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1.
地洼盆地砂岩铜矿床的
构造-流体-成矿体系及演化 总被引:1,自引:0,他引:1
我国南方地洼盆地构造演化、流体演化和砂岩铜矿成矿作用三者之间具有密切的关系,处于一个统一的系统之中。盆地早中期的裂陷、坳陷作用及热构造活动导致了富铜矿源层的形成、大气降水的深循环和水/岩相互作用、并形成中高温、压、高盐度的热卤水含铜流体。在构造-流体-砂岩铜矿成矿体系的演化中,构造演化制约了含铜流体的演化和砂岩铜矿的成矿作用,而主要发生于盆地演化的晚期。 相似文献
2.
楚雄盆地砂岩型铜矿床构造-流体耦合成矿模型 总被引:15,自引:0,他引:15
砂岩型铜矿床是楚雄陆相红层盆地的典型矿床类型。在构造-流体-成矿体系的动力学演化中,该类矿床的形成经历了沉积-成岩成矿作用、改造成矿作用及后期断裂作用的演化过程:燕山中晚期形成煤-铜-盐"三色建造"和盆地流体;喜马拉雅早期构造-热演化形成褶皱圈闭盆地流体,来自基底的富铜流体沿同生断裂(隐伏断裂)上升将一些亲铜元素从深部带入煤层而被吸附,形成富铜的还原性流体(H2O-SO2-CO2-CH4(C3H8-C2H6)-HSO4-HCO3-型),还原性流体沿次级断裂、隐伏断裂和层间断裂及轴面变形带上升,与大气降水深循环淋滤膏盐层形成高盐度的氧化性流体(H2O-SO2-CO2-N2-CO-HSO4-型)在砂(页)岩相遇时发生水-岩相互作用,并封闭于高孔渗的砂(页)岩储层,在褶皱翼部或核部的中细粒砂岩和层间断裂带中形成层状、似层状矿体;喜马拉雅中期由于构造改造,在更次级断裂带中形成脉状矿(化)体。所以,该类矿床是褶皱构造圈闭盆地流体-含矿岩相和构造裂隙封闭成矿流体定位成矿的产物,是铜矿源、构造与流体三者耦合作用的结果,更好地解释了矿床既沿褶皱分布又沿含矿层定位及矿物、元素分带的主要原因。故建立了该类矿床的构造-流体耦合成矿模型。 相似文献
3.
库车盆地铜成矿作用发生在新近纪,主要有砂岩型、泥岩型、灰岩型、含石英脉硫化物型铜矿化。矿化主要分布在盆地南部的秋里塔格构造带和北部的克拉苏构造带,基本位于背斜核部偏两翼部位,沿近东西向的断裂带呈带状分布,发育在盐丘附近。主要的地表铜矿物是氯铜矿,为干旱气候条件下含盐盆地的产物。盆地古近系蒸发岩电镜分析、石膏铜含量化学分析及新近系碎屑岩中铜含量变化分析结果表明:盐岩、膏岩,褐红色碎屑岩(粉砂岩、泥质粉砂岩、泥岩)为铜的矿源层,灰绿色粉砂岩、泥岩、灰白色(含砾)中粗砂岩为铜的含矿层。铜离子的运移载体为源自大气降水溶解蒸发岩所形成的卤水,卤水淋滤褐红色碎屑岩中的铜并下渗到地下,在以构造挤压为主及盐构造卸负作用产生流体上涌的驱动力下沿断裂向地表运移,随着卤水温度压力降低,在干旱气候条件下,在地表碎屑岩节理面、部分层理面上盐、膏、铜矿物析出,形成地表砂岩型、泥岩型、灰岩型铜矿化。如果含铜卤水经过被方解石交代的硬石膏带时,遇到由于TSR反应形成的还原硫、氧化-还原化学障,铜会发生富集,可能形成地下铜矿体。 相似文献
4.
