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1.
The Jiaodong gold district of eastern China, the largest gold producing district in China, is located on the eastern margin of the North China Craton. It consists of three mineralisation belts: the western Zhao-Ye belt, the middle Qixia belt, and the eastern Muping–Rushan (Muru) belt. Over 85% of mineralisation is hosted in the Zhao-Ye belt, which is bordered by the mantle-tapping Tan Lu fault zone. Pyrite crystals from three deposits in the Zhao-Ye belt and three deposits in the Muru belt were studied using a combination of optical petrography, bulk pyrite geochemistry, and in-situ laser ablation ICP-MS. Results show that although mineralisation is broadly similar between the two belts, there are significant differences in ore and gangue mineral textures, pyrite geochemistry, and style of gold mineralisation.Texturally, pyrite grains from the Zhao-Ye belt are generally cubic and do not exhibit zoning. In contrast, Muru pyrite grains are more often pyritohedral, commonly exhibit well-defined concentric zoning, and display textures in ore and gangue minerals indicative of open space growth. Bulk pyrite geochemistry suggests a distinct enrichment in Pb, Bi, Au, Ag and Te in the Zhao-Ye belt, whereas the Muru belt pyrite is significantly enriched in As, Cu and Co. In situ pyrite geochemistry indicates that Au and As are variably correlated in the Zhao-Ye belt, typically only exhibiting correlation at low Au concentrations. Most gold occurs as visible electrum along pyrite fractures and grain boundaries, with a minor generation of invisible gold formed through As-facilitated uptake into pyrite. In the Muru belt, Au and As have a strong correlation and there is limited occurrence of gold particles, indicating that most gold in the Muru belt is invisible gold contained in the crystal structure of As-rich pyrite.The differences in style of gold mineralisation between the belts indicates an inherent difference in timing of gold introduction: in the Zhao-Ye belt, the visible electrum accounting for most of the gold endowment is formed post-pyrite, whereas the invisible gold in the Zhao-Ye and Muru belts is formed syn-pyrite. The heterogeneity in gold distribution in the Jiaodong district is attributed to melting of metallogenically fertile Archean crust at the base of the well-endowed Zhao-Ye belt, and the lack of a similarly fertile source region beneath the Muru belt. 相似文献
2.
LA-ICP-MS trace element analysis of pyrite from the Xiaoqinling gold district, China: Implications for ore genesis 总被引:7,自引:0,他引:7
Hai-Xiang Zhao Hartwig E. Frimmel Shao-Yong Jiang Bao-Zhang Dai 《Ore Geology Reviews》2011,43(1):142-153
The Xiaoqinling district, the second largest gold producing district in China, is located on the southern margin of the North China Craton. It consists of three ore belts, namely, the northern ore belt, the middle ore belt and the southern ore belt. Pyrite from the Dahu gold deposit in the northern ore belt and Wenyu and Yinxin gold deposits in the southern ore belt were investigated using a combination of ore microscopy and in-situ laser-ablation inductively-coupled plasma-mass spectrometry (LA-ICP-MS). A range of trace elements was analyzed, including Au, Te, Ag, Pb, Bi, Cu, Co, Ni, Zn, Mo, Hg, As and Si. The results show that there are no systematic differences between the trace element compositions of pyrite in the three deposits from different ore belts. In general, Au concentrations in pyrite are low (from < 0.01 ppm to 2.2 ppm) but Ni concentrations are rather high (up to 8425 ppm). A four-stage mineralization process is indicated by microscopic and field observations and this can be related to the systematic trace element differences between distinct generations of pyrite. Stage I precedes the main gold mineralization stage; pyrite of this stage has the lowest Au concentrations. Stages II and III contributed most of the gold to the ore-forming system. The corresponding pyrite yielded the highest concentrations of Au and Ni. Our microscopic observations suggest that pyrite in the main gold mineralization stage precipitated simultaneously with molybdenite that has been previously dated as Indosinian (~ 218 Ma by Re–Os molybdenite dating), indicating the Indosinian as the main gold mineralization stage. The Indosinian mineralization age and the geological and geochemical features of these gold deposits (e.g., low salinity, CO2-rich ore fluids; spatial association with large-scale compressional structures of the Qinling orogen; δ18O and δD data suggestive of mixing between metamorphic and meteoric waters; δ34S and Pb-isotopic data that point to a mixed crustal-mantle source) all point to typical orogenic-type gold deposits. High Ni concentrations (up to 8425 ppm) of pyrite possibly linked to deep-seated mafic/ultramafic metamorphic rocks provide further evidence on the orogenic gold deposit affinity, but against the model of a granitic derivation of the mineralizing fluid as previously suggested by some workers. Generally low Au concentration in pyrite is also consistent with those from worldwide orogenic gold deposits. Therefore, the gold mineralization in the Xiaoqinling district is described as orogenic type, and is probably related to Indosinian collision between the North China Craton and the Yangtze Craton. 相似文献
3.
