特征,但在成矿时代和成矿背景等方面,有别于经典同类矿床.     

Stable isotope geochemistry and Re–Os ages of the Yinan gold deposit,Shandong Province,northeastern China

The Yinan gold deposit in the Luxi area of Shandong Province in northeastern China is a skarn-type ore deposit. In this article, we present results from sulphur, lead, carbon–oxygen, and helium–argon isotope chemistry to characterize the ore genesis and source features. We also present rhenium–osmium ages from molybdenite to evaluate the timing of ore formation. The δ³⁴S values of pyrite from the ore deposit range from 0.7‰ to 5.60‰ with a mean at 2.70‰, close to mantle and meteorite sulphur. Among Pb isotopes, ²⁰⁶Pb/²⁰⁴Pb values range from 18.375 to 18.436, ²⁰⁷Pb/²⁰⁴Pb values from 15.694 to 15.8, and ²⁰⁸Pb/²⁰⁴Pb values from 38.747 to 39.067. The δ¹³C values of calcite associated with the ores range from ?0.2‰ to ?0.5‰ and their δ¹⁸O values show variation from 9.4‰ to 12.6‰, suggesting a mixed fluid source. The ³He/⁴He and ⁴⁰Ar/³⁶Ar ratios of fluids trapped in pyrite are in the range of 0.27–1.11 Ra and 439.4–826, respectively, with calculated proportion of the mantle-derived He ranging from 3.25% to 14.03% and atmosphere argon ranging from 35.8% to 67.3%. The data suggest that the ore-forming fluids were derived from the crust and were mixed with a distinct contribution of mantle helium. The Re and Os values vary from 32 × 10^?6 to 93.02 × 10^?6 and from 0.01 × 10^?9 to 0.34 × 10^?9, respectively. The model ages of molybdenite range from 126.96 ± 1.82 Ma to 129.49 ± 2.04 Ma, with a weighted mean age of 128.08 ± 0.75 Ma and isochron age of 130.3 ± 3 Ma. These ages are close to the age of the associated quartz diorite porphyrite pluton, suggesting a close relationship between Cretaceous magmatism and metallogeny in NE China. A comparison of the Yinan gold deposit in the Luxi area with those of the Jiaodong area shows that the contrast in metallogenic features between the two are linked with the tectonic and geodynamic history.     

湘东南铜山岭铅锌多金属矿床成矿时代与成矿物质来源——Sm-Nd等时线年龄和Pb同位素证据

铜山岭铅锌多金属矿床位于扬子地块湘南-桂东北坳陷与华夏地块粤北坳陷的拼贴部位,是中国南岭多金属成矿区代表性矿床之一。为确定矿床成矿时代,挑选铜山岭铅锌多金属矿床中含矿矽卡岩的石榴子石进行Sm-Nd同位素定年,获得的等时线年龄为173±3Ma,指示成矿作用发生于燕山早期。对金属硫化物矿物进行了Pb同位素分析,其~(206)Pb/~(204)Pb、~(207)Pb/~(204)Pb、~(208)Pb/~(204)Pb平均值分别为18.602、15.701、38.729,表明成矿物质来源于相对富集铀铅、略微亏损钍铅的上地壳源区。从(~(207)Pb/~(204)Pb)i-(~(206)Pb/~(204)Pb)i铅同位素演化模式图可知,寄主花岗闪长岩是铜山岭铅锌多金属矿床的重要物质来源,且成矿物质中可能含有寄存在花岗闪长岩中的地幔组分。     

Isotope geochemistry and geochronology of the Niujuan silver deposit,northern North China Craton: Implications for magmatism and metallogeny in an extensional tectonic setting

The Niujuan breccia-type silver deposit forms part of the North Hebei metallogenic belt along the northern margin of the North China Craton. The Hercynian Baiyingou coarse-grained granite and the Yanshanian Er’daogou fine-grained granite are the major Mesozoic intrusions exposed in this region. Here we investigate the salient characteristics of the mineralization and evaluate its genesis through zircon U-Pb and fluorite Sm-Nd age data, and Pb, S, O, H, He and Ar isotope data. The orebodies of the Niujuan silver deposit are hosted in breccias, which contain angular fragments of the Baiyingou and Er’daogou granitoids. The δ³⁴S values of pyrite from the silver mineralized veins range from 2.4‰ to 5.3‰. The ²⁰⁶Pb/²⁰⁴Pb, ²⁰⁷Pb/²⁰⁴Pb and ²⁰⁸Pb/²⁰⁴Pb ratios of the sulfide minerals show ranges of 16.837–16.932, 15.420–15.501 and 37.599–37.950, respectively. The ³He/⁴He and ⁴⁰Ar/³⁶Ar ratios of the fluids trapped in pyrite are 0.921–4.81Ra and 299.34–303.84, respectively. The δ¹⁸O and δ¹⁸D_w values of the ore-forming fluids range from 0.6‰ to −4.15‰ and from −119.4‰ to −98.7‰, respectively. Our isotopic data suggest that the ore-forming fluids were originally derived from the subvolcanic plutons and evolved into a mixture of magmatic and meteoric water during the main hydrothermal stage. The ore-forming materials were primarily derived from the lower crust with limited incorporation of mantle materials. The emplacement time of the Er’daogou granite is constrained by LA-ICP-MS zircon U-Pb geochronology at 145.5 ± 2.1 Ma. Five fluorite samples from the last hydrothermal stage yielded a Sm-Nd isochron age of 139.2 ± 3.8 Ma, indicating the upper age limit for the silver mineralization. These ages correlate with the formation of the Niujuan deposit in an extensional setting associated with the closure of the Mongol-Okhotsk Ocean and the subduction of the Paleo-Pacific oceanic plate beneath the North China Craton.     

