冀北万全寺银金矿床地质地球化学特征     

王宝德  牛树银  孙爱群  刘亚明  郭鹏志  孙双海 《地质与勘探》2008,44(1):15-20

万全寺银金矿床位于张宣幔枝构造东侧的侏罗纪断陷盆地中,成矿时限晚于133.33Ma～101.82 Ma.通过硫、铅、氢、氧、碳及稀有气体同位素研究认为,成矿物质应源自地球深部,在中生代冀西北幔枝构造演化过程中集中成矿.成矿热液以岩浆水为主并加入了部分天水.  相似文献   

胶东半岛金矿床控矿构造特点浅析          下载免费PDF全文

赵冬冬  黄吉友  金刚 《地质找矿论丛》2008,23(2):125-129

胶东半岛金矿床的矿体(脉)均严格受断裂构造控制,这种控矿的脆/韧性叠加构造的显著特点是多期(次)活动的叠加,经过了早期的韧性剪切、后期的脆性压扭性碎裂岩化、晚期的脆性张性断裂叠加3个阶段.脆/韧型叠加构造与按"构造相"划分的脆-韧性剪切带是不同的概念,它们是性质和演化历史完全各异的两类断裂构造.金矿往往直接产于张性断裂之中,但是在同空间中更早形成的韧性剪切带和压扭性碎裂岩则对金矿化的规模具有明显的控制作用.  相似文献   

贵州省排庭金矿地质特征与成因分析     

伍守荣 《矿产与地质》2008,22(1):55-61

排庭金矿是贵州三都——丹寨锑、汞、金成矿带上,继苗龙锑-金矿、宏发厂汞-金矿后首次发现的产于中下寒武统独立型的微细浸染型金矿,其矿体受断裂构造、地层、岩性等因素控制,矿床规模为中型。对该矿床的地质特征及成因进行总结和分析,对于华南褶皱带与扬子准地台过渡带寻找寒武纪地层中的微细浸染型金矿具有重要的借鉴和指导意义。  相似文献   

利国矿区铜（金）成矿条件的研究     

徐强  董铃翔  段薇心  许克明 《矿产与地质》2008,22(6):531-535

利国矿区是江苏省重要铁矿基地之一,矿区位于秦岭一昆仑纬向构造带东延的南侧与新华夏构造体系第三隆起带的交接复合部位。铁矿床主要产于燕山期闪长玢岩杂岩体与下奥陶统碳酸盐地层的接触带及其附近灰岩中,矿体呈似层状一透镜状等,产状与围岩一致,具层控矿床的特征。笔者主要从成矿地质特征着手,分析总结了该区铜、金矿化特征及主要成矿规律,指出了利国矿区铜（金）矿的找矿方向和有望靶区。  相似文献   

大岭子金矿地质特征及选矿浸出率     

赵明统  王华  付冬梅 《云南地质》2008,27(2):149-155

大岭子金矿V1矿体赋存于中元古界高黎贡山群变质岩中,受韧性剪切带控制,矿石类型以氧化矿石为主。提出选矿依据。  相似文献   

富宁阳文冲-广南菜子垣热液淋滤卡林型金矿区     

王泽传  王维刚  吴赵全 《云南地质》2008,27(3):309-314

金矿区构造活动具有多期性：加里东期及海西期在矿区形成的薄弱角度不整合面、近南北向平行的滑脱断层,是含矿热液的运移、沉淀的通道和空间。金矿床应属地下热液淋滤卡林型金矿床。  相似文献   

云南绿春咪霞金矿成矿地质条件   总被引：1，自引：0，他引：1  

普玉斌  杨玉华 《云南地质》2008,27(3):325-330

咪霞金矿赋存在多元素高背景值下志留统薄层状蚀变板岩中,受北西向F6-1断裂及正长岩、煌斑岩控制,与多元素异常、黄铁矿化等多种围岩蚀变对应,具较好的成矿地质条件。  相似文献   

四川德格错阿金矿特征与矿床成因初析   总被引：2，自引：0，他引：2  

闫建梅  林高源  廖怀清 《四川地质学报》2008,28(3):208-210

错阿金矿床赋存于理塘义敦群上三叠统瓦能组变基性火山岩中,金矿体受次级北北西-近南北向韧性-脆韧性剪切变质带控制,与金矿化有关蚀变主要为黄铁矿化、辉锑矿化和硅化、碳酸盐化、金云母化及石墨化。矿床成因为蚀变构造型。甘孜-理塘断裂带北段嗄拉、错阿、海子口三个矿化集中区内大部份化探异常具有面积大、强度高、梯度变化大、元素组合好等特点,具有很好的找矿前景。  相似文献   

