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1.
通过对我国西南“三江”地区嘎村与老厂两个大型海相火山岩型银矿床和我国东部及新疆天山地区陆相火山岩-次火山岩型银矿的地质地球化学研究,认为海相火山岩型银矿床主要产于岛弧、裂谷构造环境的次级火山-沉积盆地中,矿床具有明显的分带现象,下部为脉状-网脉状矿化,上部为产于热水沉积岩中的层状矿化(主矿体),从地表向深部成矿元素为As(Au)→Ag,Pb,Zn→Cu,嘎村矿床的层状矿体全岩Rb-Sr同位素等时线年龄为(204±14)Ma,主成矿期为晚三叠世。陆相火山-次火山岩(斑岩)型银矿床银矿形成时代多晚于围岩,矿石构造以浸染状、细脉浸染状、网脉状和团块状为主。并详细地研究了陆相火山岩-次火山岩型银矿床的矿床地球化学特征和银矿床或银与萤石、卤素元素、锰的关系。 相似文献
2.
我国与火山岩有关的大型、超大型银矿床 总被引:6,自引:0,他引:6
通过对我国西南“三江”地区嘎村与老厂两个大型海相火山岩型银矿床和我国东部及新疆天山地区陆相火山岩次火山岩型银矿的地质地球化学研究,认为海相火山岩型银矿床主要产于岛弧、裂谷构造环境的次级火山-沉积盆地中,矿床具有明显的分带现象,下部为脉状-网脉状矿化,上部为产于热水沉积岩中的层状矿化(主矿体),从地表向深部成矿元素为As(Au)→Ag,Pb,Zn→Cu,嘎村矿床的层状矿体全岩Rb-Sr同位素等时线年龄为(204±14)Ma,主成矿期为晚三叠世.陆相火山-次火山岩(斑岩)型银矿床银矿形成时代多晚于围岩,矿石构造以浸染状、细脉浸染状、网脉状和团块状为主并详细地研究了陆相火山岩-次火山岩型银矿床的矿床地球化学特征和银矿床或银与萤石、卤素元素、锰的关系. 相似文献
3.
乌拉嘎金矿主要控矿因素是构造破碎带及裂隙带、斜长花岗斑岩体和老基底变质杂岩.其中构造破碎带是最主要控矿因素.矿化富集与含金玉髓状石英细脉或细网脉、黄铁一白铁矿脉和碳酸盐脉的发育程度密切相关.含金热液脉体的形态产状受构造破碎带和裂隙带控制,经过多期次叠加,往往造成矿化的进一步富集.矿体呈脉状、复脉状、扁豆状等形态.上述特点为该区电法找金提供了先决条件.金矿石是本区主要极化体.在乌拉嘎金矿区的张才沟靶区获得低阻高极化和高阻高极化异常,可望找到含金石英脉及含矿破碎带. 相似文献
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楚雄盆地砂岩铜矿成矿机理研究 总被引:8,自引:0,他引:8
楚雄盆地砂岩铜矿形成于白垩系高峰寺组和马头山组中,矿体呈似层状、透镜 状,受层位控制.矿石构造以浸染状、条纹状为主,并见矿化受泄水构造和准同生变形 构造控制,在郝家河矿中有脉状矿体产出.矿体多见于背斜缓倾斜翼,具包卷前锋.矿 化分带明显,这种分带形成于浅紫交互部位.硫、铅同位素和稀土资料研究显示,铜来 自围岩,硫为细菌还原硫,主要来自下部层位,在成岩期间来自上部的氧化含铜卤水和 来自下部的还原卤水,在应力中和面反应形成矿体. 相似文献
7.
