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西藏铁格隆南铜(金)矿床三维模型分析与深部预测 总被引:1,自引:1,他引:0
铁格隆南铜(金)矿床是近年来在班公湖-怒江成矿带西段多龙矿集区新发现的超大型Cu(Au-Ag)矿床。本文针对铁格隆南矿区深部找矿问题,以现代成矿地质理论和多元地学信息综合分析技术为支撑,以构建矿床找矿模型为指导,依托数据库技术、3S技术、三维建模与可视化技术及地质统计学理论与方法,开展基于矿产地质、地球物理、地球化学等成矿条件及找矿标志的三维地质实体建模与矿化异常三维空间重构,将铁格隆南矿床的预测评价研究拓展到三维空间,揭示了区内成矿地质特征、地球化学及地球物理异常表征,据此探讨了矿床的成因及矿体分布特征。并在此基础上,开展了矿区的地质-地球化学-地球物理综合信息分析与预测评价,以期减少单一信息多解性和成矿条件不确定性,为铁格隆南矿区深部找矿工作提供参考。研究结果表明:在地质找矿模型指导下,基于深部成矿空间三维结构重构基础上的三维地质、地球物理、地球化学异常信息提取与综合分析,可以有效的识别成矿地质体和矿致异常信息,实现深部矿产资源靶区空间定位预测,为深部找矿预测研究提供了新思路。综合分析结果显示铁格隆南矿床深部找矿潜力巨大。 相似文献
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矿产资源评价系统及其在东昆仑的应用 总被引:7,自引:2,他引:5
多元信息成矿预测是一种高效、高质量的找矿勘查方法,代表了当今找矿评价工作中的主流发展趋势,该方法是以成矿地质理论为指导、以地物化遥异常理论为依托、借助数学方法和计算机技术对地物化遥异常中的各种与矿床有关的信息进行量化分析,从而进行成矿预测的一种找矿勘查技术方法。本研究的重点是应用矿产资源评价系统,分析和运用研究区的地质、地球化学和地球物理信息,构造预测变量,将各种有利于矿床形成的变量进行成矿有利度得分和多源信息综合定量分析,在此基础上,综合分析东昆仑地区地质、矿产、地球物理和地球化学信息,根据已知矿床反映出的成矿规律、控矿条件及找矿标志建立找矿模型,对东昆仑地区进行了1:50万综合成矿预测,获得Sedex型矿床在东昆仑地区的成矿有利度分布,并圈定出找矿远景区。为东昆仑地区找矿预测提供了重要依据。 相似文献
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以前人工作成果为基础,通过研究区成矿地质特征及成矿相关信息分析,论述区内金矿的成矿规律和找矿标志,认为矿床受北东向与近东西向的脆性断裂构造控制,矿床成因类型属构造蚀变岩型金矿床。运用成矿规律和地质、重砂、地球化学特征综合类比进行成矿预测,共圈定两个成矿预测区。 相似文献
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基于GIS的多元信息成矿预测研究——以赤峰地区为例 总被引:18,自引:1,他引:17
由于找矿难度越来越大,应用地质、地球物理、地球化学、遥感等资料进行综合信息成矿预测是目前找矿工作发展的一个重要趋势。GIS技术已成为多元信息深层次提取与综合,实施综合信息成矿预测的有效工具。文中以赤峰地区有色金属资源成矿预测研究为例,在总结区域成矿规律的基础上,以地质异常致矿理论为指导,利用GIS平台提取地质、地球物理、地球化学、遥感多元地质找矿信息,并利用航磁、重力资料进行隐伏构造、岩体等相关地质找矿信息的推断与解释,进一步丰富和深化成矿地质背景与深部找矿信息。在此基础上,建立多元地质异常信息找矿模型,采用证据权模型进行多元找矿信息的综合,对有利成矿区进行圈定。预测结果显示,在赤峰地区北部有三条北东-南西向的有利成矿区带,在南部有一条北西-南东向有利成矿区带,已知的86%的矿床或矿点位于这些有利区内,显示出良好的预测效果。本文的研究思路、方法为多元信息成矿预测研究提供了参考,其成果为赤峰地区的有色金属资源勘探开发提供了科学依据。 相似文献
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Wu Guoxue 《吉林大学学报(地球科学版)》1994,(4)
首先研究矿床的控矿因素及矿床的形成机理,建立矿床的地质找矿标志;其次研究矿床的间接信息特征,建立地球物理及地球化学成矿找矿标志;最后将上述内容有机地关联,确定出矿床的综合找矿标志,并对其预测可靠性进行了评价。 相似文献
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团结沟金矿床综合找矿标志研究 总被引:3,自引:0,他引:3
吴国学 《长春地质学院学报》1994,24(4):397-403
首先研究矿床的控矿因素及矿床的形成机理,建立矿床的地质找矿标志;其次研究矿床的间接信息特征,建立地球物理及地球化学成矿找矿标志;最后将上述内容有机地关联,确定出矿床的综合找矿标志,并对其预测可靠性进行了评价。 相似文献
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Please?refer?to?the?attachment(s)?for?more?details. 相似文献
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Gold Headquarter of the CAPF has discovered the Yangshan super large-scale gold deposit in Gansu Province, which is a great breakthrough of gold exploration and prospecting in Western Qinling Mountains of China. The gold resources of this deposit achieved 308 tons with increasing potentials. Preliminary geological investigations indicate that the Yangshan gold deposit is located in the intra-continental collision orogenic belt; and the deposit was formed during the continent-continent collision orogenic processes. The geological characteristics of the deposit are similar to that of the typical Carlin-type gold deposits, while differences still exist. The ore-forming background is notably different from the Carlin gold deposit province in the United States; and the ore-forming fluids are similar with that of the orogenic-type gold deposit. Accordingly, the Yangshan gold deposit is a transitional type between the Carlin-type and the orogenic type gold deposits. At present, the Yangshan gold deposit is the largest Carlin and Carlin-like type gold deposit that is ever discovered in China. Researches on metallogeny, metallogenic model and ore-enrichment regularities of the Yangshan gold deposit are crucial to meet the pressing needs of the current geological investigation and ore exploration of the deposit. 相似文献
