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江西德兴地区是中国重要的金属矿产资源聚集地,主要矿床有德兴斑岩铜矿(包括朱砂红、铜厂和富家坞)、金山金矿、银山Pb-Zn-Ag多金属矿和蛤蟆金矿等.这些矿床可以划分为与剪切带有关的金矿和与岩浆热液成矿作用有关的铜金钼铅锌银矿床(如德兴斑岩Cu-Mo-Au矿床和银山Pb-Zn-Ag-Cu-Au矿床).在控矿构造、成矿元素组合、成矿流体来源、矿床地球化学等方面这两类矿床都有明显的差异;二者成矿年龄的差异显示它们是不同地质时期演化的结果.剪切带型金矿(如金山金矿)与斑岩铜矿(德兴铜矿)在成因上没有明显的直接关系,它们非单一同一岩浆系统的产物. 相似文献
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德兴大型铜金矿集区构造环境和成矿流体研究进展 总被引:48,自引:0,他引:48
江西德兴地区是我国东部成矿带中的大型矿集区之一,集中了铜厂斑岩铜矿、银山多金属矿和金山金矿等大型、超大型矿床。它又处在中国东南部大地构造的关键部位,因此,对德兴大型铜金矿集区的研究始终与该地区的构造背景及演化相伴随。目前对该地区构造格局的认识以NW侧的九岭地体与SE侧的怀玉地体沿赣东北深大断裂带的碰撞拼贴为主流;在这两个地体于晚元古代碰撞拼贴之后,该地区所经历的主要是板内(陆内)的构造活动。德兴大型铜金矿集区的成矿作用与燕山期构造—岩浆活动有着成因上的密切联系,而德兴地区的中元古界地层成矿元素含量较高,不同程度地为本区铜厂、金山、银山等矿床提供了成矿物质。成矿流体的研究成果已表明不同的矿床有不同的流体过程:铜厂斑岩铜矿成矿早阶段以岩浆派生流体为主、而晚阶段(主要成矿阶段)有大气降水的大量参与;银山多金属矿成矿流体主要为大气降水来源;金山金矿的成矿流体则以变质水为重要来源。 相似文献
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德兴矿集区位于赣东北地区,是中国东部中生代钦杭成矿带中的大型铜金铅锌矿集区之一,集中了铜厂、富家坞和朱砂红斑岩铜钼(金)矿、银山银铜铅锌多金属矿和金山金矿等大型、超大型矿床。本文在系统的野外地质调查与样品采集的基础上,对铜厂、富家坞、朱砂红及银山花岗闪长斑岩进行了LA-MC-ICP-MS锆石U-Pb定年和原位Hf同位素分析。德兴矿集区花岗闪长斑岩的LA-MC-ICP-MS锆石U-Pb的4组年龄分别为:(171±1.2)Ma(铜厂)、(172±0.68)Ma(富家坞)、(173±1.3)Ma(朱砂红)、(176±1.5)Ma(银山),表明这些岩体均为中侏罗世的产物。样品Hf两阶段模式年龄平均值分别为861 Ma、876 Ma、904 Ma和941 Ma,正的εHf(t)平均值在4.34-5.54,Zr/Hf比值接近于上地幔的Zr/Hf比值。锆石Hf同位素组成显示,岩浆源区主要来源于亏损地幔组分,但在岩浆演化中遭受了古老地壳物质的混染,幔源物质在德兴矿集区花岗闪长斑岩的形成过程中发挥了重要作用。德兴矿集区4个矿床成岩成矿的最重要时期在170-175 Ma,该矿集区岩浆热液系统持续活动可能是该大型矿集区形成的重要原因。 相似文献
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作为世界上最重要的一种矿床类型,目前斑岩铜矿床供应了世界近75%的铜、50%的钼和20%的金.据统计,世界范围内绝大多数大型巨型斑岩铜矿产于与俯冲有关的弧环境.近年来越来越多的证据表明,斑岩铜矿床亦可产于碰撞造山带及陆内环境(即大陆环境),如位于青藏高原腹地的冈底斯斑岩铜矿带、赣东北的德兴斑岩铜矿床. 相似文献
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滇西北衙金矿矿床成因类型 总被引:2,自引:1,他引:2
滇西北衙金矿是一个曾被认为无工业价值的金矿,后在中科院地质与地球物理研究所蔡新平等(1989—2006年)科研成果的推动与促进下已成为一个具超大型远景规模的金矿床。文章简要介绍了北衙金矿的来历与研究概况,系统总结了北衙金矿的矿床类型及其结构模型。北衙金矿有3种成因不同的矿床,即与碱性斑岩有关的斑岩型和矽卡岩型Cu-Au矿床、与铁质热液或铁矿浆有关的Fe-Au矿床、及表生成因的Fe-Au矿床。北衙矿区复杂多样、多期叠加活动的岩浆与成矿作用,造就了矿区大规模的成矿作用。 相似文献
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在前人研究的基础上,通过系统的野外考察,论证了位于赣东北德兴地区德乐中生代火山盆地中的德兴铜矿、银山银铜铅锌矿和金山金矿及蛤蟆石金矿属于同一成矿系统。德兴铜矿是典型的斑岩铜矿,成矿流体和金属元素主要来自岩浆;银山银铜铅锌矿是一个下部为斑岩铜矿、上部为浅成低温热液型银铅锌矿,成矿流体早期以岩浆为主,晚期有较多的大气降水参与,成矿物质主要来自岩浆;金山和蛤蟆石金矿是远接触带热液矿床,成矿流体为岩浆热液与大气降水的混合产物,金主要来自围岩——双桥山群浅变质岩。这3套矿床以中酸性花岗斑岩或石英斑岩(高钾钙碱质花岗岩)为核心具有明显的分带性,自中心向外或深部向浅部为:斑岩铜金钼矿、浅成低温热液型银铅锌矿和远接触带热液型金矿。这种矿床组合关系不同于已知的经典斑岩铜矿模型和斑岩铜矿一浅成低温热液金银矿床模型,因而,有必要提出一个新的模型:斑岩铜矿一浅成低温热液银铅锌矿一远接触带热液金矿模型。这套矿『末形成于中侏罗世,抑或是古太平洋俯冲板片局部重熔或撕裂重熔的产物,抑或是在活动大陆边缘岩浆弧后伸展带由地幔底侵的结果。 相似文献
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浙西桐村斑岩型钼(铜)矿床与德兴斑岩铜矿岩浆岩对比研究 总被引:3,自引:0,他引:3