库车前陆盆地古近系—新近系铜矿化特征及铜的来源、富集分布初探 总被引:1,自引:0,他引:1
库车盆地铜成矿作用发生在新近纪,主要有砂岩型、泥岩型、灰岩型铜矿化。矿化主要分布于盆地南部的秋里塔格构造带和北部的克拉苏构造带,基本位于背斜核部偏两翼部位,沿近东西向的断裂带呈带状分布,发育在盐丘附近。主要的地表铜矿物为氯铜矿,是干旱气候条件下含盐盆地的产物。盆地古近系石盐、石膏样品电镜分析、石膏铜含量化学分析及新近系碎屑岩中铜含量变化分析结果表明:盐岩、膏岩,褐红色碎屑岩(粉砂岩、泥质粉砂岩、泥岩)为铜的矿源层,灰绿色粉砂岩、泥岩、灰白色(含砾)中粗砂岩为铜的含矿层。铜离子的运移载体主要为源自大气降水溶解石盐、石膏所形成的卤水,卤水淋滤褐红色碎屑岩中的铜并下渗到地下,在以构造挤压为主及盐构造卸负作用产生流体上涌的驱动力下沿断裂向地表运移,随着卤水温度压力降低,干旱气候条件下,在地表碎屑岩节理面、部分层理面上发育石盐、石膏及氯铜矿,形成地表砂岩型、泥岩型、灰岩型铜矿化。当含铜卤水经过被方解石交代的硬石膏带(氧化-还原化学障)时,遇到因TSR反应形成富含还原硫的卤水,铜会发生富集,可能形成地下铜矿体。 相似文献
5.
塔里木陆块西北缘萨热克砂岩型铜矿床构造演化、流体演化与成矿之间具有密切关系,处于一个统一系统中。矿床成岩期方解石中包裹体水的δD值为-65.3‰~-99.2‰,改造成矿期石英包裹体水的δD值为-77.7‰~-96.3‰,成岩成矿期成矿流体δ~(18)OH_2O变化范围为-3.22‰~1.84‰,改造成矿期成矿流体δ~(18)OH_2O变化范围为-4.26‰~5.14‰,指示萨热克铜矿成岩期、改造期成矿流体主要为中生代大气降水及其经水岩作用而成的盆地卤水。矿石中辉铜矿δ~(34)S值为-24.7‰~-15.4‰,指示硫主要源自硫酸盐细菌与有机质还原,部分源于有机硫。构造与成矿流体演化对砂岩铜矿成矿起关键制约作用。盆地发展早期强烈的抬升运动使盆地周缘基底与古生界剥蚀,为富铜矿源层的形成提供了丰富物源,至晚侏罗世盆地发展晚期,长期演化积聚的巨量含矿流体在库孜贡苏组砾岩胶结物及裂隙中富集,在萨热克巴依盆地内形成具有经济意义的砂岩型铜矿床。 相似文献
6.
云贵高原-造山带-沉积盆地的构造演化与金属矿产形成有密切关系。近南北向乌蒙山造山带和扬子地块西缘元古宙造山带(元古宙基底构造层)为元古宙铁铜和铁氧化物铜金型(IOCG)矿床集中区。在东缘滇黔桂晚古生代陆缘拉分盆地中,形成了铅锌银-金汞锑等低温热液金属矿床集中区。在个旧-文山一带形成了锡铜钨-多金属成矿集中区,并伴生铷铯铟等稀散元素。在西侧云南楚雄中新生代沉积盆地中,形成了砂岩型铜矿床集中区等。北侧四川-重庆一带形成了天青石矿床成矿集中区。这些金属矿床集中区形成与云贵高原-造山带-沉积盆地经历了多期次构造演化过程中,形成了特殊的矿田(床)构造有密切关系。这些特殊的大陆构造样式、构造组合、构造-流体-成岩成矿作用和碱性铁质基性岩类侵位的多重耦合作用,值得今后开展深入研究,为今后矿山深部找矿预测和大陆深部构造研究提供科学依据。 相似文献
7.
