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1.
富湾超大型银矿床Ar-Ar年龄、铅同位素特征及形成条件分析 总被引:1,自引:0,他引:1
富湾超大型银矿床主要为脉状,产于下石炭统灰岩与长坑赋金硅质岩接触带及其下的破碎带中。银矿床矿化石英40Ar-39Ar年龄为(64.3±0.1) Ma。矿床铅同位素μ值(10.67~10.95)与赋矿地层的μ值(9.79~10.33)不同,而与粤西地区元古宇基底中矿床的μ值(10.62~10.66)相似。富湾超大型银矿床成矿物质主要来自元古宙变质基底,矿床形成与三水盆地晚白垩世到早第三纪强烈火山活动形成的有利成矿环境有关。有利于形成富湾超大型银矿床地质条件包括:(1)深大断裂构造交汇及盆地边缘同生断裂构造组成的连通网;(2)特殊岩性组合形成的聚矿-圈闭环境;(3)丰富成矿物质源区、多期矿化及成矿元素多次活化迁移;(4)多期次火山活动形成的循环地热系统。 相似文献
2.
长坑金矿主要产在长坑下石炭统灰岩与上三叠统页岩断层不整合面下的硅质岩中,矿化可分为两期,早期金矿化为层状及透镜状,和硅质岩的产状一致,其δ34S‰。在─35.4~—0.3之间,极差大,变化大,具沉积硫的一般特征;成矿流体的δD‰为─80~—59。晚期矿化主要以辉锑矿-石英脉形式产出,其δ34S‰:0.8~2.3,均一,变化小,和早期矿化有明显差异,晚期矿化成矿流体的δD‰:─30~—46。两期矿化铅同位素组成相似,和下伏地层的基本一致。据矿床的地质地球化学特征及前人有关硅质岩成因认识,认为长坑金矿早期矿化主要是热水沉积形成的,晚期矿化是改造形成的,成矿物质主要来自下伏地层。 相似文献
3.
广东富湾银矿脉状矿化地球化学特征研究 总被引:16,自引:2,他引:14
富湾大型银矿床主要产在下石炭统灰岩与上三叠统页岩断层不整合面下的硅质岩及灰岩中,矿化多为脉状。银矿体铅同位素组成特征和地下伏地层有一定的差异,硫同位素组成均一,脉状银矿化石英脉石英Rb-Sr等时线年龄为(65±2.5)Ma。该矿床主要是后期改造作用形成的。 相似文献
4.
粤中三水盆地长坑赋金硅质岩主要呈层状分布于下石炭统梓门桥组生物碎屑灰岩与上三叠统碳质泥岩(或下石炭统梓门桥组粉砂岩)之间,厚度1—50m,主要由层状、块状及角砾状硅质岩组成。金矿主要呈细脉浸染状产于角砾状硅质岩中。长坑赋金硅质岩层具纹层状构造特征,在其中发现放射虫、微体古生物化石,角砾长轴与硅质纹层平行分布,含有草莓状黄铁矿,这些特征以及长坑金矿床与富湾银矿床成矿时代等资料都表明长坑金矿赋金硅质岩不是简单热水沉积或热液蚀变作用形成的,而是多次硅化作用的产物,至少经历了热水沉积硅化、成岩硅化、金矿成矿热液蚀变硅化及银矿成矿热液蚀变硅化作用的叠加。热水沉积硅质岩形成富金矿源层,为成矿提供了物质基础。 相似文献
5.
