西藏自治区昂仁县朱诺铜矿地质特征及找矿潜力远景评价

通过典型斑岩型铜矿模式对比,朱诺铜矿含矿斑岩体剥蚀程度为钾化带和黄铁绢英岩化上部,向深部及西部,具有较大的找矿潜力。     

Geochemical Characteristics of Granitoids of the Erdenet Porphyry Copper Deposit, Mongolia

Abstract. The Erdenet porphyry copper deposit is one of the major mineral deposits in Mongolia. The geochemical data of granitoids acquired for the Erdenet and its surrounding areas are re-examined. The granitoids of the Erdenet deposit with hypogene type mineralization show the lowest TiO₂ content. Although Ti was possibly lost through the pyritization, it is also possible that the hypogene type mineralization occurred accompanied with the most differentiated granitoids. The variation of the element contents related to the mineralization of the Erdenet deposit shows the decrease of MgO and CaO contents, rather constant K₂O content, rather constant to decrease of Na₂O content, with respect to the Cu contents. The rather constant Na₂O in the mineralized zone is owing to the residual albite against the sericitic alteration. The granitoids of the Erdenet area show an increase of Na₂O content and a decrease of K₂O content with an increase of SiO₂ content. This trend makes clear contrast to granitoids in the surrounding areas. The granitoids of the Erdenet area might have the adakitic nature based on the Sr and Y contents.     

金沙江-红河富碱侵入岩带斑岩型铜、金矿床的成矿流体研究

对金沙江–红河富碱侵入岩带内的玉龙、北衙、铜厂–长安冲三个斑岩型铜、金矿床的流体包裹体进行了详细研究。三个矿床成矿阶段的流体包裹体类型主要有H_2O-NaCl气液两相包裹体,含钠盐、钾盐/方解石、金属子晶多相包裹体以及H_2O-CO_2包裹体。成矿期流体均一温度多在250~500℃之间,高者可达650℃及以上,盐度多在10%~50%NaCleq之间,成矿流体都具有高温、高盐度、富K、富CO_2的特点,显示典型的岩浆热液特征。并且,单个流体包裹体的成分分析也显示流体中除含有较高的成矿元素Cu、Mo、Pb、Zn等外,还含较高的K、Rb、Sr等元素,进一步证明成矿流体源自岩浆分异流体,且经历过从高温高盐度到高温中低盐度的演化。结合该区流体包裹体中广泛存在沸腾包裹体群的事实,进一步证实沸腾作用在斑岩型矿床中的普遍存在,并且说明其很可能是这些矿床金属元素沉淀的重要机制。     

甘肃公婆泉铜矿区斑岩岩浆起源及成岩成矿大地构造背景

探讨了公婆泉矿区斑岩岩浆起源,论述了该矿区斑岩成岩成矿大地构造背景。研究结果表明,该矿区斑岩岩浆起源属幔壳混合源;斑岩成岩成矿大地构造背景为褶皱造山期。     

吉林延边地区斑岩型-浅成热液型金铜矿床

吉林延边地区为我国滨太平洋带的一个重要的金属成矿区，与中生代火山－次火山－侵入活动胶在的斑岩型－浅成热液矿床在时空上，成因上构成一个成矿系列，本文选择四个代表性矿床（小西南岔，闹枝，五凤和刺猬沟），较详细地介绍它们的成矿地质背景，矿床地质特征、流体包裹体，稳定同位素及成矿机制等。通过这些矿床的描述，勾画出一幅从中生代火山盆地边缘的隆起带的斑岩矿床（小西南岔）→中生代火山盆地边缘的隆起带的斑岩型矿岩     

斑岩型钼矿床研究进展与问题

本文在简要介绍全球重要成矿带斑岩型钼矿床品位、储量、时空分布以及构造背景的基础上,着重归纳了斑岩型钼矿床中Mo在岩浆—热液演化过程中的地球化学行为特征以及Mo在成矿流体中的迁移与沉淀机制两个方面的研究进展。取得了以下认识:形成斑岩型钼矿床成矿岩浆氧逸度(f_(O2))变化范围较大,但一般大于铁橄榄石—磁铁矿—石英(FMQ)缓冲体系。斑岩钼矿床形成的主要受岩浆房的大小,大体积的岩浆流体能否高效聚集到浅部岩株或岩脉,岩浆中的挥发分(例如F)含量等因素的控制,但与成矿花岗岩和出溶流体中Mo的含量高低无直接关系。成矿流体的氧逸度与p H降低对辉钼矿沉淀具有关键作用。除此之外,温度与盐度降低对辉钼矿沉淀也有重要作用。流体的多阶段沸腾可能对提高Mo品位具有重要意义。此外,应加强岩浆结晶分异过程、岩浆热液转化过程Mo的地球化学行为研究。     

