流体包裹体轻烃有机气体组成及对矿床成因的制约——以嵩溪大型银（锑）矿为例

嵩溪银（锑）矿是一个新发现的大型独立银矿。矿物流体包裹体超高真空四极气相质谱系统测定显 示，该矿成矿流体中存在多种轻烃有机气体，主要由Ｃ１－Ｃ４饱和烷烃组成，仅含微量Ｃ２－Ｃ４不饱和烯烃和芳烃，说明 成矿过程基本未受到高温岩浆作用的影响。化学平衡研究表明，这些轻烃气体为微生物成因和沉积岩围岩中Ⅱ类 干酪根热解成因的混合气体，其中前者占２／３以上，说明成矿中微生物活动曾起到相当大的作用；后者的平衡温度 为３００℃，远超过成矿深度所能达到的地热温度，因此这部分轻烃气体可能源于沉积盆地深处，经成矿流体长距离携 带到达较浅的矿化部位。文章从一个侧面证实嵩溪矿可能为沉积热卤水改造型矿床，而不是前人所认为的海底基 性火山喷流或中低温火山热液充填矿床。     

Organic Gases in Fluid Inclusions of Ore Minerals and Their Constraints on Ore Genesis: A Case Study of the Changkeng Au-Ag Deposit, Guangdong, China

The newly discovered Changkeng Au-Ag deposit is a new type of sediment-hosted precious metal deposit. Most of the previous researchers believed that the deposit was formed by meteoric water convection. By using a high vacuum quadrupole gas mass spectrometric system, nine light hydrocarbons have been recognized in the fluid inclusions in ore minerals collected from the Changkeng deposit. The hydrocarbons are composed mainly of saturated alkanes C1-4 and unsaturated alkenes C2-4 and aromatic hydrocarbons, in which the alkanes are predominant, while the contents of alkenes and aromatic hydrocarbons are very low. The Σalka/Σalke ratio of most samples is higher than 100, suggesting that those hydrocarbons are mainly generated by pyrolysis of kerogens in sedimentary rocks caused by water-rock interactions at medium-low temperatures, and the metallogenic processes might have not been affected by magmatic activity. A thermodynamic calculation shows that the light hydrocarbons have reached chemical equilibrium     

四川平武县金洞沟金矿地质特征及其成因探讨

金洞沟金矿床是位于四川省北部平武县境内的小型岩金矿床。在详细研究矿床地质特征的基础上,测试了石英包裹体均一温度、盐度、化学成分及H、O同位素组成,分析了金属硫化物（黄铁矿、方铅矿、闪锌矿)的S同位素组成,对金的成矿作用进行了深入探讨。研究结果表明：金洞沟金矿床为低温热液型金矿床,其成矿物源主要是志留系茂县群浅变质碎屑岩系,矿石中硫化物以黄铁矿为主,硫化物含量约1%,为少硫化物型矿石。流体包裹体及S、H、O同位素研究显示成矿流体是主要由大气降水组成的热液,成矿温度为125～185 ℃,平均温度为148.7 ℃,属低温热液型金矿床。在此基础上,提出金洞沟金矿床的成矿作用经历了原始含矿岩系（矿源层)的形成、区域变质作用衍生矿源层的形成、热液成矿作用及表生氧化富集等4个阶段,韧性剪切构造活动是引起金活化、迁移和富集的主要因素。该成果为该矿床成因的认识和找矿工作提供了参考。     

一种新的成矿流体示踪法——流体包裹体N2—Ar—He示踪体系

本文介绍一种新的成矿流体示踪法,Ｎ２－Ａｒ－Ｈｅ示踪体系,概述了其主要原理和分析方法,并以粤中长坑Ａｕ－Ａｇ矿和粤东嵩溪Ａｓ－Ｓｂ矿为例,进行了成矿流体Ｎ２－Ａｒ－Ｈｅ示踪体系研究,结果显示其成矿流体主要来自建造水或沉积热卤水,为矿床成因研究提供了新的证据。     