北武夷梨子坑火山盆地流纹斑岩与铅锌矿的成因关系 总被引:1,自引:0,他引:1
摘要:梨子坑火山盆地位于北武夷中生代月凤山-梨子坑火山岩带东段,已知铅锌(铜、银)矿体或矿化呈细脉-浸染型、脉状,产于流纹斑岩脉的内外接触带及其外侧围岩中,发育钾化、绿泥石化、硅化、绿帘石化等围岩蚀变。地球化学特征显示流纹斑岩为钙碱性系列,岩石具有高SiO2、富碱、高K2O、高钙铁、低镁、K2O/Na2O值偏高的特点,为强过铝质岩石。w(∑REE)值为76.28×10^-6~222.54×10&-6(∑LREE/∑HREE)比值较大,为4.08-12.30,属于轻稀土元素富集型。成矿流纹斑岩形成于1372=2.1Ma(SHRIMP锆石U—Pb法)~138.8±1.4Ma(LA-MC—ICPMS锆石U—Pb法),属早白垩世。铅锌矿属于次火山斑岩脉型铅锌(银铜)成矿系列,划分为次火山斑岩脉型和次火山热液破碎带型两种矿床成因类型。 相似文献
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江西省万载县野猫冲铜矿床为中低温热液(成矿流体)沿构造破碎带蚀变-蚀变岩型铜矿床。在地表地质调查、钻孔岩芯考察及岩矿鉴定的基础上,对野猫冲铜矿控矿构造进行详细研究,表明北东东向大型叠瓦状推(滑)覆构造控制矿区内各地质单元的延深与展布,北东向韧性剪切变形带控制矿区铜金矿体的展布,矿体呈似层状赋存于韧性剪切断裂之间的次级层间破碎带和小断裂带内,带内发育较强的动热变质,硅化、绢云母化和绿泥石化发育。矿石以黄铜矿为主,贫硫,成矿流体具有多期次的活动、叠加改造的特点。上栗-潭埠-宜丰断裂带自西至东已发现20余处铜多金属矿床(点),显示该带具有巨大找矿潜力。 相似文献
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“尤德地体”位于闽中裂谷带南端,与紫金山金矿处于同一成矿带。在“尤德地体”中,目前已发现元古界麻源群变质岩和侏罗系长林组、南园组,火山岩中均存在韧性剪切带型矿床和热液交代充填矿床。区域构造、地层含矿性、物化探重砂异常等表明其找矿前景很好。找矿工作重点应紧扣层控矿床,大断裂带,斑岩型金矿和红土型金矿。 相似文献
10.
磨子潭-晓天断裂(晓天至佛子岭间)的构造分析 总被引:1,自引:0,他引:1
根据断裂带切割变质围岩中各期变形旋回形成的褶皱,断裂带中的断层岩为形成于地表条件下的角砾岩和碎裂岩并切割围岩中各种糜棱岩带,构成上侏罗统火山岩盆地的边界断层等特征,磨子潭-晓天断裂应是晚侏罗世形成于地表条件下的断层;根据断层附近上侏罗统砂岩夹层中的裂隙焊接,磨子潭-晓天断裂在晚侏罗世形成后,还有两次较强烈的活动。据地表、钻探和地震资料,断层面向北倾,倾角向深部变缓 相似文献
11.