湘西花垣铅锌矿田成矿物质来源的C、O、H、S、Pb、Sr同位素制约 总被引:3,自引:0,他引:3
花垣地区铅锌矿床有望成为中国最大的铅锌矿床,也是铅锌矿资源储量超过千万吨的世界级超大型矿床之一。文章通过碳、氧、氢、硫、铅和锶同位素地球化学特征研究,探讨了成矿流体和成矿金属来源。测试结果显示,花垣地区铅锌矿床主成矿期方解石样品的δ~(13) CPDB值范围为-2.71‰~1.21‰,δ~(18) OSMOW值范围为16.09‰~22.48‰,该地区铅锌矿床成矿流体中的碳主要来源于海相碳酸盐岩的溶解作用。花垣矿区的围岩的δ~(13) CPDB值范围为0.29‰~1.05‰,δ~(18) OSMOW值范围为21.33‰~23.89‰,为沉积成因海相碳酸盐岩。矿石中硫化物的δ~(34) S变化于24.93‰~34.66‰之间,重晶石δ~(34) S为32.78‰~34.22‰,表明还原硫主要来自地层中海相硫酸盐的还原。矿石硫化物的铅同位素组成均一,~(206)Pb/~(204)Pb、~(207)Pb/~(204)Pb和~(208)Pb/~(204)Pb分别为17.999~18.919、15.554~15.798和38.088~38.576,铅模式年龄为437~534Ma,成矿金属可能主要来源于奥陶系—寒武系。方解石和闪锌矿样品中流体的δD_(SMOW)变化于-91.1‰~-15‰之间,δ~(18) Ofluid变化范围为-4.1‰~8.75‰,矿床成矿流体的主要来源是建造水和大气降水。成矿流体与围岩的水-岩反应是导致该区铅锌矿床中方解石和闪锌矿矿物沉淀结晶的主要机制。成矿流体~(87)Sr/~(86)Sr为0.70906~0.71022,高于赋矿围岩寒武系清虚洞组灰岩锶同位素比值0.70886~0.70921,表明成矿流体流经了清虚洞组下伏地层,并与其中具有高锶同位素比值的碎屑岩、页岩和泥岩等进行了水岩反应及同位素交换。 相似文献
6.
长坑矿田金,银矿床地球化学特征及形成差异分析 总被引:10,自引:0,他引:10
长坑矿田金、银矿体主要产于下石炭统与上三叠统不整合面之下的硅质岩中,金、银矿体分离。金矿体主要为浸染状,富集As、Sb、Hg;银矿体主要为脉状,富集Cu、Pb、Zn。金矿体铅同位素组成与寒武纪—石炭纪地层及硅质岩的相同,银矿体铅同位素组成与金矿体的不同。金、银矿体的氢、氧、碳同位素组成也明显不同。银矿体Rb-Sr等时线年龄为70.4Ma。据上述特征,笔者认为长坑金、银矿床是不同成矿作用形成的,金矿主要是热水沉积形成,银矿主要是燕山期晚期改造形成。 相似文献
7.
8.
辽宁高家堡子银矿床热液叠加成矿作用特征及流体来源分析 总被引:2,自引:0,他引:2
高家堡子银矿床是19世纪90年代在辽东地区发现并探明的一处大型独立银矿床,赋存于古元古代辽河群大石桥组大理岩中。主要矿石类型为硅化大理岩型和硅质岩型;热液成矿作用分为早期多金属硫化物-石英阶段及晚期银矿物-石英阶段。流体包裹体研究表明,早阶段石英中主要发育气液两相原生流体包裹体,均一温度180~260℃,盐度4.78%~9.47%,成矿流体属中温、低盐度的H2O-Na Cl体系;晚阶段石英中主要发育有气液两相原生流体包裹体,均一温度164.7℃~185.2℃,盐度2.76%~4.94%,成矿流体属低温、低盐度的H2O-Na Cl体系。流体包裹体碳、氢、氧同位素研究表明早阶段δDV-SMOW为-90.2‰~-92.6‰,δ18OH2O为2.1‰~4.9‰,δ13CV-PDB为-7.7‰~-17.7‰,反映成矿流体主要来源为岩浆水,伴随有少量大气降水;晚阶段δDV-SMOW为-117.1‰~-117.7‰,δ18OH2O为-10.2‰~-11.3‰,表明成矿流体主要来自大气降水。因此,高家堡子银矿床热液叠加成矿作用流体属中低温、低盐度H2O-Na Cl体系,早期以岩浆水为主,晚期主要来自大气降水。 相似文献
9.