Origin of the Dachang gold deposit,NW China: constraints from H,O, S,and Pb isotope data

The Dachang gold deposit is located in the Late Triassic Songpan-Ganzi Fold Belt, NE Tibetan Plateau. Gold ore is concentrated as veins along secondary faults and fracture zones in the Bayan Har Group metaturbidites. No exposed felsic plutons are present in the vicinity of the deposit. The auriferous veins contain <15% sulphide minerals, mainly arsenopyrite, pyrite, and stibnite. Gold is commonly enclosed within arsenopyrite and pyrite. Typical alteration around the ore bodies includes silicification, sericitization, and weak carbonatization.

Gold-bearing quartz samples have δ¹⁸O values of 16.9–21.2‰ (V-SMOW) from which δ¹⁸O_H2O values of 6.2–9.6‰ can be calculated from the fluid inclusion temperatures (or 10.0 to 12.7‰ if we used the average arsenopyrite geothermometer temperature of 301°C). The δD values of fluid inclusions in quartz range from –90‰ to –72‰. δ³⁴S values of gold-bearing sulphides mainly range from –5.9‰ to –2.8‰ (V-CDT). Pyrite and arsenopyrite in ores have ²⁰⁶Pb/²⁰⁴Pb ratios of 18.2888 to 18.4702, ²⁰⁷Pb/²⁰⁴Pb ratios of 15.5763 to 15.6712, and ²⁰⁸Pb/²⁰⁴Pb ratios of 38.2298 to 38.8212. These isotopic compositions indicate that the ore-forming fluids were of metamorphic origin, and the S and Pb may have been derived from the host metaturbidites of the Bayan Har Group. The Dachang Au deposit has geological and geochemical features similar to orogenic gold deposits. We propose that the ores formed when the Songpan-Ganzi Fold Belt was intensely deformed by Late Triassic folding and thrusting. Large-scale thrusting resulted in regional allochthons of different scales, followed by secondary faults or fracture zones that controlled the ore bodies.     

Geology, Geochemistry and Genesis of the Hongshijing Gold Deposit in Ruoqiang,Xinjiang

1IntroductionTheHongshijinggolddepositislocatedinthenorthofLuobupouLakeofRuoqiang ,about 30 0kmsouthwestofHamiCity ,Xinjiang .ItwasdiscoveredbytheSixthGeologicalTeamofXinjiangduringgeo chemicalexploration .TheHongshijinggolddeposit,whichoccursinthegold bearingformationcomposedofMiddleandLateCarboniferousvolcanicandpyroclasticrocks ,isabrittle ductileshearzonetypegolddepositcontrolledbyariftbelt.TheHongshijinggolddepositislocatedinthesouthwestoftheHongshi jing -Maotoushanmineralizationb…     

Genesis of the Maoling gold deposit in the Liaodong Peninsula: Constraints from a combined fluid inclusion,C-H-O-S-Pb-He-Ar isotopic and geochronological studies

