共查询到20条相似文献,搜索用时 812 毫秒
1.
雄村矿区位于西藏冈底斯斑岩铜成矿带,是唯一一个与洋壳俯冲有关斑岩型矿床。通过对雄村斑岩型铜金矿床硫、铅同位素进行研究,揭示成矿物质来源。研究表明上述矿体的金属硫化物的δ34S变化于-2.7‰~2.7‰,平均值为-0.32‰,分布范围较窄,来源单一,成矿热液的δ34S∑S均表现为深源岩浆硫。矿石金属硫化物的铅同位素206Pb/204Pb为17.972~18.752,平均值为18.437;207Pb/204Pb为15.497~15.733,平均值为15.585;208Pb/204Pb为38.001~39.153,平均值为38.561。另外铅同位素的相关参数表现为异常铅。在铅同位素判别图解中,表明雄村矿区金属硫化物的铅主要来源于地幔物质,可能有少量俯冲沉积物混入。 相似文献
2.
闽中梅仙铅锌多金属矿产于中—新元古代“变质基底天窗”绿片岩系中,目前对其成矿物质来源、矿床成因认识不一。对该矿区的丁家山和峰岩铅锌多金属矿床主成矿期的闪锌矿和方铅矿等金属硫化物进行S、Pb同位素分析,结果表明:丁家山和峰岩矿床的硫、铅同位素组成基本一致,其金属硫化物的δ34S值分别为0.4‰~5.0‰和1.8‰~4.2‰,平均值则分别为2.66‰和2.88‰,表明硫为幔源硫。金属硫化物的铅同位素组成206Pb/204Pb、207Pb/204Pb和208Pb/204Pb值则分别为18.326~18.496和18.378~18.646、15.658~15.817和15.619~15.746、38.724~39.257和38.365~39.009,平均值则分别为18.388和18.447、15.705和15.700、38.880和38.823,表明2矿床铅均为壳幔混合源铅。综合硫、铅同位素分析结果,认为丁家山和峰岩铅锌多金属矿床成矿物质主要来自燕山期花岗(斑)岩。结合矿床、矿体地质特征分析,丁家山和峰岩铅锌多金属矿的形成主要与燕山期花岗(斑)岩侵入接触交代作用有关。 相似文献
3.
内蒙古东乌旗阿尔哈达铅-锌-银矿床硫和铅同位素研究 总被引:5,自引:0,他引:5
阿尔哈达铅-锌-银矿床是近年来在内蒙古东乌珠穆沁旗境内发现的一处大型铅-锌-银矿床,其产出环境和形成机理为国内外矿床学家所关注。对该矿床代表性岩(矿)石样品进行了硫和铅同位素分析,并对其变化规律和成因意义进行了讨论。研究结果表明,围岩和矿石中硫化物δ34S值变化范围为1.2‰~8.6‰,具有混源硫特征。根据共生硫化物对所确定的温度表明,该矿床的形成可划分为高温和中-低温两个阶段。17件矿石硫化物样品206Pb/204Pb、207Pb/204Pb和208Pb/204Pb比值变化范围分别为18.153~18.431,15.370~15.602和37.653~38.213,其平均值分别为18.271、15.464和37.873;3件围岩硫化物样品206Pb/204Pb、207Pb/204Pb和208Pb/204Pb比值变化范围分别为18.281~18.293,15.470~15.484和37.874~37.909,平均值分别为18.288、15.477和37.893。硫和铅同位素研究结果表明,阿尔哈达铅-锌-银矿床成矿物质分别来自泥盆系火山-沉积岩和印支期花岗岩。 相似文献
4.
哈毕力格铀矿床位于华北陆块北缘中段,主要受乌兰哈达—猴儿山背斜和区内断裂控制。铀矿化主要产于新太古界乌拉山群第二岩段石英岩中,一直被认为是变质成因铀矿床。在分析该矿床成矿地质背景和矿化特征的基础上,系统研究了矿石与围岩中黄铁矿的硫、铅同位素特征。数据表明,硫同位素组成变化于-4.7‰~12.9‰之间,暗示成矿流体主要来自岩浆热液,同时遭受了地层物质的混染。铅同位素组成(208Pb/204Pb=36.147~42.968,207Pb/204Pb=15.919~34.268, 206Pb/204Pb=19.488~168.032)远高于单阶段演化模式组成,不同样品的207Pb/204Pb-206Pb/204Pb线性关系良好,为典型的二阶段铅同位素演化体系,表明变质地层为成矿作用提供了铀源。通过放射性207Pb/206Pb计算,结合区域岩浆演化,认为古元古代(~1 805 Ma)区域变质作用促使乌拉山群铀发生初步富集,晚古生代(374 Ma)花岗闪长质岩浆分异出大量流体活化萃取变质地层中的铀,在有利构造空间富集成矿。 相似文献
5.