晋北火山岩型金银矿床同位素地球化学特征 总被引:5,自引:0,他引:5
晋北地区是浅成低温热液金银矿床重要分布区。金银矿床与火山岩岩体密切相关。与成矿有关的石英斑岩、石岗斑岩基 Rb-Sr等时线年龄为136-167Ma,为燕山早中期产物,(87Sr/86Sr)。为0.7058-0.7065,属幔壳混源型。铅同位素资料表明,支家地银矿和刁泉银、金、铜矿铅同位素组成与高于庄组白云岩及有关次山岩岩石铅组成相似,可能均属壳幔混合源。耿庄金矿铅同位素属异常铅。金银矿床的δ34S值分布范围为-0.8‰-+9.6‰,算术平均值为3.8‰,为岩浆热液型特征。成矿流体氢氧同位素及碳酸盐的碳氧同 相似文献
10.
扬子陆块北缘马元铅锌矿床成矿物质来源探讨: 来自C、O、H、S、Pb、Sr同位素地球化学的证据 总被引:7,自引:3,他引:4
呈层状、似层状产于震旦系灯影组角砾状白云岩层间构造带中的马元铅锌矿床是近年来在扬子陆块北缘铅锌找矿的新突破。文章通过碳、氧、氢、硫、铅和锶同位素地球化学特征研究,探讨了成矿流体和成矿金属来源。研究结果表明:矿石中热液脉石矿物的δ13CPDB为-4.24‰~0.93‰,δ18OSMOW为15.92‰~23.24‰,表明成矿流体中的CO2为震旦系碳酸盐岩的溶解成因。矿石中硫化物的δ34S变化于12.94‰~19.4‰之间;硫酸盐矿物的δ34S为32.2‰~33.48‰,表明还原硫主要来自地层中海相硫酸盐的还原。矿石硫化物的铅同位素组成均一,206Pb/204Pb、207Pb/204Pb和208Pb/204Pb分别为17.62~18.02、15.49~15.63和37.57~38.35,成矿金属可能主要来源于震旦系—志留系。脉石矿物石英流体包裹体的δDFI为-92‰和-113‰,如果取成矿温度200℃,根据δ18O石英值计算的相应流体包裹体的δ18O水为6.03‰~12.73‰,推测成矿流体可能起源于大气降水为主的盆地卤水,或为其他来源的流体与有机质反应形成。成矿流体87Sr/86Sr为0.70967~0.71146,高于赋矿围岩震旦系灯影组白云岩锶同位素比值(0.70890~0.70945),表明成矿流体流经了古生代地层(及基底),并与其中具有高锶同位素比值的碎屑岩、页岩和泥岩等进行了水岩反应及同位素交换。 相似文献
11.
《International Geology Review》2012,54(7):904-916
Located in the western Yangtze Block, the Qingshan Pb–Zn deposit, part of the Sichuan–Yunnan–Guizhou Pb–Zn metallogenic province, contains 0.3 million tonnes of 9.86 wt.% Pb and 22.27 wt.% Zn. Ore bodies are hosted in Carboniferous and Permian carbonate rocks, structurally controlled by the Weining–Shuicheng anticline and its intraformational faults. Ores composed of sphalerite, galena, pyrite, dolomite, and calcite occur as massive, brecciated, veinlets, and disseminations in dolomitic limestones. The C–O isotope compositions of hydrothermal calcite and S–Pb–Sr isotope compositions of Qingshan sulphide minerals were analysed in order to trace the sources of reduced sulphur and metals for the Pb–Zn deposit. δ13CPDB and δ18OSMOW values of calcite range from –5.0‰ to –3.4‰ and +18.9‰ to +19.6‰, respectively, and fall in the field between mantle and marine carbonate rocks. They display a negative correlation, suggesting that CO2 in the hydrothermal fluid had a mixed origin of mantle, marine carbonate rocks, and sedimentary organic matter. δ34S values of sulphide minerals range from +10.7‰ to +19.6‰, similar to Devonian-to-Permian seawater sulphate (+20‰ to +35‰) and evaporite rocks (+23‰ to +28‰) in Carboniferous-to-Permian strata, suggesting that the reduced sulphur in hydrothermal fluids was derived from host-strata evaporites. Ores and sulphide minerals have homogeneous and low radiogenic Pb isotope compositions (206Pb/204Pb = 18.561 to 18.768, 207Pb/204Pb = 15.701 to 15.920, and 208Pb/204Pb = 38.831 to 39.641) that plot in the upper crust Pb evolution curve, and are similar to those of Devonian-to-Permian carbonate rocks. Pb isotope compositions suggest derivation of Pb metal from the host rocks. 