桐村地区与德兴矿区岩石系列相似,为高钾钙碱性系列;在岩石结构上,桐村地区花岗闪长岩为似斑状结构,德兴矿区花岗闪长斑岩为斑状结构。两者均为钙碱—碱质镁质I型花岗岩。桐村岩石富Si和K,A/CNK和K/(K+Na)值均小于德兴岩石。微量元素、同位素及岩石学特征表明桐村地区的物质来源以壳源为主,而德兴地区为有大量幔源物质参与的壳幔混合型,其原因可能与两区不同的构造位置有关。中晚侏罗世时,太平洋板块西向俯冲,下插板片发生部分熔融形成的岩浆与岩石圈地幔楔发生作用从而形成斑岩岩浆是桐村和德兴地区可能的成因模式。桐村矿床含矿斑岩的氧逸度、演化程度和地壳混染程度均较德兴斑岩铜矿高。对于同时代、近距离的岩浆岩形成如此规模悬殊的矿床还有许多问题值得研究和思考。 相似文献
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江西富家坞斑岩铜(钼)矿床地球化学异常特征 总被引:1,自引:0,他引:1
对江西德兴富家坞斑岩铜(钼)矿床进行多年勘探工作的基础上,探讨了矿床的地球化学特征、异常模式及其在成矿带的找矿意义。 相似文献
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德兴斑岩铜矿和银山铜铅锌矿床位于江南古陆与钱塘坳陷之过渡带,赣东北深大断裂的北西盘。德兴斑岩铜矿与燕山期(169Ma)浅成花岗闪长斑岩侵入体具有成因联系,侵入体属低硅钠质组合,铝质参数A[A=Al-(K+Na+2Ca)]值变化于-13—93,表现为铝次饱和到不饱和特征,镁铁质参数B(B=Fe+Mg+Ti)值变化于100—265,二者构成负斜率岩浆演变趋势线,表明岩浆起源于上地幔或下地壳。银山矿床的形成与燕山期(145—142Ma)陆相火山一次火山岩系有关,其属高硅钾质火山岩组合,铝质参数A值变化于7—17 相似文献
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研究区内广布的富金元古宇地层是金矿集中区形成的基础,多期次的强烈岩浆活动为金矿集中区的形成提供了极为丰富的成矿流体和矿质来源,脆韧性剪切带为矿液流通和汇聚提供了有利空间。在区内的脆韧性剪切带中分布有Ⅰ矿带和Ⅱ矿带,带内发育硅化、绢云母化、黄铁矿化、绿泥石化、碳酸盐化、纤闪石化、高岭土化蚀变,金多金属矿化主要与硅化、绢云母化、绿泥石化、黄铁矿化关系密切。目前已提交金资源量约8.94t,银金属量约247.02t,铅金属量约6.45万t,锌金属量约5.23万t。综合分析该区地质矿化特征和控矿因素认为,研究区成矿条件优越,找矿潜力巨大,通过开展进一步勘查工作有望达到大型金多金属矿床规模。 相似文献
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The Liziyuan gold deposit, situated on the south side of the Shangdan suture zone, West Qinling Orogen, occurs in metamorphic volcanic rocks(greenschist facies) of the early Paleozoic Liziyuan Group and in Indosinian Tianzishan monzogranite. Orebodies in the Liziyuan gold field are controlled by the ductile-brittle shear zone, and by thrusting nappe faults related to the Indosinian orogeny. In detail, this paper analyzed the geological characteristics of the Liziyuan gold field, and the Pb isotopes of the Lziyuan host rocks, granitoids(Tianzishan monzogranite and Jiancaowan syenite porphyry), sulfides, and auriferous quartz veins by multiple-collector inductively coupled plasma mass spectrometry(MC-ICPMS). In addition, previous data on the sulfur, hydrogen, and oxygen isotopes were employed to discuss the possible sources of the ore-forming fluids and materials, and to further understand the tectonic setting of the Liziyuan gold deposit. The sulfides and their host rocks(Lziyuan Group), Tianzishan monzogranite and Jiancaowan syenite porphyry, and auriferous quartz veins have similar Pb isotopic compositions.Zartman's plumbotectonic model diagram shows that most of the data for the deposit fall near the orogenic Pb evolutionary curve or within the area between the orogenic and mantle Pb evolutionary