康滇古大陆裂谷的发生和演化造就了楚雄盆地,沉积出煤、铜、盐旋回与含矿建造和矿床组合.铜矿的生成(特别是改造富集)与煤(有机质)、盐(热卤水)密切相关.大姚—牟定式砂岩铜矿以其规模最大而具代表性.它的成矿作用的演化是从风化沉积作用到成岩作用、后生作用再到改造作用.作用的结果是分别产生含铜有机质沉积体、成岩矿层、后生矿层和改造富矿体.层状矿体赋存于砂岩浅紫交互带是氧化性流体与还原性流体相汇于斯而发生氧化—还原反应沉积成岩的结果.其金属硫化物的生成顺序与分带是遵循S、O、Fe、Cu热液体系中矿物共生组合规律的,随介质条件、四元素浓度的差异而变化. 相似文献
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10.
青海鄂拉山地区铜金金属矿床的成矿条件及成矿模式 总被引:5,自引:0,他引:5
青海鄂拉山地区为海南二叠纪沉积盆地西缘的北北西向印支期构造-岩浆活动带,其交切柴达木地台边缘东昆仑近东西向构造。其中铜多金属矿床形成于盆地裂陷和陆内俯冲-滑脱造山期。盆地裂隐陷后期(T2)海相基性火山岩喷发前,热水活动形成了铜峪沟铜矿床,同时也形成了区域性含Cu等成矿元素高的“矿源层”;在造山期,通过区域动热变质和岩浆气液交代,形成日龙沟沉积-变质锡多金属矿床、赛什塘沉积-变质、岩浆热浆液叠加铜矿 相似文献
11.
铀的地球化学性质与成矿——以华南铀成矿省为例 总被引:1,自引:1,他引:1
铀是强不相容元素,随着岩浆演化而不断富集,在岩浆演化末期受结构氧增加影响进入独居石、磷钇矿等副矿物中。岩浆演化通常无法直接形成达到工业品位的铀矿床。铀是对氧逸度敏感的变价元素。在表生风化过程中岩体(层)中的铀被氧化为UO_2~(2+)而极易溶解进入水体中,并可在还原环境沉淀而富集成矿,氧化还原界面是找矿的理想选区。大气水可通过断裂构造系统进入一定深度,并受热源作用形成高氧逸度的热液而萃取出岩体(层)中的铀在还原位置沉淀富集形成矿床。新元古代氧化事件以及Marinoan冰期结束使得表生风化过程中更多的U进入水体;而寒武纪生命大爆发,易在沉积盆地底部形成还原环境,有利于U的沉淀富集。受上述三方面因素控制,在华南形成了广泛分布的富铀黑色页岩层,并被之后的沉积物覆盖,成为华南各型铀矿床的铀源层。印支期构造运动使部分富铀黑色页岩层发生部分熔融形成了富铀的S型花岗岩,该类岩石亦是之后铀成矿作用的铀源岩。燕山运动后期华南发生伸展构造背景下的岩浆热事件为以大气水为主的高氧逸度热液的形成并作用于铀源岩(层)提供了有利条件,促使华南各类型铀矿床开始在白垩纪集中形成。 相似文献
12.
《地学前缘(英文版)》2020,11(1):215-227
Sandstone-type U mineral resources are among the important sources for nuclear energy.The U deposits in the Ordos Basin in China form part of the northern segment of the sandstone-hosted Central Asian Uranium MegaProvince.Two types of mineralizations are recognized in this basin: "phreatic permeable type" and "interlayer permeable type",both exhibiting features equivalent to roll-front subtypes.The "interlayer permeable type" is widely accepted as the dominant mineralization type for sandstone-type uranium deposits within large-scale basins,also designated as the "interlayer oxidation zone type",based on the horizontal color zoning model representing changing redox conditions.Here we synthesize data from several drill holes within the Ordos Basin,which suggest that major Mesozoic tectonic movements controlled the evolution of the sedimentary system in the basin.These tectonic movements contributed to the formation of three angular unconformities and four parallel unconformities as inferred from the stratigraphic relationships.In addition,other features such as vertical color zoning,paleo-channel controlled tabular or lentoid ore bodies(without roll-type) and a group interlayer horizontal zoning of altered minerals are also documented.Sequence stratigraphic analysis indicates that the Ordos Basin generally witnessed four cycles of water level variations during Mesozoic.During the variations,three high water level and three low water level events were recorded.Biological characteristics imply that the Ordos Basin went through multiple arid to humid climatic evolutions during Mesozoic.Combining the newly documented features with some novel concepts on the hydrodynamic mechanism for supergene ore-forming fluids,we propose a metallogenic model which invokes the importance of tectonic movements and water level fluctuations to explain the genesis of uranium deposits along the northern margin of the Ordos Basin. 相似文献
13.