云南金平铜厂金矿床地质特征和成矿物质来源 总被引:3,自引:0,他引:3
铜厂金矿床位于哀牢山造山带金平古生代盖层构造单元的中南部.金矿化分布于奥陶系下统复理石碎屑岩和志留系中-上统白云岩之间的北西走向断裂破碎带中.含金矿物主要为自然金和银金矿,附着于黏土矿物或赋存于石英、黄铁矿、毒砂裂隙和胶结物的颗粒间.矿石为细脉状、浸染状和团块状构造.围岩蚀变为碳酸盐化、硅化、绢云母化等.金矿石黄铁矿δ34S为0.337‰~3.113‰,208Pb/204Pb、207Pb/204Pb和206Pb/204Pb分别为39.3814~40.1504、15.7093~15.7727和19.002~19.5492.矿区石英正长斑岩δ34S为-1.118‰~-0.161‰,208Pb/204Pb、207Pb/204Pb和206Pb/204Pb分别是39.0817~39.2278、15.653~15.6805和18.8186~18.8612.金矿石黄铁矿的硫不是来源于石英正长斑岩,铅来源于上地壳.石英正长斑岩铅为上地壳和下地壳或上地幔混合来源铅.金矿床可能是在新生代岩浆-构造作用晚期,断裂构造中循环的热液汲取上地壳沉积围岩中的金等成矿物质形成的含矿流体,在断裂构造带压力和温度较低部位通过充填和交代作用形成的. 相似文献
6.
新疆伽师砂岩型铜矿床地质及S、Pb同位素地球化学 总被引:4,自引:1,他引:3
西南天山新生代山前盆地中的伽师铜矿是新疆近年发现和开发的一个重要的砂岩型铜矿,矿体产于古近系灰白色含岩屑钙质细砂岩中,呈与地层整合的板状、层状。矿石中硫化物主要为辉铜矿,矿体深部出现斑铜矿,极少量黄铁矿、闪锌矿等,硫化物多交代砂岩中胶结物或碎屑颗粒形成胶结结构,矿石发育稀疏浸染状、团块状、结核状等多种构造。矿石的硫同位素δ34SV-CDT在-33.4‰~-24.6‰之间。矿石的铅同位素组成206Pb/204Pb=18.376~18.607、207Pb/204Pb=15.612~15.655、 208Pb/204Pb=38.475~38.747。铜的硫化物矿化表现为含铜盆地流体(地下水)交代砂岩而沉淀,铜矿体形成于古近系细砂岩成岩晚期,矿石硫来源于细菌还原硫酸盐,矿石铅同位素组成指示成矿金属元素来自沉积盆地周围的蚀源区。 相似文献
7.
桃源铅锌矿床是辽东青城子矿集区中部新发现的一个中型铅锌矿床,矿体赋存于古元古界辽河群大石桥组,受地层和断裂控制明显。目前缺乏针对该矿床的成矿物质来源研究,导致对矿床成因认识不清。本文在详细野外调研和室内镜下观察的基础上,系统地研究了桃源铅锌矿床的硫、铅同位素特征。分析结果显示:桃源铅锌矿床中硫化物的δ34S值区间为3.5‰~8.9‰,平均为5.5‰,显示了具有幔源硫的特征;铅同位素206Pb/204Pb、207Pb/204Pb和208Pb/204Pb分别为17.969~18.309(均值为18.076)、15.572~15.669(均值为15.617)和38.222~38.371(均值为38.312),μ值变化范围为9.46~9.62(均值为9.55),绝大多数低于地壳正常值。在铅同位素判别图解上位于上地壳与地幔铅同位素演化线之间,显示了具有壳幔混合的特点。桃源铅锌矿床的硫、铅同位素组成与青城子铅锌-金银矿集区和印支期岩体类似,成矿热液来自深部岩浆,与辽河群围岩的硫、铅同位素分布有明显的不同。因此,初步认为桃源铅锌矿床是与深部岩浆流体活动有关的岩浆热液型铅锌矿床。 相似文献
8.