在胶东莱州吴一村地区完成的3266.06 m深钻,是目前焦家金成矿带最深见矿钻孔,研究钻孔揭露的深部矿石中金矿物及黄铁矿微量元素特征,对探讨深部成矿作用演化具有重要意义。笔者采取深钻中2420~3206 m垂深的岩(矿)芯样品进行了详细的岩相学和矿相学研究,结合扫描电镜和电子探针微区分析,研究了矿石中金矿物的赋存状态和成分。对不同成矿阶段形成的黄铁矿进行了LA-ICPMS微量元素分析。研究结果表明,深部矿石中载金矿物主要为黄铁矿,其次为石英、黄铜矿、方铅矿,可见金主要以自然金和银金矿的形式存在,以晶隙金和裂隙金为主,其次为包体金。与浅部金矿床比较,深部金的成色较高。黄铁矿分为6种类型,第Ⅰ成矿阶段形成富Co型黄铁矿Py1,第Ⅱ成矿阶段形成富Ni型黄铁矿Py2a和Py2b,第Ⅲ成矿阶段形成富Au、As型黄铁矿Py3a和富Au、Ag、Pb、Bi型黄铁矿Py3b,第Ⅳ成矿阶段形成贫微量元素黄铁矿Py4。其中,Py1和Py2a发生强烈破碎,裂隙表面对热液中的Au络合物产生吸附作用,对金沉淀富集起重要作用。黄铁矿中Co、Ni、As等微量元素主要以类质同象形式赋存,而Au、Ag、Cu、Pb、Zn、Bi等主要以纳米级、微米级矿物包体形式赋存。Pb+Bi、Cu+Pb+Zn、Te+Bi与Au+Ag呈明显正相关,而Au与As相关性较差。黄铁矿中Co、Ni含量较低,而Au+Ag+As或Au+Ag+Pb+Bi+Cu含量较高指示成矿有利。另外,黄铁矿中Co、Ni含量较高,并且破碎强烈,成矿相关元素含量较高也指示成矿有利。 相似文献
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载金黄铁矿显微构造变形与金富集关系可以从显微-超显微尺度揭示金成矿作用和地质过程,探讨金的再活化或再聚集作用。在胶东焦家金矿带成矿期识别出4种类型的黄铁矿,文章应用光学显微镜、扫描电镜(SEM)、透射电镜(TEM)、电子背散射衍射(EBSD)和电子探针(EMPA)等技术方法,探讨黄铁矿显微构造特征、超微观结构与金的富集关系。结果显示:载金黄铁矿均不发育环带,其中w(Fe)为45.70%~46.85%,w(S)为52.57%~53.37%;显微构造变形既有脆性变形又有塑性变形;黄铁矿晶体优选方位(CPO)主要表现为平行于晶轴极密和复杂极密;黄铁矿晶格间距为0.58 nm,主要发育刃位错。焦家金矿带在金成矿作用过程中,可见金集合体经历了从复杂的纳米尺度到宏观尺度矿物载体富集的过程,包括成矿流体中金络合物、金-铋-硫族化合物富集等化学结构变化过程和纳米金、载金黄铁矿纳米颗粒、岩矿石显微-超显微构造微环境变化过程。因此,不同类型载金黄铁矿CPO受到化学结构变化和显微-超显微变形微环境变化的联合制约,间接反映出载金黄铁矿中金的富集与黄铁矿内部变形、表面形貌和结构缺陷有密切关系。 相似文献
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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 总被引:2,自引:1,他引:1
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. 相似文献
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吉林金银别地区位于华北地台北缘东段,夹皮沟金矿带的南东延长部分,清茶馆—白水滩断裂构造带与北东向溜河构造带交汇处。区内金矿床、金矿点多分布于太古宙、古生宙表壳岩中,矿体分布主要受NE、NW向断裂构造控制。文章通过对金矿地质特征和控矿因素的总结分析,指出找矿方向。 相似文献
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墨江金厂金镍矿床位于哀牢山造山带中段,九甲—安定大断裂上盘,是西南三江成矿带内一个独特的金镍矿床。本文在详细野外地质调查基础上,通过显微镜下观察、扫描电镜和能谱分析,结合矿石微量元素分析,对矿石中金、镍赋存状态及成因关系进行了研究。结果显示,金赋存形式主要有可见金和不可见金。可见金又可分为粒间金和包体金;不可见金是以Au~+赋存于硫锑铜银矿、黄铁矿中。镍赋存状态有两种:一是以独立矿物,如辉砷镍矿、锑硫镍矿等存在;二是以离子态赋存于黄铁矿、硫锑铜银矿中。矿石结构构造、矿物共生组合及微量元素含量等显示,金和镍为同期热液成矿,金来自岩浆热液系统远端的低温热液,镍是含金低温热液流经超基性岩体时萃取而来。成矿过程可分为早期富硅质热液和晚期富钙质热液两个阶段,成矿是在幕式构造活动下多期流体运移和沉淀的结果。 相似文献
8.
Paragenesis and geochemistry of ore minerals in the epizonal gold deposits of the Yangshan gold belt,West Qinling,China 总被引:13,自引:0,他引:13
