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《地学前缘》2017,(6):162-175
红山大型铜多金属矿床位于云南中甸地区,包括红山、红牛和恩卡3个矿段,矿体主要呈层状-似层状产于石榴石夕卡岩、角岩、大理岩和硅质岩之中,或者呈细脉浸染-网脉状赋存于深部隐伏花岗斑岩体之中。目前学术界关于该矿床的成因类型仍然存在不同认识,本文使用激光剥蚀电感耦合等离子体质谱仪(LAICPMS)对矿区硅质岩、夕卡岩矿石中的黄铁矿和磁黄铁矿进行了微区原位成分的测试,进而根据微量元素特征来约束矿床的成因。分析结果表明,不同产状的黄铁矿具有明显不同的微量元素组成,硅质岩中的黄铁矿相对富集Ti、Mn、Ni、As、Pb、Bi、Te、Ag和Sb等微量元素,Co/Ni比值小于1,表现为典型同生沉积黄铁矿的微量元素特征;而夕卡岩矿石中的黄铁矿则相对富集Co和Cu,亏损As、Se和Sb等低温元素,且Co/Ni比值多数大于1,显示高温岩浆热液黄铁矿的微量元素特征。此外,硅质岩中磁黄铁矿的Co、Ni和Se等微量元素组成与黄铁矿的组成十分类似,表明它们的化学组成主要受到沉积环境的控制。夕卡岩中的磁黄铁矿与黄铁矿相比强烈亏损Co,这可能归因于早期黄铁矿沉淀时带走了大量的Co,从而导致残余热液中Co浓度的大幅降低。通过研究,我们还查明红山矿区黄铁矿中的Co、Ni、As和Se等元素主要以固溶体的形成存在,而Pb、Bi、Ag、Cu和Mn等元素则主要以显微包裹体的形式存在。黄铁矿和磁黄铁矿中Pb和Bi均表现为正相关关系,暗示它们可能以显微包裹体或纳米微粒的形式分布于这两种硫化物中。结合野外地质产状与前人已有研究,我们认为红山矿区至少存在两期成矿作用,其中晚三叠世沉积成岩作用形成的黄铁矿富集了一定的Ag、Bi和Pb等成矿元素,而晚白垩世的岩浆-热液活动则带来了大量的Cu和Mo等金属元素,从而在红山矿区形成了复合型的Cu-Mo-Pb-Zn-Ag多金属矿化体系。 相似文献
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安徽铜陵冬瓜山矿床中磁黄铁矿矿石结构特征及其成因意义 总被引:9,自引:3,他引:6
安徽铜陵冬瓜山矿床是长江中下游地区具有代表性的大型层状硫化物矿床,磁黄铁矿为矿床中的主要硫化物矿物.该矿床主要由层状硫化物矿体组成,伴有矽卡岩型和斑岩型矿体.在层状矿体上部,磁黄铁矿主要为块状构造,而层状矿体下部,磁黄铁矿多为层纹状、条带状构造,具有显著的沉积结构构造特征.野外地质观察及室内矿相学研究表明,层状矿体中磁黄铁矿矿石遭受了强烈的变质作用及热液交代作用.进变质过程中形成的结构主要为胶黄铁矿转变为黄铁矿以及进一步变质转变为磁黄铁矿、磁铁矿时形成的交代残留结构.退变质过程则以磁黄铁矿的退火、黄铁矿变斑晶的生长和单纯六方磁黄铁矿的形成为特征.岩浆热液对单纯六方磁黄铁矿的交代作用形成了单斜和六方磁黄铁矿的交生结构.这些结构特征表明层状矿体中的磁黄铁矿并不是岩浆热液成因,而主要为石炭纪同生沉积胶黄铁矿、黄铁矿在燕山期岩浆侵入所引起的热变质作用下脱硫所形成,并在热变质作用之后又受到岩浆热液的叠加交代.磁黄铁矿的结构特征显示冬瓜山矿床的形成经历了同生沉积、热变质、热液交代等多个阶段,支持其为同生沉积-叠加改造型矿床. 相似文献
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黄铁矿是个旧锡矿最常见的硫化物之一,但对其相关研究比较匮乏。本文通过对个旧锡矿东区不同类型矿体中黄铁矿的主微量元素特征研究获取黄铁矿成分的标型特征。个旧锡矿东区其矿体分为层间氧化残余硫化矿、接触带矽卡岩矿体、脉状矿、变基性火山岩矿体四类,不同类型黄铁矿产出特征各异,如层间氧化矿残余硫化矿中黄铁矿具有典型的残余结构,矽卡岩矿体中黄铁矿具有压碎结构、骸晶结构等。研究数据表明,黄铁矿总体表现亏铁、富硫,富集Pb、Zn、Cu、Cd、In、As、Sb、Bi、Sn、Ag、Au、W等元素,贫Co、Ni、Cr、Te、Se元素,Co/Ni较大。层间氧化矿残余硫化矿与变基性火山岩两类产于层间的矿体成矿环境硫逸度较高,矽卡岩矿体中黄铁矿高温元素含量较高,脉状矿中黄铁矿微量元素总量较高。硫逸度越大,温度越低,越有利于As进入黄铁矿晶格。成矿元素物源丰富,As、Ag、Au很可能来源于地层,Pb则来源于岩浆,Bi可能大部分来源于酸性岩浆。温度和共生矿物是影响黄铁矿中微量元素富集的重要因素,共生黄铁矿-黄铜矿可以指示形成时的温压条件。本区黄铁矿属中低温成矿,从高到低依次为矽卡岩矿—层间氧化矿残余硫化矿—变基性火山岩矿—脉状矿。来自岩浆的成矿物源较丰富,以及产于岩体边缘蚀变岩型矿体的发现,可推测岩体内部矿产资源丰富。 相似文献
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不同成因类型矿化中黄铁矿微量元素地球化学记录——以广东大宝山多金属矿床为例 总被引:3,自引:0,他引:3