为探讨多龙矿集区拿若铜(金)矿床的成矿物质来源,研究矿床成矿机制,本文在详细的野外地质调查和矿石学研究基础上对矿石样品进行硫和铅同位素分析,并对成因意义进行讨论。研究结果表明,17件金属硫化物的δ34S值变化于-2.3‰~2.3‰之间,均值为-0.1‰;其中13件黄铁矿δ34S值变化范围为-2.3‰~2.3‰,均值为0.2‰;4件黄铜矿的δ34S值变化范围为-1.5~-0.8‰,均值为-1.1‰。δ34S值频率直方图总体具有塔式分布特征,平均值接近于零,具幔源硫特征。金属硫化物的208Pb/204Pb介于38.209~38.854之间,平均值为38.635;207Pb/204Pb变化范围为15.541~15.665,平均值为15.605;206Pb/204b为17.942~18.580,平均值为18.461,具有正常铅的特征。铅同位素μ值变化范围为9.40~9.57,均... 相似文献
9.
西藏则不吓铅锌矿床位于冈底斯成矿带北缘西部,矿体主要赋存于古近系林子宗群典中组火山碎屑岩中。在分析成矿地质条件的基础上,系统地研究该矿床矿石硫、铅同位素组成特征,探讨其成矿物质来源。结果表明,则不吓铅锌矿床金属硫化物样品的δ34S值变化于-0.6‰~2.7‰之间,变化范围较窄,具有明显的塔式分布特征,显示硫来源较单一,具有岩浆硫的特征,可能与区内花岗斑岩及深部相关的隐伏岩体有关。矿石铅的206Pb/204Pb、207Pb/204Pb和208Pb/204Pb同位素比值十分稳定,变化范围较小,具正常铅特征;根据铅同位素μ值(9.61~10.0)和构造演化模式图投图结果,反映该矿床矿石铅主要来自于上地壳物质。结合区域成岩成矿事件和矿区地质特征,认为该矿床成矿物质很可能来源于印亚大陆主碰撞时期上地壳部分熔融形成的中酸性岩浆。 相似文献
10.
太行山木吉村斑岩铜(钼)矿床岩石地球化学、Sr-Nd-Pb同位素特征及其地质意义 总被引:2,自引:0,他引:2
木吉村斑岩铜(钼)矿床位于太行山北段涞源杂岩体的腰部,是太行山构造-岩浆-成矿带的一个重要矿床。在野外调研的基础上,对木吉村斑岩铜(钼)矿床含矿岩体进行了系统的岩石学、地球化学和Sr-Nd-Pb同位素研究。结果表明:木吉村矿床的含矿岩体闪长玢岩为高钾钙碱性I型侵入岩,具有较高的SiO2、Al2O3、Sr含量和Sr/Y比值以及(La/Yb)N,较低的Yb、Y的特征;稀土元素配分曲线呈右倾趋势,轻稀土相对富集,轻重稀土分异明显,具微弱的正Eu异常;微量元素蛛网图中富集大离子亲石元素Ba、K、U、Sr,亏损高场强元素Nb、Ta、P、Ti,总体显示出与埃达克岩相似的地球化学特征。闪长玢岩的ISr为0.705 386~0.706 838,εNd(t)为-16.7~-14.9,208Pb/204Pb、207Pb/204Pb、206Pb/204Pb的平均值分别为36.614、15.226、16.545,与木吉村矿床矿石中的硫化物铅同位素数值基本一致,Sr-Nd-Pb同位素共同表明其岩浆形成可能与有深源基性物质参与的古老下地壳部分熔融有关。结合研究区地质背景,认为木吉村含矿岩体可能主要来自古老下地壳的部分熔融,并受到幔源物质的混染作用。 相似文献
11.