Nan Li Jun Deng Li-Qiang Yang Richard J. Goldfarb Chuang Zhang Erin Marsh Shi-Bin Lei Alan Koenig Heather Lowers 《Mineralium Deposita》2014,49(4):427-449
Six epizonal gold deposits in the 30-km-long Yangshan gold belt, Gansu Province are estimated to contain more than 300 t of gold at an average grade of 4.76 g/t and thus define one of China's largest gold resources. Detailed paragenetic studies have recognized five stages of sulfide mineral precipitation in the deposits of the belt. Syngenetic/diagenetic pyrite (Py0) has a framboidal or colloform texture and is disseminated in the metasedimentary host rocks. Early hydrothermal pyrite (Py1) in quartz veins is disseminated in metasedimentary rocks and dikes and also occurs as semi-massive pyrite aggregates or bedding-parallel pyrite bands in phyllite. The main ore stage pyrite (Py2) commonly overgrows Py1 and is typically associated with main ore stage arsenopyrite (Apy2). Late ore stage pyrite (Py3), arsenopyrite (Apy3), and stibnite occur in quartz ± calcite veins or are disseminated in country rocks. Post-ore stage pyrite (Py4) occurs in quartz ± calcite veins that cut all earlier formed mineralization. Electron probe microanalyses and laser ablation-inductively coupled plasma mass spectrometry analyses reveal that different generations of sulfides have characteristic of major and trace element patterns, which can be used as a proxy for the distinct hydrothermal events. Syngenetic/diagenetic pyrite has high concentrations of As, Au, Bi, Co, Cu, Mn, Ni, Pb, Sb, and Zn. The Py0 also retains a sedimentary Co/Ni ratio, which is distinct from hydrothermal ore-related pyrite. Early hydrothermal Py1 has high contents of Ag, As, Au, Bi, Cu, Fe, Sb, and V, and it reflects elevated levels of these elements in the earliest mineralizing metamorphic fluids. The main ore stage Py2 has a very high content of As (median value of 2.96 wt%) and Au (median value of 47.5 ppm) and slightly elevated Cu, but relatively low values for other trace elements. Arsenic in the main ore stage Py2 occurs in solid solution. Late ore stage Py3, formed coevally with stibnite, contains relatively high As (median value of 1.44 wt%), Au, Fe, Mn, Mo, Sb, and