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东天山古弧盆体系成矿规律与成矿模式 总被引:3,自引:1,他引:2
东天山是中亚增生型造山带的重要组成部分,随古亚洲洋的形成、演化和消亡,发育了东天山古生代弧盆体系。基于前人对东天山古生代构造演化与成矿规律的大量研究,针对以往研究相对薄弱的早古生代构造演化与成矿,本文重点论述了以卡拉塔格矿集区为代表的早古生代构造-岩浆-成矿研究新进展,从而进一步探讨了东天山古弧盆体系古生代构造演化与成矿规律。本文将东天山古弧盆体系划分为大南湖-头苏泉成矿带和阿奇山-雅满苏成矿带,又将前者划分为卡拉塔格成矿亚带和小热泉子-土屋成矿亚带;总结出其成矿具有VMS成矿系统与斑岩成矿系统共存、多种矿化类型叠加的特征;区域共发育两次大规模成矿事件,且均与大规模火山-侵入岩浆活动有关,进而构建了东天山古弧盆体系区域成矿模式;并指出东天山古生代弧-盆多方向、多期次的转换是导致该体系内VMS-斑岩型矿床共存、叠加成矿发育的主因。 相似文献
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本文以焦家断裂带深部上盘发现金矿体的地质事实为依据,将焦家断裂在成矿后对矿体的破坏作用作为讨论重点,根据现今焦家断裂上、下盘金矿体以断层泥为界,有被错断的明显特征,指出发育在焦家断裂主断裂面中的断层泥为成矿后断裂活动的产物.依据上、下盘金矿在矿石类型、围岩蚀变、矿石矿物、成矿阶段等方面具有极为相似一致特征,提出在117... 相似文献
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通过对本区晚石炭世沉积岩和火山岩的岩相学类型及其特征研究,划分出山前洪积相(河流相)、水下三角洲沉积相、海岸潮坪相、浅海相、火山沉积岩相、火山喷溢相、火山喷发岩相、热水沉积岩相、火山热水蚀变岩相和矽卡岩相等10种不同岩相和相应的亚相,这种特征属大陆挤压收缩体制下活动大陆边缘上的火山-沉积岩相学组合类型。垂向相序结构表明在热水沉积岩相上下均有较强的火山活动,为成矿提供所需的热能。在库姆塔格晚石炭世压陷盆地中,热水沉积岩相的纵向相序结构为热水角砾岩亚相→菱铁矿岩亚相/石膏岩亚相→铁白云石岩亚相→碧玉岩亚相→铁白云石岩亚相,这种组合是寻找“库姆塔格型”大型石膏菱铁矿矿床的岩相学标志。本区火山-沉积岩相总的沉积序列显示向上由浅变深→由深变浅趋势,沉积物源主要来源于华力西期岛弧带剥蚀区及其南侧(中天山)基底隆起带;火山喷发仍形成发生在浅海环境中,具有大陆挤压收缩体制下(中天山造山带)后陆盆地沉积特点;晚石炭世原型沉积盆地可能为后陆盆地,有利于大型石膏菱铁矿矿床保存。 相似文献
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The Beiya gold–polymetallic deposit is one of the largest gold deposits in China and is considered to be a typical porphyry-skarn system located in the middle of the Jinshajiang–Ailaoshan alkaline porphyry metallogenic belt. Massive magnetite is widespread in the Beiya ore district but its genesis is still the subject of debate. Five representative magnetite types are present in the Beiya deposit, namely magmatic magnetite (M1) from the ore-related porphyry, disseminated magnetite (M2) from the early retrograde alteration, massive magnetite (M3) from the early quartz-magnetite stage, massive magnetite (M4) from the middle quartz-magnetite stage and magnetite (M5) from the late quartz-magnetite stage. Compared with the M1 magnetite, the magnetites from stages M2 to M5 are depleted in Ti, Al and high field strength elements, implying a hydrothermal origin, distinct from the magmatic accessory magnetite in the ore-related porphyry (M1). The concentrations of cobalt in the hydrothermal magnetites decrease gradually from M2 to M5, and can be used to discriminate the magnetite types. The Al + Mn and Ti + V contents of the successively precipitated magnetite grains (M2–M5) suggests that the ore forming temperature decreased from M2 to M4, but increased from M4 to M5, possibly as the result of a new pulse of magma entering the chamber, which may have triggered the gold mineralization. The V content in the hydrothermal magnetite suggests that the oxygen fugacity increased from M2 to M4 but decreased as soon as the sulfides entered the system (M5). 相似文献
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通过对塔里木盆地西南部(塔西南)江格结尔地区下白垩统克孜勒苏群地层剖面测量,该地区的克孜勒苏群分为5个岩性段,岩性主要为泥质粉砂岩、岩屑砂岩、含砾砂岩、砾岩等,沉积相主要为辫状河三角洲相;其上覆的上白垩统库克拜组为介壳灰岩、膏质泥岩,沉积相为浅海相、滨海潟湖相; 下伏的上侏罗统库孜贡苏组岩性主要为杂砾岩、含砂杂砾岩和石英砂岩等,沉积相为冲积扇相;三者呈整合接触。从该区下白垩统克孜勒苏群的沉积特征来看,早白垩世为陆源碎屑沉积环境,在晚白垩世转入海相沉积环境。对比该区北侧陆内造山带中的拉分断陷盆地(萨热克巴依盆地)中下白垩统克孜勒苏群的地层层序,该区仅沉积了下白垩统克孜勒苏群下部3个岩性段而缺失上部岩性段,表明在早白垩世后期塔里木盆地北侧西南天山发生过一次抬升作用。下白垩统克孜勒苏群是铜铅锌铀矿等金属矿产的赋矿层位,同时也是塔里木盆地石油和天然气的重要储集层位,在铜铅锌等矿石中常可见大量的沥青等有机质,这些有机质主要源于下伏侏罗系的煤系烃源岩,并通过成矿流体参与了金属矿产的成矿作用,因而这种多矿种“同盆共存”的现象,在沉积盆地的研究中作为整体的成矿系统来研究将更有意义。 相似文献