curves. In the△β-△γ diagram, which genetically classifies the lead isotopes, most of the data fall within the range of the subduction-zone lead mixed with upper crust and mantle. This indicates that a complex source of the ore lead formed in the orogenic environment. The δ~(34)S values of the sulfides range from 3.90 to 8.50‰(average6.80‰), with a pronounced mode at 5.00‰-8.00‰. These values are consistent with that of orogenic gold deposits worldwide, indicating that the sulfur sourced mainly from reduced metamorphic fluids. The isotopic hydrogen and oxygen compositions support a predominantly metamorphic origin of the oreforming fluids, with possible mixing of minor magmatic fluids, but the late stage was dominated by meteoric water. The characteristics of the Liziyuan gold deposit formed in the Indosinian orogenic environment of the Qinling Orogen are consistent with those of orogenic gold deposits found worldwide. 相似文献
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东天山铜金多金属矿床成矿系统和成矿地球动力学模型 总被引:47,自引:2,他引:47
近年来,在东天山地区地质找矿不断取是突破,一系列大型,中型铜金矿床先后被发现。绝大多数铜金矿床在空间上密集分布于黄山-康古尔缝合-剪切带两侧的岛弧带内,时间上集中在石炭纪-二叠纪。金矿床包括造山型,石英脉型和浅成低温热液型,铜矿床包括斑岩型,夕卡岩型和热液脉型及铜镍硫化物型,金,铜和铜镍矿化各自成系统产出,为板块俯冲晚期和碰撞期大规模镁铁质-超镁铁质和中酸性-酸性花岗质岩浆侵位-喷发事件的产物。 相似文献
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Jingwen Mao Jiandong Zhang Franco Pirajno Daizo Ishiyama Huimin Su Chunli Guo Yuchuan Chen 《Ore Geology Reviews》2011,43(1):203-216
Based on previous studies and detailed field investigations of the Dexing porphyry copper deposit, the Yinshan Ag-Pb-Zn deposit and the Jinshan shear zone – hosted gold deposit in the Dele Jurassic volcanic basin, in the northeastern Jiangxi province, East China, we propose that the three deposits share spatial, temporal and genetic relationships and belong to the same metallogenic system. Dexing is a typical porphyry Cu–Au–Mo deposit in which both ore-forming fluid and metals are derived from the granite porphyry. The Yinshan deposit consists of a porphyry copper ore located in the cupola of a quartz porphyry stock, in the lower part, and Ag–Pb–Zn ore veins in the upper part. The hydrothermal fluids were mainly derived from the magma in the early stages of the mineralizing event and became mixed with meteoric waters in the late stages. Its ore metals are magma-derived. Both the Jinshan base metal veins and the Hamashi, Dongjie and Naikeng quartz vein-type gold deposit are hosted by brittle–ductile structures, which are distal in relation to the porphyry intrusions and were formed by mixed