霍山地震区位于大别造山带北缘华北板块与扬子板块接触带上,是大别造山带及周边地震活动最频繁、最集中的地区.83个大地电磁测点组成的大地电磁三维阵列覆盖了整个霍山地震区.用多重网格法、印模迭代重构法和非线性共轭梯度法对阵列数据进行三维带地形反演,获得了地震区深部三维电性结构.电性结构显示,北大别、北淮阳区的中上地壳为电阻率1000Ωm以上的高阻区,中下地壳为电阻率数十欧姆米的相对低阻区;六安盆地电阻率整体较低,中地壳存在显著的电阻率为几欧姆米的壳内高导层.北西向的晓天—磨子潭断裂分隔了北大别高阻层和北淮阳高阻层,在浅部向NE倾,深部向SW倾;北东向的落儿岭—土地岭断裂切穿北大别上地壳高阻层.小震双差定位结果表明,地震主要发生在NE向延伸的落儿岭—土地岭断裂附近的北大别、北淮阳中上地壳的高阻区,并集中于NW向的晓天—磨子潭断裂运动所造成的构造薄弱带中;2014年M S4.3霍山地震震源深度较深,位于北大别高阻区内部的电性梯度较大的区域.综合上述结果我们认为,霍山地震区的主要发震断裂为落儿岭—土地岭断裂,断裂的运动变形充分利用了晓天—磨子潭断裂早先活动所形成的构造薄弱带,断裂下方壳源高导体中的流体沿断层传播使断层强度弱化,使得这些薄弱带区易于发生小地震.由于北大别、北淮阳构造区显著高阻层的存在,我们认为霍山地震区存在发生6级以上中强震的深部孕震环境. 相似文献
12.
Metallogenesis of the Ertix gold belt, Xinjiang and its relationship to Central Asia-type orogenesis 总被引:11,自引:0,他引:11
The Ertix gold belt is located on the boundary of the Kalatongke arc and the Kelan back-arc basin of D-C1. Most scholars used
to interpret the formation and distribution of the gold deposits in the Ertix tectonic belt in terms of the petrogenic and
metallogenic models for active continental margins. However, enormous data of isotopic dating and geologic research show that
the mineralization was obviously later than the oceanic subduction, whereas exactly simultaneous with the collisional orogenesis
during C2-P, especially at the transition stage from collisional compression to extension. Based on study of metallogenic time, tectonic
background, ore geology, ore fluid nature, ore material source, etc., we reveal that all the gold deposits possess the character
of orogenic deposits formed in collisional orogenic system, and that their ore-forming materials mainly have derived from
the stratigraphic terranes south to individual deposits. Accordingly, the theoretical tectonic model for collisional metallogenesis
and petrogenesis is employed to explain the formation of the Ertix gold belt and to determine the gold exploration directions. 相似文献
13.
The Qinling Carlin-type gold deposit belt is the second largest Carlin-type gold ore concentrated area in the world and occurs in Mesozoic intracontinental collisional orogen, contrasting to the Carlin-type gold deposits in the Basin and Range province in Cenozoic active continental margin of West America. With ore-forming ages focussed at the range of 197.45–129.45 Ma, its metallogenic geodynamic background was the decompression-pyrogenation regime at the transition stage from collisional compression to extension, indicating that gold mineralization synchronized with the Mesozoic continental collision. Geochemical studies discover that ore fluids and materials mainly came from the Hercynian-Indosinian tectonic layer. Mesozoic intracontinental subduction of Hercynian-Indosinian association along the Shuanghe-Gongguan fault led to the formation of Jinlongshan-Qiuling gold deposits. Accordingly, the tectonic metallogenic model is established for Qinling-pattern Carlin-type gold deposits. 相似文献
14.
霍邱铁矿田位于华北地台南缘,处于北淮阳山字型构造脊柱部位。李老庄铁矿—菱镁矿床置于霍邱铁矿田中部。该矿床主要产于上太古界霍邱群变质岩系中,矿体赋存于富镁碳酸盐中,矿石类型可以分为菱镁矿磁铁矿石和蛇纹石磁铁矿石,各占25%。成矿物质来源于这些变质岩系的多层、分散的含铁建造矿源层中。依据矿床地质特征,结合矿石同位素地质和测年结果,李老庄铁矿—菱镁矿铁矿床是晚太古代海相火山—沉积变质型矿床。 相似文献
15.
