Physicochemical Conditions of the Formation of Beryl and Aquamarin in Mufushan Granopegmatite Deposit,Hunan Province,China

The formation of the Mufushan granopegmatite was closely related to the Late Yenshanian multiphase and multistage magmatic activities,More than one generation of beryl and aquamarine occur in different types of pegmatite in the granites.The presence of melt and melt-fluid inclusions strongly indicates a melt-solution character of the pegmatitic magma.Forming temperatures of the different generations of beryl in a Na^ -K^ ,Ca^2 -CO3^2--Cl^--SO4^2- solution ranges from 990℃to 200℃.Aquamarine was formed at 720-180℃.The contents of alkali metals(Na^ K^ )in th ore-formming solution of aquamarine are lower than those in the beryl,but the contents of alkali earths(Ca) and salinity are higher,The granite was generated by remelting of the basement formation(meta-sedimentary rocks of the Lengjiaxi Group)which also served as the source of ore-forming material.Beryllium in the pegmatite was transported mainly in the form of Na[Be(CO3)2],with part of it being complexed with Cl^- and SO4^2-.During the generation and evolution of the pegmatite,equilibrium might have been reached in the solid-melt-fluid or solid-fluid system.The intergranular solutions may have reacted with the early crystallized minerals,resulting in potash-feldsparization,albitization and muscovitization during which the ore-forming elements were mobilized and transported in favour of ore deposition.     

新疆天格尔金矿成矿带矿物包裹体研究

天格尔金矿成矿带矿物包裹体的均一温度、爆裂温度、成矿压力、气相成分及物理化学条件的研究表明，金矿化可分为两个成矿阶段，矿化深度１～１．５ｋｍ，成矿热液具有酸性还原特性，金是以金硫络合物形式迁移沉淀的。     

熔融包裹体中水含量的测定方法

本文在对Ｎａｕｍｏｖ（１９７９）计算熔融包裹体中水含量计算模式作原则性修正的基础上建立了新的计算模式，其特点是充分考虑了熔体被捕获后在漫长地质时期内经历的各种变化对其中水含量计算精度的影响。通过加热使熔融包裹体均一，并在均一化过程中的每一个相变发生前后分别测量各相的相对体积百分比，可从本质上消除Ｎａｕｍｏｖ计算模式未曾考虑过的对水含量计算精度发生影响的因素，因此可较为准确地获得熔融包裹体中的水含量。计算实例表明，烙融包裹体中的水含量与其均一温度负相关，随均一温度的降低含水量增高。     

水口山Pb－Zn－Au矿田含矿流体的性质、来源及其环流历程

在矿床地质研究的基础上，从矿物包裹体的显微岩相学、均一化温度、成分、含盐度和Ｈ、０、Ｃ稳定同位素组成方面，探讨了水口山Ｐｂ─Ｚｎ─Ａｕ矿田含矿流体的性质、来源及其环流历程。含矿流体系由岩浆期后热液和地下水混合而成。对于水口山矿区而言，岩浆热液起着主导作用；对于康家湾矿区而言，岩浆期后热液和地下水热液均起着重要作用。热液成矿期从早到晚，随着温度和含盐度的逐渐降低，地下水中雨水／地层卤水的比值逐渐增大。含矿流体的环流历程经历了５个阶段。     

新疆库布苏金矿石英标型特征研究

重点研究了库布苏矿化带中石英脉与金矿化关系，对不同成矿阶段石英的化学成分，晶胞参，红外光谱，热发光，包裹体等进行了研究，总结了找矿矿物学标志。     

新疆索尔库都克类夕卡岩铜（钼）矿床地质特征及矿床成因

索尔库都克矿床是近年来新疆境内探明的中型铜（钼）矿床。对其成矿地质环境、矿床地质特征、夕卡岩其分带的研究表明，该矿床之夕卡岩与Д．Ｃ．柯尔仁斯基所划分的类夕卡岩相类似。该夕卡岩是由凝灰砂岩、安山玢岩等变质形成的。流体包裹体和稳定同位素的研究表明，该矿床是我国特殊的层状夕卡岩矿床，与接触交代夕卡岩矿床明显不同。     