位于南岭成矿带的大宝山多金属矿床发育W-Mo-Cu-Pb-Zn多金属矿化,主要由斑岩W-Mo矿化、矽卡岩Mo-W矿化和矿床成因存在争议的层状似层状硫化物矿化3种类型组成,在这3类矿化中广泛发育黄铁矿。本文通过电子探针面扫描分析和LA-ICP-MS点分析,调查了3种类型矿化中黄铁矿的微量元素含量特征和元素Co、Ni、As的赋存状态。电子探针面扫描分析表明,除了层状似层状硫化物矿化中的黄铁矿具弱的As不均匀分布外,其余两类矿化中黄铁矿的微量元素分布均匀,无明显环带构造;LA-ICP-MS分析表明3类矿化中黄铁矿的微量元素含量很低,但在误差范围内依然体现出明显差异,斑岩矿化中的微量元素Co、Ni、As和Se主要以类质同像替代存在,而Cu、Zn、Sn、Sb则分别以黄铜矿、闪锌矿、锡石和辉锑矿的微细粒矿物包裹体形式赋存;矽卡岩矿化中的黄铁矿富集Co、Ni、As、Se、Mo和微量的Cu和Zn;Ni和Ag则在层状似层状硫化物矿化中的黄铁矿中相对富集。研究结果表明大宝山多金属矿床中的黄铁矿微量元素特征一方面可以用于研究黄铁矿中微量元素的赋存状态,另一方面可以用于指示成矿过程中的物理化学条件和示踪区域成矿物质来源,厘定成矿过程。矿床成因存在争议的层状似层状矿化经历了泥盆纪海底火山喷发,在断陷盆地处形成的矿胚受到燕山期深源物质和多期次成矿流体的叠加改造。 相似文献
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【研究目的】甲玛矿床是西藏冈底斯成矿带最重要的斑岩成矿系统之一,具有斑岩、矽卡岩、角岩、脉状金矿四位一体矿体结构,形成了丰富的矿物种类和多样的金属矿化。其中,磁黄铁矿作为重要的金属矿物之一,其矿物地球化学特征以及与金矿化的耦合关系一直不明确。【研究方法】此次,以甲玛斑岩成矿系统外围和远端的不同产状的磁黄铁矿为研究对象,基于详细的野外地质调查和镜下鉴定,通过激光剥蚀电感耦合等离子质谱分析方法(LAICP-MS)对不同产状的磁黄铁矿开展测点分析和扫描分析,详细揭示其地球化学特征。【研究结果】结果显示,甲玛矿床磁黄铁矿主要富集Co、Ni、Cu、Zn、Ge、Se,弱富集Pb、Bi、Sb、Te、Ag、As,而Mo、Cd、In、Sn、Ba、W、Au、Tl、Th、U等元素含量较低。其中,矽卡岩中的磁黄铁矿具有较高的Co/Ni比值,能有效揭示其岩浆热液成因,而角岩中磁黄铁矿可能继承了一定的沉积特征。【结论】甲玛矿区磁黄铁矿的Cu、Zn、Pb含量变化特征与矿床空间矿化规律一致。矽卡岩中的块状磁黄铁矿与金矿化关系密切,金主要呈他形、不规则的独立金矿物产于磁黄铁矿的孔隙和粒间。同时,金的富集和沉淀可能与富铋的熔体有关。创新点:磁黄铁矿是甲玛超大型斑岩成矿系统中典型的金属矿物之一,其微区原位分析清晰揭示其微量元素地球化学特征和矿物成因,同时,证实矽卡岩中磁黄铁矿的高品位金与成矿流体中的富铋熔体有关。 相似文献
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南秦岭南部构造带具备较好的金矿成矿条件与成矿背景,是该区域规模较大金矿带.金沟矿段是黄龙金矿床最主要的组成部分,该矿段矿石中磁黄铁矿和黄铁矿发育,其中磁黄铁矿矿石是矿床中含量最高的硫化物矿石.磁黄铁矿存在两种产出状态,分别为早期形成的呈浸染状、团块状分布的磁黄铁矿与晚期形成的脉状磁黄铁矿.成分分析结果表明以单斜磁黄铁矿为主.该矿床属中-低温矿床.微量元素结果显示富Co贫Ni,与金矿化关系密切.在含金性方面,脉状产出的磁黄铁矿优于团块状分布的磁黄铁矿,且脉体越细含金性越好,因此细脉状磁黄铁矿可作为该区重要的找矿标志. 相似文献
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铜官山矿田是铜陵矿集区内五大矿田之一,矿田内顺层产出的层状硫化物矿体是铜金矿床的主矿体,矿体内含有较多的胶状黄铁矿,其成因的争议制约了对铜金矿床成矿作用的解析。本文主要利用场发射扫描电镜(FE-SEM)等纳米矿物学手段,并结合光学显微镜、粉晶X射线衍射(XRD)、微区激光拉曼光谱分析等方法,对矿田内铜官山矿床及天马山矿床内层状硫化物矿体中胶状黄铁矿矿石的矿物组成、微形貌、微结构等特征进行系统研究,结果表明胶状黄铁矿矿石多呈胶状、鲕状结构,具有同心环状构造,同心环被赤铁矿、菱铁矿与黄铜矿脉穿切。同心环主要由白铁矿+有机质与胶状黄铁矿交替组成。胶状黄铁矿的黄铁矿颗粒粒径从纳米至亚微米均有分布,以自形-半自形立方体为主,少数呈他形,脉体边部胶状黄铁矿颗粒较大,自形程度较高,重结晶显著。矿石中含有少量白云石、伊利石微晶体,与胶状黄铁矿紧密共存,显示典型沉积特征。共存石英磨圆度较高,存在次生加大现象,表面存在胶状黄铁矿印模,显示为碎屑成因。这些综合信息表明胶状黄铁矿非岩浆热液成因,而是与石炭系地层同沉积成岩成因,并可能有微生物作用参与。高孔隙率、高化学活性及较高有机质含量的胶状黄铁矿可能为燕山期岩浆热液演化的含铜成矿流体提供了沉淀剂,对矿田内铜金硫化物矿体的层控性发挥了重要的控制作用。 相似文献
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马山和大宝山矿床均为块状硫化物矿床,显微镜研究表明,两矿床中磁黄铁矿主要均由胶黄铁矿变质形成,但组成结构上却有较大区别,马山矿床主矿体中单斜磁黄铁矿(Mpo)-一少于六成磁黄铁矿(Hpo)而大宝山矿床床中单斜磁黄铁矿和六方磁黄铁矿一般近相等,通过对导致矿床发生热变质的中生代燕山期岩体的研究,认为岩体成因类型的不同及所含热量的差异是导致两矿床变质成因磁黄铁矿组成的结构不同的主要原因。 相似文献