青海东昆仑卡尔却卡多金属矿区斑岩型铜矿的流体包裹体研究

卡尔却卡铜多金属矿床是青海省地质调查院于近几年在东昆仑西段祁漫塔格地区新发现的一个矿床,目前规模已达中型。文章通过对矿区西北部受岩体断裂破碎蚀变带控制的铜矿体中石英流体包裹体岩相学、显微测温和激光拉曼探针成分分析,表明铜矿化石英脉中发育气液两相、富气相、含子矿物三相、纯液相和纯气相5类包裹体;气液两相和含子矿物三相流体包裹体的盐度差异明显,但它们的均一温度比较一致(320~440℃),反映在成矿流体演化过程中发生了强烈的流体不混溶,对成矿起重要作用;流体包裹体气相成分主要为H2O和CO2,其次为CH4、N2、H2、H2S及烃类。综合流体包裹体研究和矿化、蚀变等地质特征,笔者认为矿区西北部矿化应为与高中温岩浆热液作用有关的斑岩型铜矿化,它与区内强烈发育的铜铅锌多金属矽卡岩矿化均为同一构造-岩浆作用的产物。     

Biogenic hydrocarbons in fluid inclusions from the aberfoyle tin-tungsten deposit, Tasmania, Australia

Trace components in fluid inclusions from the Aberfoyle tin-tungsten deposit in Tasmania, Australia, were examined by thermal decrepitation-mass spectrometry. The technique involves the decrepitation of fluid inclusions by stepwise heating in the source of a mass spectrometer. In addition to water, other species identified were carbon dioxide and hydrocarbons. Detailed analysis of these hydrocarbons showed that they ranged in carbon number from C₁ up to at least C₃₃ and probably comprised, in part, biological marker compounds, previously unreported in such high-temperature environments. Their presence suggests that the fluid responsible for mineralisation was not entirely magmatic but contained a non-magmatic component evolved through fluid-rock interaction in the sedimentary country rocks.     

Fluid inclusions in sedimentary and diagenetic systems

Some of the major problems in sedimentary geology can be solved by using fluid inclusions in sedimentary and diagenetic minerals. Important fluids in the sedimentary realm include atmospheric gases, fresh water of meteoric origin, lake water, seawater, mixed water, evaporated water, formation waters deep in basins, oil, and natural gas. Preserving a record of the distribution and composition of these fluids from the past should contribute significantly to studies of paleoclimate and global-change research, is essential for improving understanding of diagenetic systems, and provides useful information in petroleum geology. Applications of fluid inclusions to sedimentary systems are not without their complexities. Some fluid inclusions exposed to natural conditions of increasing temperature may be altered by thermal reequilibration, which results in stretching, or leakage and refilling, of some fluid inclusions. Similarly, overheating in the laboratory can also cause reequilibration of fluid inclusions, so fluid inclusions from the sedimentary realm must be handled carefully and protected from overheating. Natural overheating of fluid inclusions must be evaluated through analysis of the most finely discriminated events of fluid inclusion entrapment, fluid inclusion assemblages (FIA). Consistency in homogenization temperatures within a fluid inclusion assemblage, consisting of variably sized and shaped inclusions, is the hallmark of a data set that has not been altered through thermal reequilibration. In contrast, fluid inclusion assemblages yielding variable data may have been altered through thermal reequilibration. If a fluid inclusion assemblage has not been altered by thermal reequilibration, its fluid inclusions may be useful as geothermometers for low- and high-temperature systems, or useful as geobarometers applicable throughout the sedimentary realm. If a fluid inclusion assemblage has been altered partially by thermal reequilibration, techniques for distinguishing between altered and unaltered fluid inclusions may be applied.

In studies of global change, fluid inclusions can be used as sensitive indicators of paleotemperature of surface environments. Fluid inclusions also preserve microsamples of ancient seawater and atmosphere, the analysis of which could figure prominently into discussions of past changes in chemistry of the atmosphere and oceans. In petroleum geology, fluid inclusions have proven to be useful indicators of migration pathways of hydrocarbons; they can delineate the evolution of the chemistry of hydrocarbons; and they remain important in understanding the thermal history of basins and relating fluid migration events to evolution of reservoir systems. In studies of diagenesis, fluid inclusions can be the most definitive record. Most diagenetic systems are closely linked to temperature and salinity of the fluid. Thus, fluid inclusions are sensitive indicators of diagenetic environments.     

