富宁阳文冲-广南菜子垣热液淋滤卡林型金矿区

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。     

滇黔桂微细浸染型金矿铅同位素组成及应用

滇黔桂微细浸染型金矿铅同位素组成及应用＊刘显凡刘家军朱赖民（中国科学院地球化学研究所，贵阳５５０００２）卢秋霞（成都理工学院，成都６１００５９）关键词微细浸染型金矿铅同位素组成矿质来源上地幔分异混染滇黔桂１矿床地质背景研究区位于扬子地台西南缘与华南加...     

南秦岭夏家店卡林型金矿床构造特征与成矿关系

从地质背景、矿床地质、控矿构造分析了夏家店金矿床特征及其形成过程及成矿机理；矿床产于南秦岭陡岭古隆起边缘寒武系-震旦系碳-泥-硅质板岩及白云岩中；控矿构造具有二次韧性剪切变形、二次构造角砾岩化及二次脉体矿化的特征，显示出式样多种、性质多样、形式多变、活动期次与阶段多次叠加的特点；具体阐述了各构造作用阶段与矿化蚀变之间的关系，建立了地层建造-剪切与张裂构造-热液渗流的成矿系统。属于沉积岩系、构造、热液活动3种地质作用叠加改造的卡林型金矿床。     

吉林白山(浑江)金矿床岩石地球化学特征

白山金矿是近年来在吉林南部地区发现的一种重要类型金矿床--微细浸染型金矿床,矿床赋存在活泼性较高的元古庙老岭群珍珠门组大理岩中.吉南元古庙分布区Au、Zn、Sb、Cd、Sn、As、Hg等元素丰度具有显著偏高特征,白山金矿区Au、Ag、W、Bi、Sb、As等元素具有浓集系数高、变异系数大、多元素套合叠加异常等特点.异常带沿构造带分布并具有明显分带现象,元素组合为Au-Sn-Zn-Ag-Cd.     

金龙山-丘岭卡林型锑金矿床稀土元素地球化学

金龙山—丘岭卡林型Sb—Au矿床的形成受沉积建造和岩相、剪切变形构造、后生成矿作用3种因素的控制,矿床属沉积—改造成因类型。根据REE含量、组成和特征参数,即REE、Ce/Y、(La/Sm)N、(La/Yb)N、δEu、δCe,探讨了该矿床的稀土元素地球化学及它与金龙山—丘岭矿床形成和演化的关系。     

The Salamón gold deposit (León, Spain)

Located 55 km NE of the provincial capital León, Salamón deposit, discovered in 1985, is located on the southern slope of the Cantabrian Mountains, in the north of the Iberian Peninsula. The deposit is located on the León fault, which is a late-Variscan, E–W trending, deep structure extending for more than 100 km. The León fault has a complex history, and many mines and occurrences are located near it. The deposit is also close to small stocks and dykes of igneous rocks with intermediate to basic composition to which the mineralisation is related. The mineralisation is hosted mainly by the limestones and bituminous shales of the Lena Group (Namurian–Westphalian). There is also some mineralisation in other stratigraphic units of the Upper Carboniferous, such as the Maraña Group or the Stephanian B sediments.Apart from local and regional exploration, a detailed mineralogical and metallogenic research has been carried out. The epithermal mineralisation of Salamón was developed in two phases: an early dominant and extensive stage, with very fine crystalline gold-bearing sulphides, mainly pyrite, arsenic-bearing pyrite and arsenopyrite, in a matrix of quartz–chalcedony (jasperoid) and dolomite, and a later stage, of a larger crystal size, which occurs replacing the early stage or in pockets and veins, with greater mineralogical variety. Last of all there is a stage of supergene mineralisation, a product of the oxidant action of meteoric waters over the previous minerals. The hydrothermal alterations of the host rocks related to the orebodies are fundamentally decarbonatisation–dolomitisation, silicification and argillitisation. The early stages of mineralisation were produced in a temperature of 148–241°C, while that in the later stages occurred at 86–123°C. The early stage has been dated as 269±5 Ma, and this agrees with the ages of the other deposits of the district, which lay between 292 and 263 Ma, and the igneous rocks of the Peña Prieta stock (277±1 Ma), all which are of Permian age.The results of the studies carried out until now lead to the conclusion that Salamón is a Carlin-type gold deposit.     