The large tonnage Maoling gold deposit (25 t @ 3.2 g/t) is located in the southwest Liaodong Peninsula, North China Craton. The deposit is hosted in the Paleoproterozoic metamorphic rocks. Four stages of mineralization were identified in the deposit: (stage I) quartz-arsenopyrite ± pyrite, (stage II) quartz-gold- arsenopyrite-pyrrhotite, (stage III) quartz-gold- polymetallic sulfide, and (stage IV) quartz-calcite-pyrrhotite. In this paper, we present fluid inclusion, C-H-O-S-Pb-He-Ar isotope data, zircon U-Pb, and gold-bearing sulfide (i.e. arsenopyrite and pyrrhotite) Rb-Sr age of the Maoling gold deposit to constrain its genesis and ore-forming mechanism. Three types of fluid inclusions were distinguished in quartz-bearing veins, including liquid-rich two-phase (WL type), gas-rich two-phase (GL type), and daughter mineral-bearing fluid inclusions (S type). Fluid inclusions data show that the homogenization at temperatures 197 to 372 °C for stage I, 126 to 319 °C for stage II, 119 to 189 °C for stage III, and 115 to 183 °C for stage IV, with corresponding salinities of 3.7 to 22.6 wt.%, 4.7 to 23.2 wt.%, 5.3 to 23.2 wt.%, and 1.7 to 14.9 wt.% NaCl equiv., respectively. Fluid boiling was the critical factor controlling the gold and associated sulfide precipitation at Maoling. Hydrogen and oxygen stable isotopic analyses for quartz yielded δ¹⁸O = ?5.0‰ to 9.8‰ and δ D = ?133.5‰ to ?77.0‰. Carbon stable isotopic analyses for calcite and ankerite yielded δ¹³C = ?2.3‰ to ?1.2‰ and O = 7.9‰ to 14.1‰. The C-H-O isotope data show that the ore-forming fluids were originated from magmatic water with meteoric water input during mineralization. Hydrothermal inclusions in arsenopyrite have ³He/⁴He ratios of 0.002 Ra to 0.054 Ra, and ⁴⁰Ar/³⁶Ar rations of 1225 to 3930, indicating that the ore-forming fluids were dominantly derived from crustal sources almost no mantle input. Sulfur isotopic values of Maoling fine-grained granite range from 6.‰1 to 9.8‰, with a mean of 7.7‰, δ³⁴S values of arsenopyrite from the mineralized phyllite (host rock) range from 8.9‰ to 10.6‰, with a mean of 10.0‰, by contrast, δ³⁴S values of sulfides from ore vary between 4.3‰ and 10.6‰, with a mean of 6.8‰, suggesting that sulfur was mainly originated from both the host rock and magma. Lead radioactive isotopic analyses for sulfides yielded ²⁰⁶Pb/²⁰⁴Pb = 15.830–17.103, ²⁰⁷Pb/²⁰⁴Pb = 13.397–15.548, ²⁰⁸Pb/²⁰⁴Pb = 35.478–36.683, and for Maoling fine-grained granite yielded ²⁰⁶Pb/²⁰⁴Pb = 18.757–19.053, ²⁰⁷Pb/²⁰⁴Pb = 15.596–15.612, and ²⁰⁸Pb/²⁰⁴Pb = 38.184–39.309, also suggesting that the ore-forming materials were mainly originated from the host rocks and magma. Zircon U-Pb dating demonstrates that the Maoling fine-grained granite was emplaced at 192.7 ± 1.8 Ma, and the host rock (mineralized phyllite) was emplaced at some time after 2065.0 ± 27.0 Ma. Arsenopyrite and pyrrhotite give Rb–Sr isochron age of 188.7 ± 4.5 Ma, indicating that both magmatism and mineralization occurred during the Early Jurassic. Geochronological and geochemical data, together with the regional geological history, indicate that Early Jurassic magmatism and mineralization of the Maoling gold deposit occurred during the subducting Paleo-Pacific Plate beneath Eurasia, and the Maoling gold deposit is of the intrusion-related gold deposit type.     

新疆西天山查汗萨拉金矿地质、金赋存状态及同位素地球化学研究

查汗萨拉金矿是近年在新疆西天山新发现的一处金矿床,处于依连哈比尔尕构造带西端.矿体旱不规则脉状产于细品闪长岩构造破碎蚀变带及其接触带附近的上石炭统奇尔古斯套组蚀变围岩中,围岩蚀变较弱.矿石中硫化物主要为黄铁矿,并含少量磁黄铁矿、黄铜矿、方铅矿等.硫化物矿物呈自形粗晶或半自形结构,斑杂状分布在构造蚀变岩石中.金矿物以自然金和银金矿为主,还发现有硫(碲)银金矿和金铀化物等独特矿化线索,金矿物多赋存在黄铁矿中,以包体金、裂隙金和少量粒间金形式存在.金矿物形态以粒状和长角状为主,多为细、微细粒金(粒度<10 μm).矿石中矿物流体包裹体均一温度为220～340℃.热液脉三石矿物石英流体包裹体的δD为-92‰～-74‰,δ18Ov-SMOW为11.8‰～12.6‰,成矿流体显尔岩浆热液和变质建造水混合的特征.热液方解石脉的占δ13Cv-PDB为-8.92‰～-8.06‰,δ18Ov-SMOW为13.45‰～17.18‰,反映成矿流体中CO2主体米源于岩浆.硫化物206pb/204Pb为18.036～18.173,207pb/204pb为15.536～15.612,208pb/204pb为37.940～38.097,成矿金属具岩浆来源特征.矿石中硫化物δ34Sv-CDT为-9.8‰～-7.3‰,显示其可能与地层有关.查汗萨拉金矿为构造蚀变岩型中温岩浆热液矿床.小同于本区阿希金矿,是西天山金矿勘查中值得关注的新类型.