粤北凡口铅锌矿床的成因、成矿时代、成矿模式与找矿

作者运用构造与成矿结合，矿化与蚀变统一的观点，并以矿物学理论方法为主要手段，对凡口铅锌矿床进行综合研究，认为该矿床属同构造热液充填交代成因．它在国内外铅锌矿床中，是一种新的矿床成因类型，与燕山早期的构造－岩浆活动有着密切联系．     

云南镇沅蝙蝠山金矿成因探讨

蝙蝠山金矿属超基性岩接触带型。金矿受地层、构造、基性岩的控制。由多期成矿作用、多源物质来源、多成因成矿热液,反复活化、迁移、聚集、分配和积淀形成。     

粤东北嵩溪银锑矿床地质地球化学初步研究

粤东北嵩溪银锑矿床地质地球化学初步研究肖振宇郑庆年（广东有色金属地质勘查院，广州５１００８０）陈繁荣张湖（中国科学院广州地球化学研究所，广州５１０６４０）关键词地质地球化学银锑矿床嵩溪嵩溪银锑矿床发现于粤东北地区，有嵩溪、黄沙塘等矿床和梅子坑、仙客社...     

吉林白山市大横路Cu-Co矿床变质成矿流体特征

大横路Cu-Co矿床为一产于元古宙老岭群大栗子组变质地层中的新类型层控矿床，矿床形成经历了沉积成岩成矿、区域变形变质成矿两期主要成矿作用过程。对变质热液期形成的石英、方解石等矿物中发育的流体包裹体研究表明，成矿流体为一中低温、以H2O为主、含CO、CO2、N2及Cl^-、HCO3^-、SO4^2-、HS^-、CH4、C2H4、C3H8、C4H6等有机质的盐水溶液，早期成矿流体盐度ω(NaCl)可高达45．72％，晚期热液盐度ω（NaCl)为2.06%-12.53%。反映在来源上，早期成矿流体主要来自变质热液，晚期则有大量大气降水参与。变质热液成矿作用对Cu-Co工业矿床形成起了重要作用。     

西南三江兰坪盆地大规模成矿的流体动力学过程——流体包裹体和盆地流体模拟证据

中国西南部云南兰坪盆地因金顶Zn-Pn矿床和新发现的白秧坪超大型Cu-Co-Ag矿床而驰名。金顶矿床以白垩系和第三系陆相碎屑岩为主岩,拥有2亿吨矿石,平均品位Zn6.08%、Pb1.29%(1500万吨金属),是目前中国最大的Zn-Pb矿床,也是世界上形成时代最新且唯一产于陆相沉积岩容矿的超大型Zn-Pb矿床。不同于世界上人们公认的沉积岩容矿基本类型,即SST、MVT和Sedex型,金顶矿床也许代表了Zn-Pb矿床的一个新类型。通常认为兰坪盆地大规模成矿流体起源于盆地卤水,流体流动以重力驱动为主,压力体系接近静水压力。但基于矿田内水压破裂观察、流体包裹体研究和盆地流体动力学模拟,我们认为深部超压流体的注入对整个成矿系统起着重要作用。闪锌矿及相关脉石矿物(石英、天青石、方解石、石膏)中流体包裹体观测的均一温度主体在110～150℃,盐度(质量分数)在1.6%～18.0%NaCl;在时间上,大规模成矿主要阶段伴随着流体温度的不断升高和盐度的逐渐降低;在空间上,金顶矿区空间上从东到西,成矿流体温度明显降低,盐度系统性升高。富CO2流体包裹体揭示成矿流体曾高达(513～1364)×105Pa,大大高于静水压力。数值模拟表明,盆地沉积和压实产生的流体超压可以忽略,区域构造推覆也不足以产生如此高的流体压力。我们认为成矿流体超压很可能是幔源流体注入引起的;幔源含矿的相对高温低盐度流体沿导矿构造注入金顶穹隆构造-岩性圈闭并与其中富H2S的相对低温高盐度卤水混合是兰坪盆地大规模成矿的关键动力学过程。这个特殊的流体动力学过程和成矿系统,使兰坪盆地的成矿有别于世界其他沉积盆地已知的成矿作用。     

吉林四平市山门银矿床地质特征及找矿标志

山门银矿床位于大黑山断隆南部,为浅成低温热液银矿床.通过对矿床地质特征、地球物理特征、矿石类型、成矿期次、流体包裹体及稳定同位素地球化学特征的研究,确定该矿床的找矿标志为北北东向张性断裂,硅化,Ag、Au、Pb、Zn为主的土壤化学异常,低电阻率异常.成矿温度为低温,低盐度,成矿流体为以大气降水为主.该标志对于在大黑山条垒一带寻找同类矿床具有一定的指导意义.根据以上标志,划分出3个成矿远景区.     