笔者利用云南西部已有的DSS地震测深、石油反射地震资料的再解释,并通过地球物理、地球化学以及矿产等资料的综合分析,对滇西兰坪—思茅盆地内的中轴构造带的构造特征进行了深入分析。研究结果表明兰坪—思茅盆地内的中轴构造带是一条近南北走向的集断裂带、伸展构造、深部隆起为一身的大型构造带。地震测深的速度结构及反射地震剖面表明,中轴构造带在思茅盆地南部存在有深部地幔的上隆现象,该构造带内的断裂系统倾向在盆地南北有差异。研究发现该构造带与矿床、侵入碱性岩体及区域地化异常分布有密切的关系。结合地质构造分析研究,表明该构造带是一多期活动的重要构造带,具有伸展走滑的性质;中轴构造带在形成、演化过程中被近东西向的多条直线型断裂所错断,从构造形态上看与大洋中脊有相似的展布特征。该构造带对盆地的构造演化以及矿产形成具有重要控制作用。 相似文献
14.
Fangge Chen Shujuan Yang Qizuan Zhang Xuefei Liu Jiahao Chen 《International Geology Review》2018,60(1):72-86
The evolution of the Palaeo-Tethys Ocean played an important role in the Palaeozoic tectono-metallogenesis in Southeast Asia, in which diverse blocks amalgamated due to its closure. Previous researches focused mostly on endogenic metallogenesis related to the evolution of the Palaeo-Tethys Ocean. However, the tectonic control on the numerous Mn ore deposits in the southwestern South China Block (SCB) developed during Palaeo-Tethys evolution is largely unknown. In this article, we review Palaeo-Tethys evolution and define its four evolutionary stages from initial opening, maturity, incipient subduction, to post-closure. This study further investigated the geology and palaeogeography of Mn ore deposits in Upper Devonian, lower Carboniferous, middle Permian, and Lower-Middle Triassic formations in the southwestern SCB. We show that each of the four Mn metallogenic episodes was a response to each of the four evolutionary stages of the Palaeo-Tethys Ocean. Wall rocks of orebodies transitioned from chert-mudstone-carbonate in the Devonian, Carboniferous, and Permian to siltstone-mudstone in Lower-Middle Triassic. The ores of the four episodes of Mn mineralization are composed primarily of rhodochrosite, manganocalcite, and rhodonite. The carbonate C–O isotope and ore trace element composition data suggest that ore-forming fluids were dominated by seafloor water with involvement of magmatic hydrothermal fluids and organic matter as well. Palaeogeography reconstructions indicate the Mn-ore deposits formed along the margins or in the centre of the abyssal basins. Despite the diverse tectonic settings of the four Mn mineralization episodes, it is proposed that the crustal sagging, restricted seafloor environment, and hydrothermal activities that occurred in the southwestern margin of SCB contributed to Mn mineralization. 相似文献
15.