Alteration and mineralization styles of the orogenic disseminated Zhenyuan gold deposit,southeastern Tibet: Contrast with carlin gold deposit

Orogenic disseminated and Carlin gold deposits share much similarity in alteration and mineralization.The disseminated orogenic Zhenyuan Au deposit along the Ailaoshan shear zone,southeastern Tibet,was selected to clarify their difference.The alteration and mineralization from the different lithologies,including meta-quartz sandstone,carbonaceous slate,meta-(ultra)mafic rock,quartz porphyry and lamprophyre were researched.According to the mineral assemblage and replacement relationship in all types of host rocks,two reactions show general control on gold deposition:(1)replacement of earlier magnetite by pyrite and carbonaceous material;(2)alteration of biotite and phlogopite phenocrysts in quartz porphyry and lamprophyre into dolomite/ankerite and sericite.Despite the lamprophyre is volumetrically minor and much less fractured than other host rocks,it contains a large portion of Au reserve,indicating that the chemically active lithology has played a more important role in gold precipitation compared to structure.LA-ICP-MS analysis shows that Au mainly occurs as invisible gold in fine-grained pyrite disseminated in the host rocks,with Au content reaching to 258.95 ppm.The diagenetic core of pyrite in meta-quartz sandstone enriched in Co,Ni,Mo,Ag and Hg is wrapped by hydrothermal pyrite enriched in Cu,As,Sb,Au,Tl,Pb and Bi.Different host rock lithology has much impact on the alteration and mineralization features.Carbonate and sericite in altered lamprophyre show they have higher Mg than those developed in other of host rocks denoting that the carbonate and sericite incorporated Mg from phlogopite phenocrysts in the primary lamprophyre during alteration.The ore fluid activated the diagenetic pyrite in meta-quartz sandstone leading the hydrothermal pyrite enriched in Cu,Mo,Ag,Sb,Te,Hg,Tl,Pb and Bi,but the hydrothermal pyrite in meta-(ultra)mafic rock is enriched in Co and Ni as the meta-(ultra)mafic rock host rock contain high content of Co and Ni.However,Au and As shear similar range in both types of host rocks indicating that these two elements most likely come from the deep source fluid rather than the host rocks.It was shown in the disseminated orogenic gold deposit that similar hydrothermal alteration with mineral assemblage of carbonate(mainly dolomite and ankerite),sericite,pyrite and arsenopyrite develops in all types of host rocks.This is different from the Nevada Carlin type,in which alteration is mainly dissolution and silicification of carbonate host rock.On the other hand,Au mainly occur as invisible gold in both disseminated orogenic and Carlin gold deposits.     

赣西卡林型金矿找矿评价标志及找矿模式

从地球化学，地层岩性，构造，岩浆岩，金矿化及相关矿化，蚀变，找矿矿物学等方面阐明了赣西地区卡林型金矿的区域找矿评价标志及矿床评价标志，建立了赣西地区卡林型金矿“三个有利赋矿层位，三个有利赋矿岩性和三种有利元素组合”的找矿模式。     

陕西柞水下梁子类卡林型金矿床特征与成因探讨

下梁子金矿床为叠加改造式层控类卡林型金矿床,集沉积地层、岩浆活动、脆韧性剪切构造活动三位一体;地层岩性含硫铁、含钙质为有利含矿岩系,为成矿准备了物质基础;岩浆作用导致围岩的夕卡岩化-角岩化,使岩石成分重组,利于成矿物质的活动;成矿以发育含矿热液的脆韧性递进剪切变形构造控制为关键,直接控制了工业矿体的分布、矿化强度与就位.研究中确定了碰撞型花岗岩与成矿的直接关系;具体划分了矿石类型,矿化期与矿化阶段,金的赋存状态等.     

有机流体成矿作用与古油藏成藏作用相互耦合——以右江盆地微细浸染型金矿为例

右江盆地微细浸染型金矿与古油藏均产于二叠纪生物礁的核部或侧翼.流体包裹体拉曼光谱分析和矿石抽提物色质谱分析均发现了大量的有机质官能团, 暗示金矿成矿过程与古油藏的形成、演化密切相关.金矿与古油藏的物质均来源于盆地裂陷期和凹陷早期的沉积地层, 流体来源于沉积地层中封存的建造水, 形成年龄 > 172 Ma.在随后约40 Ma(172~130 Ma)的时间里, 流体向盆地中生物礁及其他构造部位运移聚集.由于盆地中烃源岩逐渐成熟, 这一过程是油气运移成藏的过程, 也是有机流体萃取成矿物质, 最终演变为有机成矿流体并聚集的过程.燕山运动是金矿成矿作用的主要构造营力(130~46 Ma), 同时也是古油藏破坏的主要原因.正是古油藏的破坏打破了流体的动态平衡, 导致流体中成矿物质沉淀形成矿床.右江盆地的金矿和古油气藏是同一种流体体系在其发展演化过程中不同阶段的产物.