金沙江-哀牢山断裂带几个富碱斑岩体的锆石U-Pb定年及地质意义

运用LA-ICP-MS锆石U-Pb同位素定年方法测定了金沙江-哀牢山断裂带内4个富碱斑岩的年龄.结果表明:剑川地区角闪正长斑岩形成时间为(37.6±2.2)Ma,姚安地区黑云母二长斑岩具有2组锆石U-Pb年龄数据,较年轻的一组为(36.86±0.63)Ma,较老的一组为(40.41±0.24)Ma,姚安黑云母角闪正长斑...     

内蒙古阿巴嘎旗乌和尔楚鲁图钼矿区成矿斑岩的岩石地球化学特征与年代学

乌和尔楚鲁图钼矿床位于国内重要的二连东乌旗钼矿成矿带中,为近几年新发现的斑岩型钼矿床.本次就该矿床成矿岩体的地球化学及其U-Pb年代学开展相关研究.结果表明: 矿区中的成矿岩体属过铝质、高钾钙碱性系列;富集大离子亲石元素(LILE)、亏损高场强元素(HFSE),具有与南岭型花岗岩相似的地球化学特征.锆石LA-ICP-MS U-Pb定年显示,与乌和尔楚鲁图钼矿床成矿有关的花岗斑岩形成于中侏罗世((160 ± 1)Ma).因此,可推测乌和尔楚鲁图钼矿床斑岩型钼矿的成矿时代为燕山早期.综合研究认为乌和尔楚鲁图斑岩型钼矿床形成于后碰撞的构造环境.     

Formation of the adakite-like granitoid complex and porphyry copper-gold deposit in Shaxi from southern Tancheng-Lujiang fault belt： A clue to the West Pacific plate subduction

On the basis of the geological and geochemical studies, including chemical analysis of bulk rocks, rare-earth and trace element studies, fluid inclusion, and S and O isotopic analyses, the authors described the geo-logical background of the deposit in detail and presented significant proofs for the conditions of formation of the Shaxi porphyry copper-gold deposit. Compared with other large and supper-large porphyry copper deposits in China and the adjacent Cu-Au mineralized areas, the ore-forming processes and conditions were analyzed; and the possibil-ity of forming large porphyry copper deposits in the Shaxi area was discussed. The present study indicated that the ore-forming fluid and material were mainly of magmatic origin, while meteoric water played a certain role in the ore-forming processes. Interactions between subducting and overriding plates provided a major driving force for the formation of igneous rocks and the deposition of metal elements in East China since Jurassic. Based on the geo-chemical data of the Shaxi intrusive, it is found that the copper (gold) mineralization is closely related to the genesis of adakite-like intrusive in the Shaxi area. This adakite-like intrusive was formed in the subduction environment as a result of the subduction of the West Pacific plate toward the East China continent, where there is a great potential-ity to form a large porphyry copper deposit.     

Highly Oxidized Magma and Fluid Evolution of Miocene Qulong Giant Porphyry Cu‐Mo Deposit,Southern Tibet,China

The Miocene Qulong porphyry Cu‐Mo deposit, which is located at the Gangdese orogenic belt of Southern Tibet, is the largest porphyry‐type deposit in China, with confirmed Cu ～10 Mt and Mo ～0.5 Mt. It is spatially and temporally associated with multiphase granitic intrusions, which is accompanied by large‐scale hydrothermal alteration and mineralization zones, including abundant hydrothermal anhydrite. In addition to hydrothermal anhydrite, magmatic anhydrite is present as inclusions in plagioclase, interstitial minerals between plagioclase and quartz, and phenocrysts in unaltered granodiorite porphyry, usually in association with clusters of sulfur‐rich apatite in the Qulong deposit. These observations indicate that the Qulong magma‐hydrothermal system was highly oxidized and sulfur‐rich. Three main types of fluid inclusions are observed in the quartz phenocrysts and veins in the porphyry: (i) liquid‐rich; (ii) polyphase high‐salinity; and (iii) vapor‐rich inclusions. Homogenization temperatures and salinities of all type inclusions decrease from the quartz phenocrysts in the porphyry to hydrothermal veins (A, B, D veins). Microthermometric study suggests copper‐bearing sulfides precipitated at about 320–400°C in A and B veins. Fluid boiling is assumed for the early stage of mineralization, and these fluids may have been trapped at about 35–60 Mpa at 460–510°C and 28–42 Mpa at 400–450°C, corresponding to trapping depths of 1.4–2.4 km and 1.1–1.7 km, respectively.