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七宝山金铜多金属矿区的钓鱼台硫铁矿床、金线头金铜矿床以及七宝山铅锌矿床,其矿化类型分别为似层状浸染型、隐爆角砾岩型、裂控热液脉型,黄铁矿是三类矿化中最发育的金属硫化物矿物。通过对3个矿床黄铁矿产状,晶体形态,主、微量元素的nS与nFe实际原子个数比图解(nS/nFe=1.985~2.066)、δFe与δS特征图解(δFe/δS=±5%)、δFe/δS-As图解、(Fe+S)-As图解、Co/Ni特征图解(Co/Ni=1.2~11;Co/Ni=2~27;0.7~18)、Co-Ni-As特征图解以及微量元素相关性[Se-Sb(0.528)、Se-Zn(0.371)、Zn-Sb(0.642)、Pb-Te(0.463)]等研究,得知3个矿床黄铁矿均受岩浆热液的影响,其成矿物质和岩浆作用密切相关,表明3类矿化黄铁矿均为与七宝山次火山杂岩体有关的中温热液型矿床。 相似文献
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洋中脊超基性岩热液成矿系统通常与洋底核杂岩构造有关,多发育大型矿床,具有巨大的资源前景。然而,受大洋调查取样手段的限制,超基性岩蛇纹岩化对成矿的影响仍需进一步研究。德尔尼铜矿床是地质历史上该类矿床的典型案例,对于理解其成矿模式,以及大洋硫化物勘探具有指导意义。本文选取德尔尼铜矿床块状硫化物样品进行黄铁矿的S同位素分析,结果表明其δ34S值主要分布在-0.4‰~+6.3‰。结合前人研究发现,形成于深部网脉状、条带状矿石中的δ34S值为负值,而经历表层喷流和破碎作用的块状和角砾状矿石中的δ34S值为正值,二者呈对称分布,这主要是由于还原条件下岩浆排气产生的SO_2和H_2S动态平衡并逐渐沉淀S2-,表明蛇纹岩化提供的还原环境对热液系统演化产生了重要影响。然而,磁黄铁矿和矿床Ni的分布指示成矿物质中超基性岩的贡献较小,主要物质来源是洋中脊深部的基性岩浆,通过热液循环将物质运移至海底并喷流成矿。对比现今超基性岩赋矿的高温热液硫化物矿床,德尔尼铜矿床形成温度更低,代表了超基性岩赋矿热液硫化物中的中温端元,表明在距离拆离面一定距离(约2~4km)的位置也可能形成大型的热液硫化物矿床,这对于现今洋中脊热液硫化物勘探具有一定的指导意义。 相似文献
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V. V. Maslennikov N. R. Ayupova S. P. Maslennikova A. Yu. Lein A. S. Tseluiko L. V. Danyushevsky R. R. Large V. A. Simonov 《Lithology and Mineral Resources》2017,52(3):173-191
The ore-formational, ore-facies, lithological, and mineralogical-geochemical criteria are defined for the detection of hydrothermal ecosystem fauna in ores of the volcanic-hosted massive sulfide deposits in the Urals. Abundant mineralized microfauna is found mainly in massive sulfide mounds formed in the jasperous basalt (Buribai, Priorsk, Yubileinoe, Sultanov), rhyolite–basalt (Yaman-Kasy, Blyava, Komosomol’sk, Sibai, Molodezhnoe, Valentorsk), and the less common serpentinite (Dergamysh) formations of the Urals (O–D2). In the ore-formational series of the massive sulfide deposits, probability of the detection of mineralized fauna correlates inversely with the relative abundance of felsic volcanic rocks underlying the ores. This series is also marked by a gradual disappearance of colloform pyrite, marcasite, isocubanite, pyrrhotite, and pyrite pseudomorphoses after pyrrhotite; increase of the amount of bornite, fahlores, and barite; decrease of contents of Se, Te, Co, and Sn in chalcopyrite and sphalerite; and decrease of Tl, As, Sb, and Pb in the colloform pyrite. Probability of the detection of mineralized fauna in the morphogenetic series of massive sulfide deposits decreases from the weakly degraded sulfide mounds to the clastic stratiform deposits. The degradation degree of sulfide mounds and fauna preservation correlates with the attenuation of volcanic intensity, which is reflected in the abundance of sedimentary and volcanosedimentary rocks and the depletion of effusive rocks in the geological sections. 相似文献