87Sr/86Sr ratios of sphalerite range from 0.7107 to 0.7136 and (87Sr/86Sr)200Ma ratios range from 0.7099 to 0.7126, higher than Sinian-to-Permian sedimentary rocks and Permian Emeishan flood basalts, but lower than Proterozoic basement rocks. This indicates that the ore strontium has a mixture source of the older basement rocks and the younger cover sequence. C–O–S–Pb–Sr isotope compositions of the Qingshan Pb–Zn deposit indicate a mixed origin of the ore-forming fluids and metals. 相似文献
12.
Robert Marschik Tobias Bauer Ana-Sophie Hensler Nikos Skarpelis Stefan Hölzl 《Resource Geology》2010,60(4):335-347
The Pb-Zn-Ba(-Ag-Au) mineralization in the Triades and Galana mine areas is hosted in 2.5–1.4 Ma pyroclastic rocks, and structurally controlled mostly by NE-SW or N-S trending brittle faults. Proximal pervasive silica and distal pervasive sericite-illite alteration are the two main alteration types present at the surface. The distribution of mineralization-alteration in the district suggests at least two hydrothermal events or that hydrothermal activity lasted longer at Galana. The Sr isotope signature of sphalerite and barite (87Sr/86Sr = 0.709162 to 0.710214) and calculated oxygen isotope composition of a fluid in equilibrium with barite and associated quartz at temperatures of around 230°C are suggestive of a seawater hydrothermal system and fluid/rock interaction. Lead isotope ratios of galena and sphalerite (206Pb/204Pb from 18.8384 to 18.8711; 207Pb/204Pb from 15.6695 to 15.6976; 208Pb/204Pb from 38.9158 to 39.0161) are similar to those of South Aegean Arc volcanic and Aegean Miocene plutonic rocks, and compatible with Pb derived from an igneous source. Galena and sphalerite from Triades-Galana have δ34SVCDT values ranging from +1 to +3.6‰, whereas barite sulfate shows δ34SVCDT values from +22.8 to +24.4‰. The sulfur isotope signatures of these minerals are explained by seawater sulfate reduction processes. The new analytical data are consistent with a seawater-dominated hydrothermal system and interaction of the hydrothermal fluid with the country rocks, which are the source of the ore metals. 相似文献
13.
《International Geology Review》2012,54(15):1885-1901
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 δ18OH2O 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. 相似文献
14.
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 δ18Dw 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. 相似文献
15.