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Gold Headquarter of the CAPF has discovered the Yangshan super large-scale gold depositin Gansu Province, which is a great breakthrough of gold exploration and prospecting in WesternQiniing Mountains of China. The gold resources of this deposit achieved 308 tons with increasingpotentials. Preliminary geological investigations indicate that the Yangshan gold deposit is located inthe intra-continental collision orogenic belt; and the deposit was formed during the continent-continentcollision orogenic processes. The geological characteristics of the deposit are similar to that of thetypical Carlin-type gold deposits, while differences still exist. The ore-forming background is notablydifferent from the Carlin gold deposit province in the United States; and the ore-forming fluids aresimilar with that of the orogenic-type gold deposit. Accordingly, the Yangshan gold deposit is atransitional type between the Carlin-type and the orogenic type gold deposits. At present, the Yangshangold deposit is the largest Carlin and Carlin-like type gold deposit that is ever discovered in China.Researches on metaliogeny, metaliogenic model and ore-enrichment regularities of the Yangshan golddeposit are crucial to meet the pressing needs of the current geological investigation and oreexploration of the deposit. 相似文献
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Alireza ZARASVANDI Mona SAMETI Martiya SADEGHI Fatemeh RASTMANESH Hooshang POURKASEB 《《地质学报》英文版》2014,88(1):142-152
The Gol-e-Zard Zn-Pb deposit is one of several sediment-hosted Zn-Pb deposits found in the central part of the Sanadaj-Sirjan Zone, known as the Isfahan-Malayer belt, western Iran. Mineralization occurs in Upper Triassic to Jurassic phyllites and meta-sandstones. Sphalerite and galena are the most abundant metallic ores, with minor chalcopyrite. Calcite and quartz are the main gangue minerals. Fissure filling, replacement textures and especially mineralized faults, suggest an epigenetic stage in the Gol-e-Zard deposit formation. Geochemical studies of mineralized rocks show high concentrations of Zn, Pb and Cu, (Zn and Pb > 10000 ppm and Cu average 3000 ppm). LREE enrichment (LREE>HREE, La/Lu average 1.44) and positive Eu anomalies (Eu/Eu*>1 average 1.67) indicate reducing conditions during the deposition of deposit. However, some samples do not display negative Ce anomalies, which indicate that localized oxidizing conditions are also present. This study indicates that the Gol-e-Zard deposit formed due to circulating hydrothermal fluids in a marine environment. A SEDEX-type genesis, which is defined by circulating hydrothermal fluids through sediments in a marine environment, and syngenetic precipitation of Zn and Pb sulphides, is suggested for the Gol-e-Zard deposit. Emplacement of some granitoid intrusions such as the Aligudarz granitoid intrusion remobilized mineralizing fluids and metamorphosed the Gol-e-Zard deposit. 相似文献
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斑岩铜矿床研究进展 总被引:1,自引:0,他引:1
斑岩铜矿不但形成于环太平洋成矿域,还形成于特提斯成矿域和中亚成矿域(古亚洲洋成矿域)。成矿物质来源于深部,经过“洋壳一地幔熔岩流”、“原始岩浆”、“浅部富矿岩浆”和“岩浆结晶一成矿”4个阶段,其中在“原始弧岩浆”阶段,通过MASH过程,有大量成矿物质和能量的聚集。成矿流体为富H2O、高温、高压、高盐度、强氧化性、高氧逸度的富矿气液相流体,这些特点有利于成矿物质在岩浆一热液分离过程中向流体富集,并以氯络合物的形式运移。随着成矿流体的上侵,温度和压力的降低是成矿物质沉淀的主要影响因素。磁铁矿的结晶为成矿流体提供了大量的S2-离子,也是导致成矿物质沉淀的主要因素。斑岩型蚀变带从里向外为石英内核、钾化带、SCC带和泥化带,铜矿化主要发育在矿化带外围以及SCC带。目前,斑岩铜矿成矿模型主要有经典模型、系统模型和多阶段叠加模型。 相似文献