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The volcanogenic massive sulfide deposit of Filon Norte at Tharsis is hosted by carbonaceous black slate and connected only partly with stockwork veins. The massive ores are usually composed of fine-grained pyrite with subordinate amounts of sphalerite, chalcopyrite, galena and arsenopyrite. Monoclinic pyrrhotite sometimes occurs in massive pyritic ores in the apparently middle and upper horizons of the orebody, and siderite-rich ores are interstratified with compact pyritic ores in the apparently lower horizons. From the occurrence of monoclinic pyrrhotite, together with the FeS contents of sphalerite mostly ranging from 11 to 16 mol %, it is inferred that the sulfide minerals of the massive orebody were precipitated in euxinic muds on the sea-floor at temperatures below 250°C. The negatively shifted, highly variable
34S values of the massive ores and their close similarity to those of the underlying black slates strongly suggest that the sulfide sulfur of the massive orebody and the slates is cognate and biogenic. 相似文献
15.
Two types of massive sulfide ores have been identified in the Kamennoozero segment of the green-stone belt: (1) hydrothermal volcanic-sedimentary strata-bound ores with massive, banded, and disseminated structures and (2) massive, brecciated, and stringer-disseminated Au-bearing base-metal ores, crosscutting the rocks of the Vozhmozero Group. The strata-bound, slightly metamorphosed orebodies are located at several levels along the contact between the Kamennoozero and Kumbuksa groups in the deep fault zones of the same names. These ores are composed of pyrite and pyrrhotite, small amounts of chalcopyrite and sphalerite, and distinguished by low grades of base metals and not higher than 0.06 g/t Au. In the Lebyazhino and Svetloozero areas, close to the sulfide Cu-Ni ore hosted in ultramafic rocks, the strata-bound bodies contain pentlandite and are enriched in Co, Ni, Cu, Zn, and up to 2.0–9.2 g/t Au. Brecciated and