Z. Qingdong S. Yuanchao L. Tiebing L. Guangming Z. Qirui S. Kunfa L. Hongchen S. Xiuying Y. Jinzhong 《Geophysical Prospecting》2004,52(2):97-108
Interlayer slipping breccia‐type gold deposit – a new type of gold deposit, defined recently in the northern margin of the Jiaolai Basin, Shandong Province, China – occurs in interlayer slip faults distributed along the basin margin. It has the features of large orebody thickness (ranging from 14 m to 46 m, with an average thickness of 30 m), shallow embedding (0–50 m thickness of cover), low tenor of gold ore (ranging from 3 g/t to 5 g/t), easy mining and ore dressing. This type of gold deposit has promising metallogenic forecasting and potential for economic exploitation. A ground gamma‐ray survey in the Pengjiakuang gold‐ore district indicates that the potassium/thorium ratio is closely related to the mineralization intensity, i.e. the larger the potassium/thorium ratio, the higher the mineralization. The gold mineralized alteration zone was defined by a potassium/thorium ratio of 0.35. A seismic survey confirms the location of the top and bottom boundaries and images various features within the Pengjiakuang gold mineralization belt. The gold‐bearing shovel slipped belt dips to the south at an angle of 50–55° at the surface and 15–20° at depth. The seismic profile is interpreted in terms of a structural band on the seismic section characterized by a three‐layered model. The upper layer is represented by weakly discontinuous reflections that represent the overlying conglomerates. A zone of stronger reflections representing the interlayer slip fault (gold‐bearing mineralized zone) is imaged within the middle of the section, while the strongest reflections are in the lower part of the section and represent metamorphic rocks at depth. At the same time, the seismic reflection survey confirms the existence of a granite body at depth, indicating that ore‐forming fluids may be related to the granite. A CSAMT survey showed that the gold‐bearing mineralized zone is a conductive layer and contains a low‐resistivity anomaly ranging from 2 Ωm to 200 Ωm. 相似文献
16.
LI Yonggang ZHAI Mingguo YANG Jinhui MIAO Laicheng & GUAN HongInstitute of Geology Geophysics Chinese Academy of Sciences Beijing China Correspondence should be addressed to Li Yonggang 《中国科学D辑(英文版)》2004,47(2):115-121
The Anjiayingzi gold deposit in Chifeng County, Inner Mongolia is located in the central part of the gold mineralization belt of the northern margin of the North China Craton (NCC), and is adjacent to the Paleozoic Inner Mongolia-Da Hinggan Mountains orogenic belt in the north. The Chifeng-Kaiyuan fault, which separates the NCC from this orogenic belt, is considered to be a regional ore-controlling structure. The Anjiayingzi gold deposit is a mediate-size quartz lode-gold deposit and is hosted by the Anjiayingzi quartz monzonite that was emplaced into the basement composed of early Precambrian gneisses. Rhyolitic and porphyritic dikes are generally associated with the gold mineralization. Zircon U-Pb analyses suggest that the Anjiayingzi granite was emplaced from 132 Ma to 138 Ma, while the rhyolitic dikes that occupy the same fracture system as the gold-bearing quartz veins and locally crosscut the gold lodes crystallized from 125 Ma to 127 Ma. These results constrain the mineralization age between 126 相似文献
17.
晚中生代以来,华北克拉通东部经历了以岩石圈减薄作用为主要特征的大规模岩石圈破坏.在此背景下,位于华北克拉通东部的胶东地区形成了大规模的伸展构造、广泛发育的花岗岩类侵入体和巨量的金矿化.为揭示胶东地区控矿构造在上地壳层次的发育特征及其与金成矿之间的联系,本文基于跨胶东半岛的NWW-SEE向短周期密集地震台阵剖面,开展了背景噪声成像研究,获得了胶东地区8km以浅的上地壳S波速度结构,其主要特征为:(1)胶东地区沉积层较薄,基底平均深度为1~2km左右;(2)垂向速度梯度显示胶西北基底/浅层高速间断面错断特征显著,与主要拆离断层对应关系良好,且相对速度扰动显示沿主要拆离断层发育SE倾向的条带状低速异常;(3)牟乳成矿带下方S波速度具有横向分块特征,与五莲—烟台等控矿断裂的陡倾特征吻合,且东部苏鲁造山带上地壳平均速度较胶西北地区明显偏高.综合本文成像结果及已有地质、地球物理资料,我们认为胶西北成矿带的控矿构造深部以大规模拆离断层为主要特征,而东部牟乳成矿带则以高角度的脆性(走滑)断裂为主,故控矿断裂构造的差异可能是胶东成矿区域性差异的主要控制因素. 相似文献
18.