Peng Zhang Linlin Kou Yan Zhao Zhongwei Bi Deming Sha Renping Han Zhumin Li 《地学前缘(英文版)》2020,(2):547-563
TheWulong lode deposit contains over 80 tonnes of gold with an average grade of 5.35 g/t.It is one of the largest deposits in Dandong City,Liaoning Province in northeast China.Previous studies on the deposit focused on its geological characteristics,geochemistry,fluid inclusions,and the timing of gold mineralization.However,controversy remains regarding the origin of the ore-forming fluids and metals,and the genesis of the gold deposit.This paper presents zircon UePb and pyrite RbeSr ages and S,Pb,He,and Ar isotopic results along with quartz H and O isotopic data for all litho-units associated with the deposit.Laser ablation inductively coupled mass spectrometry measurements yielded zircon UePb dates for samples of pre-mineralization rocks like granite porphyry dike,the Sanguliu granodiorite,fine-grained diorite,and syn-mineralization diorite,as well as post-mineralization dolerite,and lamprophyre;their emplacement ages are 1261 Ma,1241 Ma,1231 Ma,1201 Ma,1192 Ma,and 1152 Ma,respectively.The pyrite RbeSr isochron age is 1191 Ma,indicating that both magmatism and mineralization occurred during the Early Cretaceous.The d18OH2O values of ore-forming hydrothermal fluids from the quartzepolymetallic sulfide vein stage vary from 4.8&to 6.5&,and the dDV-SMOW values are between67.7&and75.9&,indicating that the ore-forming fluids were primarily magmatic.The noble gas isotope compositions of fluid inclusions hosted in pyrite suggest that the ore-forming fluids were dominantly derived from crustal sources with minor mantle input.Sulfur isotopic values of pyrite vary between 0.2&and 3.5&,suggesting that S was derived from a homogeneous magmatic source or possibly from fluids derived from the crust.The Pb isotopic compositions of sulfides(207Pb/204Pb?15.51 e15.71,206Pb/204Pb?17.35e18.75,208Pb/204Pb?38.27e40.03)indicate that the Pb of the Wulong gold deposit is a mixture of crust and mantle components.Geochronological and geochemical data,together with the regional geological history,indicate that Early Cretaceous magmatism and mineralization of the Wulong gold deposit occurred during the rollback of the subducting Paleo-Pacific Plate,which resulted in lithospheric thinning and the destruction of the North China Craton(NCC),which indicates that the deposit is of magmaticehydrothermal origin. 相似文献
16.
在前人研究成果的基础上,对江西新余良山钼矿床的地质特征进行了详细研究,系统测试了矿床中石英脉型钼矿石样品的氢、氧、硫和铅同位素组成,进而探讨钼矿床的成矿流体性质以及成矿物质来源。良山钼矿床δD值变化范围-61‰~ -57.9‰,平均值-59.1‰;δ18OV-SMOW值变化于7.1‰~10.5‰,平均值9.2‰,流体的δ18OH2O值变化于-3.32‰~-0.52‰,平均值-1.52‰,表明成矿流体具有岩浆水和大气降水混合流体特征。硫化物的δ34SV-CDT值为-1.8‰~2.6‰,极差4.4‰,平均值1.12‰,其中黄铁矿δ34SV-CDT值为-1.8‰~2.6‰,辉钼矿δ34SV-CDT值为0.8‰~2.3‰,硫同位素表现为较小的正值特征,具有典型的岩浆硫组成特点。良山钼矿石中的矿石铅同位素206Pb/204Pb值为17.555~19.474,207Pb/204Pb值15.486~15.768,208Pb/204Pb值37.942~39.943,μ值9.35~9.7,ω值37.06~38.31,Th/U值3.8~3.96,矿石铅为混合铅,表明成矿物质为混合来源。良山钼矿床应为岩浆热液型-石英脉型钼矿床,是中生代华南板块板内构造演化区域金属成矿作用大爆发的产物。 相似文献
17.
辽东林家三道沟-小佟家堡子地区金(银)矿成矿特征及成因 总被引:1,自引:0,他引:1
以林家三道沟、小佟家堡子金(银)矿床为例,系统总结了区内金(银)矿床的成矿条件及地质特征,对矿床的相关岩体、围岩及矿石进行了流体包裹体、稳定同位素测试分析。结果表明:矿床赋存于古元古界辽河群大石桥亚群杨树沟岩组第6岩段碎屑岩-碳酸盐岩建造和盖县亚群汤家沟岩组碎屑岩建造中;主要容矿岩石为硅化大理岩、变粒岩、片岩;近矿围岩蚀变主要为硅化、绢云母化、黄铁矿化和碳酸盐化;自然金的粒度以显微不可见金为主;均一温度(100~200 ℃)、成矿流体盐度(w(NaCl)(1.91 % ~9.73%)均较低;矿石石英中成矿流体δD值为-48.0‰~-93.0‰,δ18OH2O计算值为-8.63‰~+1.31‰,表明成矿流体主要来自于地热水和原生地层水;矿石硫同位素δ34S值平均为+8.61‰,赋矿围岩、岩体δ34S为+0.50‰~+7.6‰,表明矿石中硫主要来自古元古代地层和印支晚期岩体;金(银)矿石中206Pb/204Pb为17.664~19.186 7,207Pb/204Pb为15.044~15.883,208Pb/204Pb为37.693~38.784,铅源具有壳幔混合源特点。矿床成因类型为沉积变质-岩浆热液叠加型。 相似文献
18.