recrystallized pyrite ores contain up to 0.08–0.4% Sb and As, and up to 0.6–1 g/t Au in the Kumbuksa Fault Zone near Zolotye Porogi. The North Vozhma and Upper Vozhma base-metal massive sulfide occurrences, composed of pyrite, chalcopyrite, sphalerite, pyrrhotite, galena, bornite, and chalcocite, are considered to be promising Au-bearing prospects. Some samples from the North Vozhma occurrence contain up to 1.2–2.8 g/t Au and up to 167 g/t Ag. A gold grade of up to 20 g/t has been detected in the Upper Vozhma occurrence. The potential gold resources of the North Vozhma occurrence are estimated at about 600 kg. 相似文献
16.
V. V. Maslennikov N. R. Ayupova S. P. Maslennikova A. Yu. Lein A. S. Tseluiko L. V. Danyushevsky R. R. Large V. A. Simonov 《Lithology and Mineral Resources》2017,52(4):334-334
The ore-formational, ore-facies, lithological, and mineralogical-geochemical criteria are defined for the detection of hydrothermal ecosystem fauna in ores of the volcanic-hosted massive sulfide deposits in the Urals. Abundant mineralized microfauna is found mainly in massive sulfide mounds formed in the jasperous basalt (Buribai, Priorsk, Yubileinoe, Sultanov), rhyolite—basalt (Yaman-Kasy, Blyava, Komosomol’sk, Sibai, Molodezhnoe, Valentorsk), and the less common serpentinite (Dergamysh) formations of the Urals (O—D2). In the ore-formational series of the massive sulfide deposits, probability of the detection of mineralized fauna correlates inversely with the relative abundance of felsic volcanic rocks underlying the ores. This series is also marked by a gradual disappearance of colloform pyrite, marcasite, isocubanite, pyrrhotite, and pyrite pseudomorphoses after pyrrhotite; increase of the amount of bornite, fahlores, and barite; decrease of contents of Se, Te, Co, and Sn in chalcopyrite and sphalerite; and inсrease of Tl, As, Sb, and Pb in the colloform pyrite. Probability of the detection of mineralized fauna in the morphogenetic series of massive sulfide deposits decreases from the weakly degraded sulfide mounds to the clastic stratiform deposits. The degradation degree of sulfide mounds and fauna preservation correlates with the attenuation of volcanic intensity, which is reflected in the abundance of sedimentary and volcanosedimentary rocks and the depletion of effusive rocks in the geological sections. 相似文献
17.