陕西凤太晚古生代拉分盆地动力学与金-多金属成矿 总被引:3,自引:0,他引:3
采用沉积盆地构造-古地理位置恢复重建和构造-岩相学等新方法研究认为,凤太晚古生代沉积盆地属于受板块斜向俯冲碰撞动力学控制下的拉分盆地。在中泥盆世初期,凤太沉积盆地被周缘垂向基底隆起分隔,其成盆构造动力学主要受四组同生断层,晚古生代沉降中心和沉积中心不断发生迁移。中泥盆世中期在盆地北部形成了北西向沉降中心和沉积中心,晚泥盆世末期沉积盆地萎缩,沉降中心和沉积中心收缩于沉积盆地中心。石炭纪沉降中心和沉积中心从盆地中心迁移到盆地四周边缘的同生断裂带附近,在沉积盆地北侧边缘商丹带南侧,形成了石炭纪-早三叠世与俯冲消减带有关的楔状沉积充填体。在凤太拉分盆地中形成的近东西向、北北东向、近南北向和北西向网状同生断裂带系统共同控制了凤太泥盆纪拉分盆地形成与演化过程。其中,商丹带(西段)、礼县-凤县-凤镇-山阳同生断裂带(中段)和酒奠梁-镇安-板岩镇同生断裂带(西段)三个主控同生断裂带不但在泥盆纪期间对于凤太泥盆纪拉分盆地形成具有显著控制作用,而且石炭纪-早三叠世拉分盆地演化过程也具有十分重要的控制作用,石炭纪-早三叠世同生断裂带发生构造反转并控制了沉降中心和沉积中心。采用沉积盆地动力学和构造-岩相学等新方法研究认为,在凤太晚古生代拉分盆地具有分级特征,西部凤县二级盆地为金-多金属成矿集中区,东部太白二级盆地为金矿成矿集中区。在八方山-银母寺三级拉分盆地中,八方山和银母寺等多金属矿床与八卦庙超大型金矿床具有矿田尺度上成矿分带,主要由于三级盆地、同生断裂、热水沉积岩相和构造热流体叠加岩相控制了矿田和矿床尺度上金与多金属成矿分带。凤太拉分盆地北部和东部金矿矿源层和初步富集成矿形成主要与泥盆纪钠长岩相和钠质热水沉积岩相有关,并受钠长碳酸质角砾岩-铁白云石钠长石角砾岩等石炭纪构造-热流体岩相叠加;凤太拉分盆地南部温江寺三叠系浊积岩系中热水硅质岩相和层状英安质凝灰岩是卡林型金矿重要赋矿层位;凤太拉分盆地中部热水沉积-改造型铅锌矿主要与硅质岩相和菱铁矿铁白云岩相等热水沉积相密切有关。 相似文献
16.
《Chemie der Erde / Geochemistry》2022,82(3):125902
The volcanic rock system of the Miaoling Formation contains the main ore-bearing rocks of two volcanogenic massive sulfide (VMS)-type deposits in the Yanbian area of NE China. Investigation of the VRSMF is needed to better understand the formation of these VMS-type deposits and the tectonic evolution of the Yanbian area. To determine the petrogenesis, material sources, and formation age of the VRSMF, and elucidate its late Paleozoic tectonic evolution and metallogenic significance, this paper presents new petrological, geochronological, geochemical, whole-rock Sr–Nd and in situ zircon Hf isotopic data for the VRSMF. The VRSMF is composed of marine carbonate, intermediate–felsic volcanic rocks (andesite–trachyandesite–dacite) and pyroclastic rocks. Laser-ablation–inductively coupled plasma–mass spectrometry zircon U–Pb dating gives an eruption age of ca. 265 Ma for the pyroclastic rocks in the VRSMF. These rocks are classified as low- to medium-K calc-alkaline series. They are characterized by enrichments in large-ion lithophile elements (e.g., K, Rb, and Ba) and light rare earth elements, and depletions in high field-strength elements (e.g., Nb, Ta, and Ti) and heavy rare earth elements, showing affinity to igneous rocks formed in arc-related tectonic settings. These features, together with homogeneous zircon εHf(t) values of 10.9–15.7 and depleted Sr–Nd isotopic compositions [εNd(t) values of 2.4–5.0], suggest that the parental magma was derived from the partial melting of depleted mantle that had been metasomatized by subduction-related fluids. These results, along with findings of regional geological investigations, suggest that the formation of the VRSMF was related to subduction of the Paleo-Asian oceanic plate during the middle Permian. The VMS-type mineralization in the Hongtaiping and Dongfengnanshan deposits is interpreted to have formed in a bimodal–felsic setting in a back-arc extensional tectonic environment. 相似文献
17.