Identification and implications of fight hydrocarbon fluid inclusions from the Proterozoic Bidjovagge gold-copper deposit, Finnmark, Norway

Carbonic fluid inclusions were observed in quartz-bearing veins at the Proterozoic Bidjovagge AuCu deposit within the Kautokeino greenstone belt in Norway, where mineralization occurred in oxidation zones of graphitic schists. A primary fluid inclusion zonation was observed with C0₂-rich fluid inclusions in the structural footwall of the deposit, and CH₄-rich inclusions within the ore zone in the oxidation zone. Microthermometry of the primary hydrocarbon inclusions revealed 2 groups; (1) a group which homogenized between −125°C and the critical temperature of CH₄ (−82.1°C), which indicated the presence of pure CH₄, and (2) a group which homogenized between the critical temperature of CH₄ and −42°C, which indicated the presence CH₄ and higher hydrocarbons (HHC). Raman microprobe analyses of the first group confirmed the presence of CH₄. The second inclusion group were fluorescent, and Raman spectra clearly displayed CH₄,C₂H₆, and rarer C₃H₈ peaks. A typical feature of the Raman spectra were elevated baselines at the hydrocarbon peaks. Carbon peaks were also usually detected in each inclusion by Raman analysis. Bulk gas chromatography analyses of samples containing the first group (CH₄) indicated the presence of CH₄ and low concentrations of C₂H₆ and C₃H₈. Gas chromatography analyses of samples containing the second group (CH₄ and higher hydrocarbons) confirmed the presence of CH₄, and higher hydrocarbons such as C₂H₆ and C₃H₈ and also butanes. Based on the spacial zonation of hydrocarbons and the estimated PT conditions of 300 to 375°C and 2 to 4 kbars, the authors suggest an abiotic origin for the hydrocarbons. It is suggested that the hydrothermal fluids oxidized the graphitic schist, precipitated Cu and Au and formed light gas hydrocarbons.     

Fluid Inclusion Study of Skarns in the Maruyama Deposit, the Kamioka Mine, Central Japan

Abstract: Fluid inclusions in skarn minerals in the Maruyama deposit, the Kamioka mine, central Japan were studied. Homogenization temperatures (Th) of fluid inclusions in 48 skarn minerals (hedenbergite, andradite, epidote and quartz) were measured, and gas composition of fluid inclusions in 12 skarn minerals was measured with a quadrupole mass spectrometer. The maximum Th value of primary inclusions in hedenbergite is 380C with peaks around 360C. Primary inclusions in hedenbergite near contact between skarn and limestone have slightly lower Th values and their distribution has a tendency of long trail skirt toward low temperature, which indicates ceasing of skarnization coincides with temperature decrease. Fluid inclusions in andradite and quartz in the hedenbergite skarn have lower Th values, in this order, than those in hedenbergite. CH4–detected fluid inclusions are localized around the Maruyama fault. Gas composition of the fluid inclusions indicates that fluid trapped in the hedenbergite has CO2 content less than 1 mole % and is not in equilibrium with graphite.     

Genetic and metamorphic conditions constrained by fluid inclusions from Paleoproterozoic (c. 1.8 Ga) magnesite ore deposits, NE Brazil