J W Cole 《Bulletin of Volcanology》1990,52(6):445-459
Taupor volcanic zone (TVZ) is the currently active volcanic arc and back-arc basin of the Taupo-Hikurangi arc-trench system, North Island, New Zealand. The volcanic arc is best developed at the southern (Tongariro volcanic centre) end of the TVZ, while on the eastern side of the TVZ it is represented mainly by dacite volcanoes, and in the Bay of Plenty andesite/dacite volcanoes occur on either side of the Whakatane graben. The back-arc basin is best developed in the central part of the TVZ and comprises bimodal rhyolite and high-alumina basalt volcanism. Widespread ignimbrite eruptions have occurred from this area in the past 0.6 Ma. Normal faults occur in both arc and back-arc basin. They are generally steeply dipping (>40°) and strike between 040° and 080°. In the back-arc basin, fault zones are en echelon and have the same trend as alignments of rhyolite domes and basalt vents. Open fissures have formed during historic earthquakes along some of the faults, and geodetic measurements on the north side of Lake Taupo suggest extension of 14±4 mm/year. In the Bay of Plenty and ML=6.3 earthquake occurred on 2 March 1987. Modelling of known structure in the area together with data derived from this earthquake suggests block faulting with faults dipping 45°±10° NW and a similar dip is suggested by seismic profiling of faults offshore of the Bay of Plenty where extension is estimated to be 5±2 mm/year. To the east of the TVZ, the North Island shear belt (NISB) is a zone of reverse-dextral, strike-slip faults, the surface expression of which terminates at the eastern end of the TVZ. On the opposite side of the TVZ in the offshore western Bay of Plenty and on line with the NISB is the Mayor Island fault belt. If the two fault belts were once continuous, as seems likely, strike-slip faults probably extend through the basement of the TVZ. When extension associated with the arc and back-arc basin is combined with these strike-slip faults, the resulting transtension provides a suitable tectonic environment for caldera formation and voluminous ignimbrite eruptions in the back-arc basin. The types of volcano in the TVZ are considered to be related to the source of magma and overlying crustal structure. Lavas of the arc are probably formed by a multistage process involving (1) subsolidus slab dehydration, (2) anatexis of the mantle wedge, (3) fractionation and minor crustal assimilation and (4) magma mixing. High-alumina basalts of the back-arc basin may be derived by partial melting of peridotite at the top of the mantle wedge, while rhyolitic magmas are thought to come from partial melting of lavas and subvolcanic reservoirs associated with the southern end of the Coromandel volcanic zone. Extreme thinning associated with transtension in the back-arc basin will favour the eruption of large-volume, gas-rich ignimbrites accompanied by caldera formation. 相似文献
19.
SHEN Ping SHEN Yuanchao LIU Tiebing LI Guangming & ZENG Qingdong Institute of Geology Geophysics Chinese Academy of Sciences Beijing China 《中国科学D辑(英文版)》2005,48(11)
The Kuoerzhenkuola gold field (including the Kuo- erzhenkuola and the Buerkesidai gold deposits), lo- cated 68 km east of Jimunai County in northern Xing- jiang, China, is an important component of the Sawuer gold belt which is the eastward extending part of the Zarma-Sawur gold-copper belt in Kazakhstan. Some studies are concerned with the geology of the gold ores[1―3], the associated volcanic rocks[4], radiogenic isotope[5―8], and the ore-forming environment[8]. Most researchers inferr… 相似文献