18.
Although the sources of the ore metals remain problematic in most Iron-oxide Cu and Au (IOCG) deposits, external sulphur, either from surficial basinal brines and seawater (e.g., Central Andean and Carajás deposits) or from formation water and metamorphic fluids (e.g., the Cloncurry deposits), or introduced by magmatic assimilation of metasedimentary units (e.g., Phalaborwa), has been documented in many major Cu-rich IOCG centres. However, only the evaporite-sourced fluids yield diagnostically high δ34S values (i.e., > 10‰), while sedimentary formation water or metamorphic fluids commonly have lower values and are less clearly distinguishable from magmatic fluids, as in the Cloncurry deposits in which the involvement of external fluids is revealed by other evidence, such as noble gas isotopes. On the basis of these arguments, IOCG deposits could be redefined as a clan of Cu (AuAgU) deposits containing abundant hypogene iron oxide (magnetite and/or hematite), in which externally-derived sulphur probably plays an important role for the Cu (AuAgU) mineralization. In this definition, all “Kiruna-type” magnetite deposits, hydrothermal iron deposits (e.g., skarn Fe deposits) and magnetite-rich porphyry CuAu and skarn CuAu deposits are excluded. Two subtypes of IOCG deposits are recognized on the basis of the predominant iron oxide directly associated with the Cu (Au) mineralization, whether magnetite or hematite. Neither magnetite- nor hematite-rich IOCG deposits show any preference for specific host rocks, and both range in age from Neoarchean to Pleistocene, within a broad tectonic environment. 相似文献
19.
粤北盆地流体系统及其矿化特征 总被引:3,自引:0,他引:3
盆地构造演化流体系统矿化作用是当代矿床学研究的新课题。盆地演化过程 ,压实流体系统温度场、动力场和地球化学场可以通过地质研究和数字模拟来重塑。粤北晚古生代沉积盆地存在 3种类型的矿化流体。大宝山型流体与岩浆热动力作用有关 ,形成海底火山热液沉积多金属矿床 ;凡口型流体与深部建造的循环热液有关 ,形成中低温海底热泉喷溢沉积铅锌银汞矿床 ;红岩型流体与盆地成岩压实水有关 ,形成低温单一黄铁矿矿床。红岩地区盆地压实流体系统在盆缘古隆起地段形成红岩型黄铁矿矿带的同时 ,还形成特征的白云岩化作用。白云岩产状和组构、白云石“亮边”和“雾心”特征及地球化学特征表明 ,红岩型诸矿床的成因与盆地沉积物压实过程形成的流体有关 相似文献
20.
QIN Dexian LIU ChunxueKunming University of Science Engineering Kunming Yunnan 《《地质学报》英文版》2000,74(3):466-472
The Kangdian axis basement can be divided into two tectonic layers. The lower tectonic layer is the crystalline basement which is made up of the Archaean Dibadu Formation and early Proterozoic Dahongshan Group. The former is a kata-metamorphic basic volcano-sedimentary formation of the old geosyncline (old continental nucleus), and the latter is a medium-grade metamorphosed alkali-rich basic volcanic (emanation)-sedimentary formation of the Yuanjiang-Dahongshan marginal rift. They are in disconformable contact. The upper tectonic layer is the folded basement, and made up of the middle-late Proterozoic Kunyang Group. It is the result of Dongchuan-Yuanjiang intercontinental rifting with discordant contract with the underlying and overlying strata. Along with the evolution of Proterozoic from early to late, four types of emanation-sedimentary deposits in the Kangdian axis rift were formed in turn: (1) emanation-sedimentary iron-copper-gold deposits related to basic volcanic rocks in the Yuanmou-Dahongshan 相似文献