为了明确内蒙古别鲁乌图铜多金属矿床的成矿年龄与矿床成因,对该矿床中与成矿关系密切的流纹岩进行了锆石U-Pb年龄以及主要金属硫化物的S、Pb同位素测试。其中流纹岩的锆石206Pb/238U加权平均年龄为(271.7±1.6)Ma(MSWD=1.02),显示成矿作用发生于二叠纪。金属硫化物的S同位素分析结果显示δ34SV-CDT值分布在-0.6‰~1.0‰之间,平均为0.49‰,变化范围较窄,显示S的来源单一;Pb同位素组成比较集中,206Pb/204Pb为18.207~18.674,207Pb/204Pb为15.620~15.699,208Pb/204Pb为38.144~38.790,具有壳幔混源的特征。S、Pb同位素特征均指示成矿物质主要来源于岩浆热液。结合区域地质、矿床地质、空间分带等特征以及S、Pb同位素组成可知,别鲁乌图铜多金属矿床为VHMS型矿床,形成于二叠纪陆缘弧裂谷中。 相似文献
12.
《Resource Geology》2018,68(3):227-243
As a newly discovered medium‐sized deposit (proven Pb + Zn resources of 0.23 Mt, 9.43% Pb and 8.73% Zn), the Dongzhongla skarn Pb–Zn deposit is located in the northern margin of the eastern Gangdese, central Lhasa block. Based on the geological conditions in this deposit of ore‐forming fluids, H, O, C, S, Pb, Sr, and noble gas isotopic compositions were analyzed. Results show that δ18OSMOW of quartz and calcite ranged from −9.85 to 4.17‰, and δDSMOW ranged from −124.7 to −99.6‰ (where SMOW is the standard mean ocean water), indicating magma fluids mixed with meteoric water in ore‐forming fluids. The δ13CPDB and δ18OSMOW values of calcite range from −1.4 to −1.1‰ and from 5.3 to 15.90‰, respectively, show compositions consistent with the carbonate limestone in the surrounding rocks, implying that the carbon was primarily sourced from the dissolution of carbonate strata in the Luobadui Formation. The ore δ34S composition varied in a narrow range of 2.8 to 5.7‰, mostly between 4‰ and 5‰. The total sulfur isotopic value δ34S was 4.7‰ with characteristics of magmatic sulfur. The 3He/4He values of pyrite and galena ranged from 0.101 to 5.7 Ra, lower than those of mantle‐derived fluids (6 ± 1 Ra), but higher than those of the crust (0.01–0.05 Ra), and therefore classified as a crust–mantle mixed source. The Pb isotopic composition for 206Pb/204Pb, 207Pb/204Pb, and 208Pb/204Pb values of the ores were in the ranges of 18.628–18.746, 15.698–15.802, and 39.077–39.430, respectively, consistent with the Pb isotopic composition of magmatic rocks in the deposit, classified as upper‐crust lead. The ore lead was likely sourced partially from the crustal basement of the Lhasa Terrane. The initial (87Sr/86Sr)i value from five sulfide samples ranged from 0.71732 to 0.72767, and associated ore‐forming fluids were mainly sourced from the partial melting of the upper‐crust materials. Pb isotopic compositions of ore sulfides from the Dongzhongla deposit are similar to that of the Yuiguila and Mengya'a deposit, indicating that they have similar sources of metal‐rich ore‐forming solution. According to basic skarn mineralogy, the economic metals, and the origin of the ore‐forming fluids, the Dongzhongla deposit was classified as a skarn‐type Pb–Zn deposit. 相似文献
13.