云南澜沧老厂是三江成矿带南段最重要的铅锌铜钼多金属矿床之一.根据不同的赋矿特征、含矿岩性、矿石构造及成矿元素将澜沧老厂多金属矿床矿石类型系统地划分为铅锌硫化矿石、铅锌氧化矿石、颗粒状含铜黄铁矿石、块状含铜黄铁矿石、夕卡岩型矿石及斑岩型钼矿石6种类型.矿体产状、微量元素地球化学、年代学证据均表明铅锌硫化矿石、颗粒状含铜黄铁矿石及块状含铜黄铁矿石为火山喷流沉积型成因(VMS型),而铅锌氧化矿石、夕卡岩型矿石及斑岩型钼矿石为斑岩热液型成因.其中,铅锌硫化矿石、颗粒状含铜黄铁矿石及块状含铜黄铁矿石的主控矿因素为地层;铅锌氧化矿石为构造;夕卡岩型矿石为岩性;斑岩型钼矿石为岩体. 相似文献
18.
云南澜沧老厂是三江成矿带南段最重要的铅锌铜钼多金属矿床之一.根据不同的赋矿特征、含矿岩性、矿石构造及成矿元素将澜沧老厂多金属矿床矿石类型系统地划分为铅锌硫化矿石、铅锌氧化矿石、颗粒状含铜黄铁矿石、块状含铜黄铁矿石、夕卡岩型矿石及斑岩型钼矿石6种类型.矿体产状、微量元素地球化学、年代学证据均表明铅锌硫化矿石、颗粒状含铜黄铁矿石及块状含铜黄铁矿石为火山喷流沉积型成因(VMS型),而铅锌氧化矿石、夕卡岩型矿石及斑岩型钼矿石为斑岩热液型成因.其中,铅锌硫化矿石、颗粒状含铜黄铁矿石及块状含铜黄铁矿石的主控矿因素为地层;铅锌氧化矿石为构造;夕卡岩型矿石为岩性;斑岩型钼矿石为岩体. 相似文献
19.
The Dabaoshan polymetallic deposit, located in the middle Nanling metallogenic belt, is an important and representative W-Mo-Cu-Pb-Zn deposit in the northern Guangdong. The deposit is characterized by a complex combination of ore-forming elements, containing 0.86 Mt Cu, 0.85 Mt Zn, 0.31 Mt Pb, 0.14 Mt WO3 at grades of 0.86%, 12%, 1.77% and 0.12%, respectively. Due to different mineral association and occurrence, mineralization at Dabaoshan can be defined as three types: porphyry W-Mo mineralization, skarn Mo-W mineralization and strata-bound sulfide mineralization. Pyrite from the three-mineralization types has different textures and element compositions. EMPA mapping analysis suggested that distribution of Co, Ni, and As is nearly homogeneous, whilst As in pyrite from the stratabound sulfides shows weak irregular zoning. LA-ICP-MS analyses of pyrite suggested that the three type have distinctive trace element characteristics even though the concentrations of the trace elements are relatively low. Cobalt, Ni, As and Se substitutes Fe and S in pyrite respectively while Cu, Zn, Sn Sb are mainly represented by chalcopyrite, sphalerite, cassiterite and stibnite inclusions enclosed in pyrite. Ni and Ag are rich in the pyrite from the stratabound mineralization. The results suggested that the trace element characteristic of pyrite can be used to: a) study the occurrence of trace element in pyrite; b) imply the chemical-physical conditions; c) trace the regional ore-forming substance and ore forming process. The stratabound mineralization is formed during the volcano eruption during the Devonian then and overprinted by the deep source material and multiple ore-forming fluids in the Yanshanian period. © 2018, Science Press. All right reserved. 相似文献