Zn and low Bi, Co, Ni, and Pb. The main ore stage Apy2, compared to late ore stage arsenopyrite, is relatively enriched in As, whereas the later Apy3 has high concentrations of S, Fe, and Sb, which is consistent with element patterns in associated main and late ore stage pyrite generations. Compared with pyrite from other stages, the post-ore stage Py4 has relatively low concentrations of Fe and S, whereas As remains elevated (2.05~3.20 wt%), which could be interpreted by the substitution of As? for S in the pyrite structure. These results suggest that syngenetic/diagenetic pyrite is the main metal source for the Yangshan gold deposits where such pyrite was metamorphosed at depth below presently exposed levels. The ore-forming elements were concentrated into the hydrothermal fluids during metamorphic devolatilization, and subsequently, during extensive fluid–rock interaction at shallower levels, these elements were precipitated via widespread sulfidation during the main ore stage. 相似文献
9.
在金的伴生矿物中,黄铁矿在托里金矿床中是非常丰富的矿物。它不仅在数量上占优势,而且在本矿床中黄铁矿还以部分自然金的载体出现在矿化带中,所以对黄铁矿进行较为详细的研究是有实际意义的。另外,本矿床为一新型的金矿床——蛇绿岩型金矿,就其黄铁矿来说,无论是矿物学的特点或是地球化学特点都具有本类型矿床的独特性质,例如本黄铁矿中有CO/Ni<1、Au/Ag>1的特点。再者,托里金矿有两个成矿带,而黄铁矿在这两个成矿带中又有不同的特点,这是由于这两个成矿带不同的成矿环境所造成的。 相似文献
10.
云南富宁者桑金矿床硫铅同位素地球化学特征与成矿物质来源 总被引:3,自引:0,他引:3
者桑金矿床赋存于上二叠统吴家坪组沉积碎屑岩中,矿体受构造破碎带控制,呈似层状、透镜状产出,是滇东南金成矿带上一个典型的卡林型金矿床。硫铅同位素地球化学研究显示,沉积黄铁矿和热液硫化物(黄铁矿和毒砂)的δ34S值均为正值,变化范围较窄(8.4‰~11.3‰),与二叠纪沉积时期海水硫酸盐δ34S值一致,具有地层硫的特征。矿石中的硫主要通过地层中有机质与海水硫酸盐的热还原作用(TSR)提供。铅同位素组成中,206Pb/204Pb变化范围较宽,207Pb/204Pb和208 Pb/204 Pb较为稳定,计算获得的模式年龄变化范围大(-62~389Ma),甚至出现"负年龄",表明除正常铅外,还有较多的放射性成因铅的混入。铅主要来自于上地壳,有少量岩浆物质的混入。矿石与围岩的硫铅同位素具有一定的继承性,成矿物质主要来自地层。 相似文献
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河南省罗山县金城金矿黄铁矿标型特征及其意义 总被引:1,自引:0,他引:1
通过对河南罗山县金城金矿Ⅱ号矿体黄铁矿产出特征、金在黄铁矿中的赋存状态、化学成分、热电性等一系列标型特征的研究,认为本区含金黄铁矿主要为热液成因。黄铁矿中硫同位素具有变化范围窄(2.75‰~5.5‰)、极差值小(2.75‰)、平均值为4.195‰的特点,表明硫主要来源于深源岩浆。热电性测试显示,黄铁矿的热电系数(α)变化范围较大(-281.0~466.0μV/℃),平均为-148.9~268.2μV/℃,热电场导电类型N型、P-N型、N-P型及P型均有,总体上具有N-P混合型特征,同一世代黄铁矿热电性在空间上具有正向垂直分带的规律,表明本矿区的黄铁矿成分复杂,具有受多期次热液叠加的特征。黄铁矿热电性数据统计直方图明显出现两个峰值,表明本矿床至少具有两次金成矿作用阶段。通过经验公式计算预测该矿体的剥蚀深度为矿体中部位置,深部尚有较大的找矿潜力。这一研究反映了黄铁矿的标型特征对进一步扩大矿床规模和找矿具有重要的指示意义。 相似文献
13.