Shigang DUAN Chunji XUE Guoxiang CHI Guoyin LIU Changhai YAN Qiwei FENG Yaowu SONG 《Resource Geology》2011,61(3):224-240
The Chitudian Zn‐Pb ore deposit, Luanchuan, Henan province, was recently discovered in the southern margin of the North China Craton. The Zn‐Pb orebodies are hosted in the Proterozoic Guandaokou and Luanchuan Groups, occurring as veins in interbedding fracture zones mainly in a WNW‐ and partially in a NS‐direction. The Zn‐Pb ores are characterized by banded, massive, and breccia structures, coarse crystal grains, and a simple mineral composition mainly of galena, sphalerite, pyrite, quartz, dolomite, and calcite. In addition to the vein type orebodies, there are Mo‐ and Zn‐bearing skarn orebodies in the northwest of the Chitudian ore field. Four types of primary fluid inclusions in quartz and calcite were recognized in the Chitudian Zn‐Pb ores, including aqueous, aqueous‐CO2, daughter‐mineral‐bearing aqueous, and daughter‐mineral‐bearing aqueous‐CO2 inclusions, with aqueous inclusion being most common. The homogenization temperatures of the fluid inclusions from the main mineralization stage are from 290°C to 340°C, and the salinities mainly from 3.7 to 14.8 wt% NaCl equivalent. In addition to CO2, CH4 and H2S were detected in the vapor phase and HS‐ in the liquid phase of the fluid inclusions by Laser Raman spectroscopy. The δ34SV‐CDT values of ore sulfides from the Chitudian deposit range from ?0.32‰ to 8.30‰, and show two modal peaks in the histogram, one from 1‰ to 4‰, and the other from 5‰ to 7‰. The former peak is similar to that of porphyry‐type Mo‐W deposits in the area, whereas the latter is relatively close to the sulfur in the strata. The ore sulfur may have been derived from both the magma and the strata. The Pb‐isotopic compositions of the ore minerals from Chitudian, with 206Pb/204Pb from 17.005 to l7.953, 207Pb/204Pb from 15.414 to 15.587, and 208Pb/204Pb from 37.948 to 39.036, are similar to those of Mesozoic porphyries in the Chitudian ore field, suggesting that the ore‐forming metals were mainly derived from the Mesozoic magmatic intrusions. The Chitudian Zn‐Pb deposit is interpreted to be a distal hydrothermal vein‐type deposit, which was genetically related to the proximal, skarn‐type Mo ore deposits in the region. 相似文献
14.
The Chengchao iron deposit,the largest high-grade skarn iron deposit in southeastern Hubei Province,contains considerable amounts of magnetite and by-product anhydrite.To obtain better understanding of the ore-formation process,this study carried out He-Ar-S-Pb multi-isotopic analyses on the pyrites formed during two stages of mineralization.The results indicate that the δ~(34)S values(ranging from 14.0‰ to 17.6‰) of pyrites formed from the two stages have no obvious differences,suggesting that they were not derived from a single magmatic sulfur source.The δ~(34)S values of anhydrite mostly range from 21.9‰ to 28.4‰,similar to that of the Middle Triassic sedimentary anhydrite in the Middle-Lower Yangtze River metallogenic belt(MLYRB).The Pb isotopic compositions of the pyrites of both stages are homogeneous,with values of ~(208)Pb/~(204)Pb,~(207)Pb/~(204)Pb,and~(206)Pb/~(204)Pb being 38.006-38.257,15.523-15.556,and 17.806-18.052,respectively,indicating a mixed crust-mantle source.The He-Ar results exhibit different compositions of the two stages:the ~3He/~4He(R/Ra) and ~(40)Ar/~(36)Ar values for the early-stage pyrite are 0.46-0.63 and 311-322,respectively,whereas the values for late-stage pyrite are 0.23-0.34 and 305-361,respectively.Both stages of pyrites indicate the multiple sources of the ore-forming fluids,with decreasing amount of magmatic water and increasing amount of modified meteoric water(MASW) during fluid evolution.The Triassic evaporites played an important role in the mineralization process. 相似文献
15.