Petrogenesis of Cretaceous adakitic and shoshonitic igneous rocks in the Luzong area, Anhui Province (eastern China): Implications for geodynamics and Cu–Au mineralization     

Qiang Wang  Derek A. Wyman  Ji-Feng Xu  Zhen-Hua Zhao  Ping Jian  Xiao-Lin Xiong  Zhi-Wei Bao  Chao-Feng Li  Zheng-Hua Bai 《Lithos》2006,89(3-4):424-446

Both adakitic and shoshonitic igneous rocks in the Luzong area, Anhui Province, eastern China are associated with Cretaceous Cu–Au mineralization. The Shaxi quartz diorite porphyrites exhibit adakite-like geochemical features, such as light rare earth element (LREE) enrichment, heavy REE (HREE) depletion, high Al₂O₃, MgO, Sr, Sr / Y and La / Yb values, and low Y and Yb contents. They have low ε_Nd(t) values (− 3.46 to − 6.28) and high (⁸⁷Sr / ⁸⁶Sr)_i ratios (0.7051–0.7057). Sensitive High-Resolution Ion Microprobe (SHRIMP) zircon analyses indicate a crystallization age of 136 ± 3 Ma for the adakitic rocks. Most volcanic rocks and the majority of monzonites and syenites in the Luzong area are K-rich (or shoshonitic) and were also produced during the Cretaceous (140–125 Ma). They are enriched in LREE and large-ion lithophile elements, and depleted in Ti, and Nb and Ba and exhibit relatively lower ε_Nd(t) values ranging from − 4.65 to − 7.03 and relatively higher (⁸⁷Sr / ⁸⁶Sr)_i ratios varying between 0.7057 and 0.7062. The shoshonitic and adakitic rocks in the Luzong area have similar Pb isotopic compositions (²⁰⁶Pb / ²⁰⁴Pb = 17.90–18.83, ²⁰⁷Pb / ²⁰⁴Pb = 15.45–15.62 and ²⁰⁸Pb / ²⁰⁴Pb = 38.07–38.80). Geological data from the Luzong area suggest that the Cretaceous igneous rocks are distributed along NE fault zones (e.g., Tanlu and Yangtze River fault zones) in eastern China and were likely formed in an extensional setting within the Yangtze Block. The Shaxi adakitic rocks were probably derived by the partial melting of delaminated lower crust at pressures equivalent to crustal thickness of > 50 km (i.e., 1.5 GPa), possibly leaving rutile-bearing eclogitic residue. The shoshonitic magmas, in contrast, originated mainly from an enriched mantle metasomatized by subducted oceanic sediments. They underwent early high-pressure (> 1.5 GPa) fractional crystallization at the boundary between thickened (> 50 km) lower crust and lithospheric mantle and late low-pressure (< 1.5 GPa) fractional crystallization in the shallow (< 50 km) crust. The adakitic and shoshonitic rocks appear to be linked to an intra-continental extensional setting where partial melting of enriched mantle and delaminated lower crust was probably controlled by lithospheric thinning and upwelling of hot asthenosphere along NE fault zones (e.g., Tanlu and Yangtze River fault zones) in eastern China. Both the shoshonitic and adakitic magmas were fertile with respect to Cu–Au mineralization.  相似文献   

厚层覆盖区综合物化探方法找金试验研究——以广西兴安金石金矿为例     

胡云沪  罗先熔  王桂琴  杜建波  张小路 《矿产与地质》2002,(5)

在兴安金石金矿外围 4号分散流异常区 ,通过地电化学提取金测量法 ,查明测区存在 5个走向规模小于 5 0 m的金异常区 ,W( Au) 最大值为 72 .4× 10 - 9,高出背景值十几倍 ,并藉综合土壤吸附汞测量 ,高精度磁测和激发极化法等多种物化探方法来确定这些异常区的地质、地球化学和地球物理特征 ,提出金矿成矿的有利部位在金的地电提取高异常区、高汞量异常区、高磁性异常区、低视电阻率异常区和中等视极化率异常区的“三高一低一中”的找矿模式。确定测区的北北东角 (右下角 )一带具备有利的金矿成矿条件  相似文献