Precambrian magnesite occurrences hosted by metadolomites from the Orós belt, Ceará, Brazil, are part of a greenschist–amphibolite, metavolcano-sedimentary terrain, dated at 1.8 Ga, cut by Meso- to Neoproterozoic Brasiliano granites and Neoproterozoic basic sills. These rocks were affected by a shear zone between 580 and 500 Ma. The magnesite-bearing marbles can be grouped as medium-grained (1–9 mm) at the Riacho Fundo ore deposit or sparry magnesite (1–15 cm) at the Cabeça de Negro ore deposit. The sparry magnesite shows textural characteristics related to original sedimentary structures. Both types of magnesite-bearing marbles contain aqueous and aqueous-carbonic fluid inclusions that yield homogenization temperatures between 170 and 370 °C. Applying a pressure correction, these temperatures are compatible with the evolution from greenschist to amphibolite facies metamorphic conditions, as described in previous work on the Orós region. It also agrees with data in specialized literature on the metamorphism of carbonate rocks. Fluid inclusion distribution, composition, and physical-chemical characteristics suggest temperature increase, probably related to metamorphism on these rocks. The medium-grained magnesite records partial contamination of CO₂-rich inclusions by relict carbonaceous material (bitumen, hydrocarbons?) that favors, but does not confirm, a syngenetic sedimentary origin and could have caused the lowering of CO₂ melting point in these inclusions. Therefore, though textural evidence points to a sedimentary-diagenetic model, fluid inclusions record conditions of a metamorphic event.     

新疆萨热阔布金矿床流体包裹体研究及矿床成因

新疆萨热阔布金矿床位于阿尔泰造山带南缘克兰火山-沉积盆地内,矿体呈脉状产于康布铁堡组上亚组地层中(D1k2)。不同成矿阶段石英脉中广泛发育流体包裹体,可划分为H2O-CO2包裹体(C型)、纯CO2包裹体(PC型)、水溶液包裹体(W型)及含子矿物多相包裹体(S型)四类。测温结果显示,成矿早阶段主要发育C型和PC型包裹体,均一温度范围为271～446℃,流体盐度介于5.9%～8.4%NaCleqv之间;中阶段主要发育C、PC、W和S型包裹体,均一温度低于早阶段,为236～374℃,流体盐度介于4.8%～15.0%NaCleqv之间;晚阶段主要发育W型包裹体,均一温度范围为139～264℃,流体盐度介于1.1%～6.9%NaCleqv之间。对成矿压力和深度的估算表明,成矿压力为90～330MPa,成矿深度为9～12km。综上所述,萨热阔布金矿成矿流体具有富CO2、中低盐度的变质流体特征,流体沸腾导致了成矿物质的沉淀。结合矿床地质特征,萨热阔布金矿床属于造山型金矿床。     

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。     

Fluid Inclusion,H-O,S, Pb and noble gas isotope studies of the Aerhada Pb-Zn-Ag deposit,Inner Mongolia,NE China

The Aerhada Pb-Zn-Ag deposit is located in the western segment of the Great Hinggan Range Ag-Pb-Zn-Cu-Mo-Au-Fe metallogenic belt in NE China. Orebodies occur mainly as vein type and are hosted by sandstone and siliceous slate. Three stages of primary mineralization, including an early arsenopyrite-pyrite-quartz, a middle polymetallic and silver sulfides-quartz and a late sphalerite-pyrite-calcite-fluorite are recognized. Four types of fluid inclusions have been identified in the ore-bearing quartz and fluorite veins, i.e., liquid-rich, gas-rich, three-phase CO₂ aqueous inclusions, and pure gas or liquid aqueous inclusions. Microthermometric studies on fluid inclusions reveal that homogenization temperatures from early to late stages range from 253° to 430 °C, 195° to 394 °C and 133° to 207 °C, respectively. Fluid salinities range from 2.9 to 14.0 wt.% NaCl equiv. The vapor composition of the ore fluid is dominated by H₂O, CO₂ and CH₄, with minor proportions of N₂. The fluid δ¹⁸O_H2O and δD_H2O values vary from +1.6 to +9.3‰ and −122 to −56‰, respectively, and reflect a magmatic fluid and a meteoric fluid dominant hydrothermal system for the early and late stages of mineralization, respectively. The calculated δ³⁴S_H2S values of hydrothermal fluids in equilibrium with sulfides range from +5.2 to +7.1‰, suggesting a mixed source for sulfur, i.e., the local magmatic and sedimentary rocks. The Pb isotope compositions of sulfides are similar to those of the local magmatic and sedimentary rocks, implying that lead and possibly silver relate to these sources. The noble gas isotope compositions of fluid inclusions hosted in ore minerals suggest that the ore-forming fluids were dominantly derived from a deep mantle source. Fluid mixing and dilution are inferred as the dominant mechanisms for ore deposition. The Aerhada Pb-Zn-Ag deposit can be classified as a medium to low temperature hydrothermal vein type deposit.