The Huangshaping Pb–Zn–W–Mo polymetallic deposit, located in southern Hunan Province, China, is one of the largest deposits in the region and is unique for its metals combination of Pb–Zn–W–Mo and the occurrence of significant reserves of all these metals. The deposit contains disseminated scheelite and molybdenite within a skarn zone located between Jurassic granitoids and Carboniferous sedimentary carbonate, and sulfide ores located within distal carbonate-hosted stratiform orebodies. The metals and fluids that formed the W–Mo mineralization were derived from granitoids, as indicated by their close spatial and temporal relationships. However, the source of the Pb–Zn mineralization in this deposit remains controversial.Here, we present new sulfur, lead, and strontium isotope data of sulfide minerals (pyrrhotite, sphalerite, galena, and pyrite) from the Pb–Zn mineralization within the deposit, and these data are compared with those of granitoids and sedimentary carbonate in the Huangshaping deposit, thereby providing insights into the genesis of the Pb–Zn mineralization. These data indicate that the sulfide ores from deep levels in the Huangshaping deposit have lower and more consistent δ34S values (− 96 m level: + 4.4‰ to + 6.6‰, n = 13) than sulfides within the shallow part of the deposit (20 m level: + 8.3‰ to + 16.3‰, n = 19). The δ34S values of deep sulfides are compositionally similar to those of magmatic sulfur within southern Hunan Province, whereas the shallower sulfides most likely contain reduced sulfur derived from evaporite sediments. The sulfide ores in the Huangshaping deposit have initial 87Sr/86Sr ratios (0.707662–0.709846) that lie between the values of granitoids (0.709654–0.718271) and sedimentary carbonate (0.707484–0.708034) in the Huangshaping deposit, but the ratios decreased with time, indicating that the ore-forming fluids were a combination of magmatic and formation-derived fluids, with the influence of the latter increasing over time. The lead isotopic compositions of sulfide ores do not correlate with sulfide type and define a linear trend in a 207Pb/204Pb vs. 206Pb/204Pb diagram that is distinct from the composition of the disseminated pyrite within sedimentary carbonates and granitoids in the Huangshaping deposit, but is similar to the lead isotopic composition of sulfides within coeval skarn Pb–Zn deposits in southern Hunan Province. In addition, the sulfide ores have old signatures with relative high 207Pb/206Pb ratios, suggesting that the underlying Paleoproterozoic basement within southern Hunan Province may be the source of metals within the Huangshaping deposit.The isotope geochemistry of sulfide ores in the Huangshaping deposit shows a remarkable mixed source of sulfur and ore-forming fluids, and the metals were derived from the basement. These features are not found in representative skarn-type Pb–Zn mineralization located elsewhere. The ore-forming elements (S, Pb, and Zn) from the granitoids made an insignificant contribution to sulfide precipitation in this deposit. However, the emplacement of granitoids did provide large amounts of heat and fluids to the hydrothermal system in this area and extracted metals from the basement rocks, indicating that the Jurassic magmatism associated with the Huangshaping deposit was crucial to the Pb–Zn mineralization. 相似文献
16.
The Zhongdian area in Yunnan, southwestern China, located at the southern end of the Yidun volcano-magmatic arc that was formed during the Triassic westward subduction of the Gaze-Litang Ocean, hosts numerous Triassic large porphyry and skarn deposits. The arc suffered Jurassic to Cretaceous arc-continental orogenic collision and Cenozoic intracontinental strike-slip shearing. The Hongshan Cu (–Mo–Pb–Zn) deposit is potentially a large deposit and contains two ore types: 1) predominant layered skarn Cu–(Pb–Zn) ores along marble-hornfels contacts; and 2) minor crosscutting vein-type Cu–Mo mineralization. Previous research forwards a two-stage genetic model without sufficient dating evidence, supposing the skarn mineralization is related to the Triassic calc-alkalic intrusions and the vein-type mineralization related to Cretaceous quartz monzonite porphyries. Re–Os dating of molybdenite from vein-type ores and quartz monzonite porphyries and that of pyrrhotite from skarn ores are presented here to constrain the mineralization age and rebuild the genetic model. Analyses of eight molybdenite samples yield an isochron age of 79.7 ± 3.1 Ma (MSWD = 9.2) for the vein-type mineralization and a model age of 81.9 ± 1.1 Ma for the quartz monzonite porphyries. Isotope data on seven pyrrhotite samples from the skarn ores yield an isochron age of 79 ± 16 Ma z(MSWD = 8.4). The Re–Os ages for the two ore types are concordant within analytical errors, indicating that the Hongshan deposit was formed in the Late Cretaceous. Elevated Re contents in molybdenite (13.65 to 63.91 μg/g) and extremely radiogenic initial 187Os/188Os ratios in pyrrhotite (0.7673 to 0.8184; weighted average 0.796 ± 0.038), together with elevated γOs values in pyrrhotite (507 to 547; average 528) imply a significant crustal component in the ore-forming materials that was likely derived from a lower crustal reservoir. Combined with the tectonic evolution of the Zhongdian area and geochemical characteristics of corresponding intrusions, the ages of mineralization obtained in this study indicate that the Hongshan deposit was formed in a post-collision setting with a genetic relationship to the emplacement of the quartz monzonite porphyry. These results provide significant new information for the study and exploration of the Late Cretaceous metallogeny in the Zhongdian area. 相似文献
17.