大兴安岭中南段金属矿床流体包裹体研究

作者通过在不同温度下对包裹体特征、相变行为的系统观察与测定，以及对包裹体气、液相成分的分析、获取了研究区内主要矿床成矿过程中成矿液体的温度、盐度、密度、流体成分、流体的沸腾现象、成矿压力以及ＰＨ，Ｅｈ，Ｆｏ２，还原参数等成矿的物理化学参数，从而为划分矿化蚀变阶段，矿床类型、成矿系列和深化对矿床成矿作用与成矿机制的认识提供了科学依据。尽管矿床属于不同的成矿系列，只要矿床类型相同，矿床的流体包裹体地球     

Fluid Inclusion Geochemistry of Metallic Ore Deposits in the South- Central Sector of theDa Hinggan Mountains in China

Physicochemical parameters of mineralization such as temperature, pressure, salinity, density, composition and boiling of ore fluids as well as pH, Eh, fo2 and reducing parameter in theprocess of mineralization of major ore deposits in the study district have been obtained by the authors through systematic observation and determination of characteristics and phase changes of fluid inclusions at different temperatures and analysis of gaseous and liquid phase compositions of the inclusions, thus providing a scientific basis for the division of mineralization-alteration stages, types of mineral deposits and minerogenetic series and the deepening of the knowledge about the ore-forming processes and mechanisms of mineral deposits. It is indicated that the deposits of the same type have similar fluid inclusion geochemical features and physicochemical parameters though they belong to different minerogenetic series, while the compositions of inclusions are not conditioned by deposit types but closely related to     

Stable isotope characteristics and origin of ore-forming fluids in copper-gold-polymetallic deposits within strike-slip pull-apart basin of Weishan-Yongping continental collision orogenic belt, Yunnan Province, China

More than 140 middle-small sized deposits or minerals are present in the Weishan-Yongping ore concentration area which is located in the southern part of a typical Lanping strike-slip and pull-apart basin. It has plenty of mineral resources derived from the collision between the Indian and Asian plates. The ore-forming fluid system in the Weishan-Yongping ore concentration area can be divided into two subsystems, namely, the Zijinshan subsystem and Gonglang arc subsystem. The ore-forming fluids of Cu, Co deposits in the Gonglang arc fluid subsystem have δD values between −83.8‰ and −69‰, δ¹⁸O values between 4.17‰ and 10.45‰, and δ¹³C values between −13.6‰ and 3.7‰, suggesting that the ore-forming fluids of Cu, Co deposits were derived mainly from magmatic water and partly from formation water. The ore-forming fluids of Au, Pb, Zn, Fe deposits in the Zijinshan subsystem have δD values between −117.4‰ and −76‰, δ¹⁸O values between 5.32‰ and 9.56‰, and Δ¹³C values between −10.07‰ and −1.5‰. The ore-forming fluids of Sb deposits have δD values between −95‰ and −78‰, δ¹⁸O values between 4.5‰ and 32.3‰, and Δ¹³C values between −26.4‰ and −1.9‰. Hence, the ore-forming fluids of the Zijinshan subsystem must have been derived mainly from formation water and partly from magmatic water. Affected by the collision between the Indian and Asian plates, ore-forming fluids in Weishan-Yongping basin migrated considerably from southwest to northeast. At first, the Gonglang arc subsystem with high temperature and high salinity was formed. With the development of the ore-forming fluids, the Zijinshan subsystem with lower temperature and lower salinity was subsequently formed. Translated from Mineral Deposits, 2006, 25(1): 60–70 [译自: 矿床地质]     

吉东火山岩型金矿地质特征及流体包裹体研究

通过对主要金矿床的流体包裹体 ,S、C、H和O同位素特征研究分析 ,认为金成矿的物化环境 :温度为 15 6～ 2 84℃、压力小于 6 6 0× 10 5Pa (深度不超过 2km) ;成矿流体具有富含H2 O、SO2 - 4、Cl- 和高K+的特点 ,是岩浆热液和大气降水的混合流体 ;成矿物质主要来源于火山 次火山岩