magmatic fluids and meteoric water, whereas the gold was mainly leached from the country rocks (Mesoproterozoic Shuangqiaoshan Group phyllite and schist). The deposits show a distinct spatial arrangement from porphyry Cu, to epithermal Ag–Pb–Zn and distal Au. We suggest a porphyry–epithermal–distal vein ore system model for this group of genetically related mineral deposits. They were formed in a back-arc setting in a Middle Jurassic active continental margin, with magmas derived from the subducted slab. 相似文献
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《International Geology Review》2012,54(9):1031-1051
The geotectonic units of Zhejiang Province include the Yangtze Plate in the northwest juxtaposed against the South China fold system in the southeast along the Jiangshan–Shaoxing fault. The South China fold system is further divided into the Chencai–Suichang uplift belt and the Wenzhou–Linhai geotectogene belt, whose boundary is the Yuyao–Lishui fault. The corresponding metallogenic belts are the Mo–Au(–Pb–Zn–Cu) metallogenic belt in northwest Zhejiang, the Chencai–Suichang Au–Ag–Pb–Zn–Mo metallogenic belt, and the coastal Ag–Pb–Zn–Mo–Au metallogenic belt. The main Mesozoic metal ore deposits include epithermal Au–Ag(Ag), hydrothermal vein-type Ag–Pb–Zn(Cu), and porphyry–skarn-type Mo and vein-type Mo deposits. These ore bodies are related to the Mesozoic volcanic-intrusive structure: the epithermal Au–Ag(Ag) deposits are represented by the Zhilingtou Au–Ag deposit and Houan Ag deposit and their veins are controlled by volcanic structure; the hydrothermal vein-type Ag–Pb–Zn deposits are represented by the Dalingkou Ag–Pb–Zn deposit and also controlled by volcanic structure; and the porphyry–skarn-type Mo deposits are represented by the Tongcun Mo deposit and the vein-type Mo deposits are represented by the Shipingchuan Mo deposit, all of which are related to granite porphyries. These metal ore deposits have close spatio-temporal relationships with each other; both the epithermal Au–Ag(Ag) deposits and the hydrothermal vein-type Ag–Pb–Zn deposits exhibit vertical zonations of the metallic elements and form a Mo–Pb–Zn–Au–Ag metallogenetic system. These Jurassic–Cretaceous deposits may be products of tectonic-volcanic-intrusive magmatic activities during the westward subduction of the Pacific Plate. Favourable metallogenetic conditions and breakthroughs in the recent prospecting show that there is great resource potential for porphyry-type deposits (Mo, Cu) in Zhejiang Province. 相似文献