黑龙江嘉荫-萝北地区金矿构造控矿特征分析 总被引:2,自引:0,他引:2
黑龙江嘉荫-萝北成矿带是我国比较重要的金成矿带,该成矿带上分布有团结沟特大型斑岩型金矿以及杜家河等中、小型金矿床(点)和矿化点,其中绝大部分严格受控于近sN和sN向的乌拉嘎-嘉荫河深断裂带和保兴-四方山林场断裂带。利用应力理论对控矿构造性质进行了分析,发现斑岩型金矿矿体主要产于不同方向断裂的交汇区,而破碎带蚀变岩石英脉型金矿矿体则平行于主断裂呈雁行状排列或密集平行斜列。对矿床产出地质背景的分析认为柳树河花岗岩体、团结沟南部斜长花岗斑岩体、葡萄沟和长脖山花岗斑岩体的接触带为寻找斑岩型金矿的首选靶区.而朝阳沟、中兴沟、德胜沟、横道河子和杜家河上游为寻找破碎带蚀变岩石英脉型金矿的首选靶区。 相似文献
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加勒克金矿呈脉状、不规则囊状或漏斗状产于西秦岭造山带古道岭组灰岩中,矿化受到NWW向和近EW向断裂严格控制,矿石矿物以赤铁矿、自然金和黄铁矿为主,蚀变以硅化、绢云母化和褐(赤)铁矿化为特征。矿石主要为碎裂岩型、硅化碎裂斑岩型、碎裂灰岩型。成矿作用方式主要为热液渗滤交代、构造裂隙等有限空间的充填沉淀作用,构成比较完整的热液交代-充填-沉淀成矿体系经历了原生热液成矿期和表生氧化-次生富集期。成矿环境为近地表,成矿时代为印支晚期,成矿物质来源与印支期陆内造山阶段酸性岩浆活动密切有关,金矿化和岩浆岩可能是统一的受深部构造制约的印支期构造-岩浆-热液活动体系的系列演化产物。 相似文献
16.
The Bepkong gold deposit is located in the Wa–Lawra belt of the Paleoproterozoic Baoulé-Mossi domain of the West African Craton, in NW Ghana. It occurs in pelitic and volcano-sedimentary rocks, metamorphosed to greenschist facies, in genetic association with zones of shear interpreted to form during the regional D3 deformational event, denominated DB1 at the deposit scale. The ore zone forms a corridor-like body composed of multiple quartz ± carbonate veins surrounded by an alteration envelope, characterized by the presence of chlorite, calcite, sericite, quartz and disseminated pyrite, arsenopyrite plus subordinate pyrrhotite and chalcopyrite. The veins contain only small proportions of pyrite, whereas most of the sulphides, particularly arsenopyrite, occur in the altered host rock, next to the veins. Pyrite is also common outside of the ore zone. Gold is found in arsenopyrite, where it occurs as invisible gold and as visible – albeit micron-size – grains in its rims, and as free gold within fractures cross-cutting this sulphide. More rarely, free gold also occurs in the veins, in fractured quartz. In the ore zone, pyrite forms euhedral crystals surrounding arsenopyrite, but does not contain gold, suggesting that it formed at a late stage, from a gold-free hydrothermal fluid. 相似文献
17.