Regional Metallogenesis of the Chang’an Gold Ore Deposit in Western Yunnan: Evidences from Fluid Inclusions and Stable Isotopes 总被引:2,自引:0,他引:2
<正>The Chang'an gold ore deposit in western Yunnan is located at the southern segment of the Ailaoshan metallogenic belt.The ore bodies are preserved in fractured Ordovician sedimentary clastic rocks.The gold-bearing minerals occur dominantly in sulfide-quartz veins.Fluid inclusion analysis shows that the Chang'an gold ore deposit is characterized by epithermal gold mineralization at temperatures between 200℃and 280℃at a shallow crustal level.The mineralizing fluids have intermediate to low salinity(6%-18%) and low densities(0.72-1.27 g/cm~3).The ore minerals haveδ~(34)S in a range from -13‰to 3.57‰,concentrated from -2.06‰to 3.57‰with an average of 1.55‰.The ~(206)Pb/~(204)Pb,~(207)Pb/~(204)Pb and ~(208)Pb/~(204)Pb values are 18.9977-19.5748,15.7093-15.784,39.3814-40.2004 respectively.These isotope data suggest that the ore-forming elements were mainly derived from mixed crustal and mantle sources.The Chang'an gold ore deposit and Tongchang Cu-Mo deposit are closely related to each other in their spatial distribution and age of formation.They have similar sources of mineralizing elements and identical ore-forming metal elements,and show a close relationship in physical and chemical conditions of mineralization.The two deposits constitute an epithermal-porphyry -skarn type Cu-Mo-Au mineralization system in the Tongchang-Chang'an area,which is related to the Cenozoic high-K alkaline magmatism. 相似文献
18.
Geology and Lead-Isotope Study of the Baiyinnuoer Zn-Pb-Ag Deposit, South Segment of the Da Hinggan Mountains, Northeastern China 总被引:6,自引:0,他引:6
Qingdong Zeng Jianming Liu Zuolun Zhang Changshun Jia Changming Yu Jie Ye Hongtao Liu 《Resource Geology》2009,59(2):170-180
The Baiyinnuoer deposit (32.74 Mt ore with grades of 5.44% Zn, 2.02% Pb and 31.36 g t?1 Ag), the largest Zn‐Pb‐Ag deposit in northern China, is hosted by crystalline limestone and slate of the Early Permian Huanggangliang Formation. Detailed cross‐section mapping indicates stratigraphic and fold structural controls on the mineralization. The Zn‐Pb‐Ag mineralization is hosted predominantly by skarn, which occurs as bedding‐parallel lens that pinch out at the margins of the main economic zone. Three skarn stages are identified at the deposit: (i) garnet‐clinopyroxene; (ii) sulfides; and (iii) carbonate‐epidote. Lead isotopic compositions were determined for galena and sphalerite of the ores, whole rock samples of the Yanshanian granite and granodiorite, Permian marble and tuff, and Jurassic volcanic and subvolcanic rocks in and around the Baiyinnuoer area in order to discuss the sources of ore‐forming materials and the relationship between the ore formation and these whole rocks. Galena and sphalerite of the Baiyinnuoer ore have uniform isotopic ratios (206Pb/204Pb, 18.267–18.369; 207Pb/204Pb, 15.506–15.624; 208Pb/204Pb, 38.078–38.394) consistent with the granite and granodiorite (206Pb/204Pb, 18.252–18.346; 207Pb/204Pb, 15.504–15.560; 208Pb/204Pb, 38.141–38.320), whereas the ratios for Jurassic volcanic and subvolcanic rocks are variable and radiogenic (206Pb/204Pb, 18.468–18.614; 207Pb/204Pb, 15.521–15.557; 208Pb/204Pb, 38.304–38.375). These results indicate that the mineralization was not related to the Jurassic volcanism, but to the Yanshanian magmatism. The Permian strata may have a slight contribution to the mineralization. All features show that the Baiyinnuoer deposit is related to the Yanshanian granitic magmatism, and can be classified as a zinc‐lead‐silver skarn deposit. 相似文献
19.