通过成矿期方解石的C、O、Sr和含硫矿物的S、Pb同位素,成矿期方解石Sm-Nd测年研究,探讨白秧坪矿集区东矿带矿床成因。测试结果表明,白秧坪矿集区东矿带方解石δ13CPDB值变化范围-4.0‰~2.3‰,平均值-0.2‰,δ18OPDB值范围-27.2‰~20.4‰,平均值-14.1‰,δ18OSMOW值范围2.9‰~24.4‰,平均值16.4‰;方解石Sr同位素值变化范围0.707669~0.710115,平均值0.709320;硫化物δ34SV-CDT值分布范围-20.2‰~1.3‰,平均值约-8.8‰,天青石δ34SV-CDT值分布范围为17.1‰~19.4‰,平均值约18.0‰;Pb同位素测试结果中,206Pb/204Pb的变化范围为18.553~18.857,207Pb/204Pb变化范围为15.501~15.826,208Pb/204Pb变化范围为38.54~39.456;成矿阶段方解石Sm-Nd等时线年龄为29.5±1.7 Ma。对测试结果的研究表明,白秧坪矿集区东矿带碳质的来源较为均一,矿石中热液方解石碳质源自地层中碳酸盐岩溶解,成矿流体来自地层水和大气降水,属于盆地卤水流体系统;成矿物质硫来自海水硫酸盐的还原作用,成矿早期以有机质还原硫为主,成矿后期以生物还原硫为主;金属成矿物质来自沉积地层和盆地基底;测定白秧坪矿集区东矿带铅锌成矿年龄为29.5±1.7 Ma,与地质年龄限定的较为吻合。 相似文献
19.
The Heilangou gold deposit is located in the northern QixiaePenglai gold belt, which is one amongst the three large gold belts in the eastern Shandong Province (Jiaodong Peninsula). The ore body has formed within the Guojialing granite. In this study, we report the mineral chemistry of pyrite, as well as the S, Pb, and HeO isotope data of the Heilangou gold deposit. The chemical composition of pyrite in the Heilangou gold deposit indicates that the associated gold deposit is a typical magmatic hydrothermal one. The geochemical signatures and crystal structure of pyrite show that the ore-forming materials have been derived from the crust. The S isotope data of the pyrites from Heilangou show an overall range from 5.5 to 7.8&amp;and an average of 6.7&amp;. The S isotope data in this deposit are similar to those from the deposits in the Jiaodong gold belt. The Pb and S isotope variations are small in the Heilangou gold deposit. The 206Pb/204Pb, 207Pb/204Pb and 208Pb/204Pb ratios are 17.4653e17.5958, 15.5105e15.5746 and 38.0749e38.4361, respec-tively. These data plot between the lower crust and the orogenic belt. The Pb isotope data in the Heilangou gold deposit are similar to those in the Linglong gold deposit. From the Qixia gold area (the Liukou and Majiayao gold deposits) to the MupingeRushan gold belt (Rushan gold deposit) to the ZhaoeYe gold belt (the Linglong, Sanshandao and Jiaojia gold deposits), the 206Pb/204Pb ratios progressively increase. The DeO isotope data obtained from quartz separates suggest that the ore-forming fluid was similar to a mixture of magmatic and meteoric waters. These results suggest that the ore-forming elements were primarily from source fluids derived from the lower crust. 相似文献