河南省嵩县大峪沟金矿地质特征及控矿因素 总被引:1,自引:0,他引:1
大峪沟金矿位于华熊台隆的外方山断隆区内,岩浆活动强烈,断裂构造发育。矿体均受蚀变破碎带控制,赋存于蚀变构造岩之中,产状基本与含矿构造蚀变带产状一致。矿石中金属矿物主要为金属硫化物及其氧化矿物,成矿物质部分来源于深部火山熔浆和基底矿源层,断裂构造是该区最基本也是最重要的找矿标志。 相似文献
18.
系统的矿相学研究表明,太阳山金矿矿石矿物主要为黄铁矿、磁黄铁矿、含银自然金、闪锌矿、黄铜矿;矿床围岩蚀变种类较多,主要有硅化、绢云母化、钾长石化、石墨化。矿石结构包括自形—半自形粒状结构、假象结构、压碎结构、包含结构、错断结构等,矿石构造包括浸染状、微脉浸染状、脉状、网脉状构造。金主要以包裹金、粒间金、裂隙金、赋存于石英、黄铁矿、磁黄铁矿中。矿区内常见的是碎裂岩和糜棱岩化岩石,很少见到糜棱岩,不存在超糜棱岩、构不成糜棱岩系列。本矿床地质特征与典型的破碎带蚀变岩型金矿山东焦家金矿极为相似。因此,太阳山金矿属于典型的破碎带蚀变岩型金矿。 相似文献
19.
朝山金矿床位于铜陵市东郊狮子山矿田内。除了自然金之外,矿床中金主要以晶格金方式赋存于磁黄铁矿、黄铁矿和毒砂等矿石矿物之中;各种类型矿石成矿元素研究表明,含金磁黄铁矿石中金含量最高,其他依次为含金磁黄铁矿—黄铁矿矿石、含金黄铁矿化大理岩、含金矽卡岩、含金黄铁矿矿石等;硫同位素分析显示矿石硫主要来自深源或幔源硫,但在上升过程中遭受到地壳物质混染。在上述研究基础上,综合前人研究成果及朝山金矿地质特征,表明朝山金矿床属于热液交代型金矿床,形成时代为燕山中晚期。 相似文献
20.
阳山金矿带是西秦岭金矿带已探明金储量最大的独立金矿区,其矿化样式主要为微细浸染状矿化,其次为石英脉型矿化,可见金与“不可见金”均有发育,该金矿带是研究造山型金矿金赋存状态的理想地区,其研究成果对理解金成矿作用和过程以及指导选矿工艺具有重要意义。论文在翔实的野外地质调查和显微观察基础上,将成矿期划分为早阶段(黄铁矿石英)、主阶段(黄铁矿毒砂绢云母石英)和晚阶段(辉锑矿石英方解石),综合应用电子探针、激光剥蚀电感耦合等离子体质谱、电感耦合等离子质谱仪、高分辨率透射电镜、X射线粉晶衍射等技术,剖析阳山金矿带不同成矿阶段金的赋存状态,进而探讨其对成矿过程的指示意义。研究表明:成矿早、主阶段以微细浸染状硫化物矿化为主,金主要以晶格金的形式赋存于黄铁矿和毒砂中;而成矿晚阶段以脉状矿化为主,金主要以自然金的形式存在。金的赋存状态的变化,指示从成矿早阶段到晚阶段,成矿温度、压力逐渐降低,成矿流体成分由富As流体演化为相对贫As且富Sb的流体。 相似文献