H-O-S-Cu-Pb Isotopic Constraints on the Origin of the Nage Cu-Pb Deposit, Southeast Guizhou Province, SW China 总被引:1,自引:0,他引:1
The Nage Cu-Pb deposit,a new found ore deposit in the southeast Guizhou province,southwest China,is located on the southwestern margin of the Jiangnan Orogenic Belt.Ore bodies are hosted in slate and phyllite of Neoproterozoic Jialu and Wuye Formations,and are structurally controlled by EW-trending fault.It contains Cu and Pb metals about 0.12 million tonnes with grades of 0.2 wt% to 3.4 wt% Cu and 1.1 wt% to 9.27 wt% Pb.Massive and disseminated Cu-Pb ores from the Nage deposit occur as either veinlets or disseminations in silicified rocks.The ore minerals include chalcopyrite,galena and pyrite,and gangue minerals are quartz,sericite and chlorite.The H-O isotopic compositions of quartz,S-Cu-Pb isotopic compositions of sulfide minerals,Pb isotopic compositions of whole rocks and ores have been analyzed to trace the sources of ore-forming fluids and metals for the Nage Cu-Pb deposit.The δ65CuNBS values of chalcopyrite range from-0.09% to +0.33‰,similar to basic igneous rocks and chalcopyrite from magmatic deposits.δ65CuNBS values of chalcopyrite from the early,middle and final mineralization stages show an increasing trend due to63Cu prior migrated in gas phase when fluids exsolution from magma.δ34SCDT values of sulfide minerals range from 2.7‰ to +2.8‰,similar to mantle-derived sulfur(0±3‰).The positive correlation between δ65CuNBS and δ34SCDT values of chalcopyrite indicates that a common source of copper metal and sulfur from magma.δDH2OSMOW and δ18OH2O-SMOW values of water in fluid inclusions of quartz range from 60.7‰ to 44.4‰ and +7.9‰ to +9.0‰(T=260°C),respectively and fall in the field for magmatic and metamorphic waters,implicating that mixed sources for H2O in hydrothermal fluids.Ores and sulfide minerals have a small range of Pb isotopic compositions(208Pb/204Pb=38.152 to 38.384,207Pb/204Pb=15.656 to 17.708 and 206Pb/204Pb=17.991 to 18.049) that are close to orogenic belt and upper crust Pb evolution curve,and similar to Neoproterozoic host rocks(208Pb/204Pb=38.201 to 38.6373,207Pb/204Pb=15.648 to 15.673 and 206Pb/204Pb=17.820 to 18.258),but higher than diabase(208Pb/204Pb=37.830 to 38.012,207Pb/204Pb=15.620 to 15.635 and206Pb/204Pb=17.808 to 17.902).These results imply that the Pb metal originated mainly from host rocks.The H-O-S-Cu-Pb isotopes tegather with geology,indicating that the ore genesis of the Nage Cu-Pb deposit is post-magmatic hydrothermal type. 相似文献
20.
黑龙江省双鸭山市羊鼻山铁钨矿床处于中亚造山带东段的佳木斯地块中部。兴东群大盘道组变质岩系为矿区主要赋矿地层,铁矿矿体呈层状、似层状赋存于大盘道组第一岩段,白钨矿矿体呈透镜状和脉状产于铁矿矿体底板围岩中,受片麻状花岗岩与大盘道组大理岩的接触带控制;主要含矿岩石为石榴石矽卡岩和透辉石矽卡岩,钨矿石中主要金属矿物为磁黄铁矿和白钨矿,并含少量磁铁矿、黄铁矿、黄铜矿、闪锌矿、锡石、毒砂和辉钼矿。含钨石英脉中δ18O水值为3.6‰~7.5‰,δD值为-120.9‰~-66.2‰,表明其成矿流体以岩浆水为主。矽卡岩中与白钨矿共生的金属硫化物δ34S值为16.1‰~18.1‰,206Pb/204Pb值为17.879~18.863,207Pb/204Pb值为15.537~15.603,208Pb/204Pb值为38.202~38.544,表明金属硫化物中的硫和铅主要来源于地层与地壳重熔型岩浆。结合钨矿成矿地质特征,认为羊鼻山铁钨矿床中钨矿的成因类型应属矽卡岩型。 相似文献