山西刁泉银铜矿两类矽卡岩特征及其含矿性差异的初步研究

山西刁泉银铜矿为矽卡岩型矿床,矿区内存在石榴子石矽卡岩和辉石石榴子石矽卡岩。多数情况下,这两类矽卡岩不共存,只在辉石石榴子石矽卡岩中见石榴子石矽卡岩角砾。X-射线衍射分析显示石榴子石矽卡岩由98．5％的石榴子石（包括钙铁榴石、钙铬榴石、钙钒榴石）和1．4％的石英组成;辉石石榴子石矽卡岩由71．4％的石榴子石（包括钙铁榴石、钙铬榴石、钙钒榴石）和28．5％的透辉石组成。这两类矽卡岩的微量元素、稀土元素特征基本相同,其矿化均与石英有密切关系,由于辉石石榴子石矽卡岩叠加了较多石英脉,其含矿性明显优于石榴子石矽卡岩。作者根据矿区地质背景和两类矽卡岩的特征分析,认为这两类矽卡岩的形成与燕山晚期不同期次的岩浆活动有关,石榴子石矽卡岩的形成时间早于辉石石榴予石矽卡岩;矿区燕山晚期与成矿有关的岩浆热液存在脉动现象,这种多期次岩浆热液活动的叠加有利于成矿;叠加了石英脉的辉石石榴子石矽卡岩可以作为该矿区找矿标志之一。     

西藏墨竹工卡地区甲玛铜多金属矿床矽卡岩矿物学特征及其地质意义

为研究西藏甲玛铜多金属矿床中矽卡岩的矿物学特征,进一步确定矿床成因类型,利用电子探针测试和镜下鉴定手段对矽卡岩矿物中的石榴子石、辉石、硅灰石等矿物成分进行了分析。测试结果表明,矽卡岩中石榴子石以钙铁榴石-钙铝榴石为主,辉石以透辉石为主,甲玛矿床矽卡岩属于交代矽卡岩中典型的钙矽卡岩。结合前人对矿区矽卡岩、围岩和花岗岩类的岩石地球化学、矿床成矿年代学等的研究,进一步证实甲玛铜多金属矿床系矿区花岗岩类岩浆交代大理岩形成的典型矽卡岩型矿床。     

矽卡岩矿床中共生单斜辉石一石榴子石特征及其地质意义

通过对我国与Fe,Cu,Mo,W,Sn等主要矿化类型有关的矽卡岩的研究,揭示出不同矿化类型的矽卡岩有其特定的共生单斜辉石-石榴子石矿物对的成分特征、含铁率比值及其变化规律。依据Fe、Al等组分在共生单斜辉石-石榴子石间的分配,估算各种矿化类型矽卡岩形成的氧逸度和酸度条件,从而划分出我国含矿矽卡岩的氧逸度—酸度相。不同矿化类型的矽卡岩共生单斜辉石-石榴子石的成分特征、形成环境及其变化规律密切联系于其成矿母岩特征、成因类型和成岩条件。     

接触交代夕卡岩型矿床中石榴子石和辉石成分特点及其与矿化的关系

本文对中国十四个接触交代钙夕卡岩矿床和钙-镁夕卡岩矿床中的三百多个样品的石榴子石和辉石成分进行了电子探针分析。不同矿床类型的石榴子石和辉石成分代表着钙夕卡岩矿床的十个矿种(Fe、Fe-Cu、Pb-Zn、W、Sn、Sn-Mo-Bi-W、、W-Bi-Cu-Mo、Cu-Zn、Cu-Sn、W-Zn-Cu)和钙-镁夕卡岩矿床的三个矿种(Fe-Cu、Mo、Pb-Zn)。石榴子石和辉石成分变化范围大,大多数石榴子石是含锰铝榴石+铁铝榴石+镁铝榴石小于15％(摩尔百分数)的钙铝榴石-钙铁榴石固溶体;大多数辉石是含小于5％的锰钙辉石的透辉石-钙铁辉石固溶体。有些Pb-Zn钙-镁夕卡岩矿床中的辉石显示出Mn含量有所增加。只有Sn和W钙夕卡岩矿床及Pb-Zn钙-镁夕卡岩矿床含(Sps+Alm+Pyr)总量大于15％的石榴子石。石榴子石和辉石成分与夕卡岩矿床金属矿化类型之间有某些联系。     

哈萨克斯坦萨亚克铜矿田代表性矿区矽卡岩矿物的组成及其意义研究

哈萨克斯坦萨亚克铜矿田产于晚石炭世闪长玢岩、石英闪长玢岩或花岗闪长玢岩与中石炭统灰岩的接触带上,铜矿体呈透镜状、脉状产于矽卡岩中。其成矿期可以划分为4个阶段：石榴子石矽卡岩阶段（Ⅰ）、绿帘石-石榴子石矽卡岩阶段（Ⅱ）、磁铁矿阶段（Ⅲ）和石英-硫化物阶段（Ⅳ）。铜矿化主要发生在石英-硫化物阶段,形成石英、黄铁矿、黄铜矿、磁黄铁矿,呈浸染状或脉状产于不同类型的矽卡岩或块状磁铁矿中。矽卡岩中的石榴子石有3种类型：石榴子石矽卡岩中的钙铁榴石（Grt-a）、交代钙铁榴石的含Al钙铁榴石（Grt-b）和绿帘石-石榴子石矽卡岩中具有环带结构的石榴子石（Grt-c）。从第一类到第三类石榴子石,平均w（Al₂O₃）从<1%逐渐升高至~5%;分子式中平均Fe³⁺原子数从2.15逐渐降低至1.57,显示成矿体系中Al的摩尔浓度逐渐升高、氧逸度逐渐降低。绿帘石-石榴子石矽卡岩中发育少量辉石,属于钙铁辉石-透辉石系列,在辉石分类图中落于普通辉石范围内。矽卡岩的地质特征、矿物组合和矿物化学特征表明,萨亚克矽卡岩是与花岗岩类侵入岩有关的岩浆热液与灰岩通过接触交代反应形成的钙质矽卡岩,随着矽卡岩化和成矿作用的进行,成矿体系的温度和氧逸度逐渐降低、pH值升高,导致磁铁矿和黄铁矿-磁黄铁矿-黄铜矿矿物组合依次发生沉淀。     

湖南宝山铜铅锌多金属矿床矿物学特征及其地质意义

宝山铜铅锌多金属矿床位于我国南岭成矿带中段北缘,是南岭成矿带中的重要类型之一。宝山矿床具有明显的水平分带性,即以花岗闪长斑岩为中心的铜钼矿化,周边是铅锌银矿化。本文通过对宝山铜铅锌多金属矿床中的石榴子石、透辉石、黄铁矿、闪锌矿等矿物进行矿物学研究及电子探针测试分析,归纳总结出：宝山铜铅锌多金属矿床成矿期次为矽卡岩阶段、退变质与氧化物阶段、硫化物阶段;矿床石榴石端员组分总体以钙铁榴石（23.48%~90.39%）为主,其次为钙铝榴石（5.81%~71.27%）;辉石的成分端员以透辉石（Di_61-95）为主,石榴子石成分和透辉石组分与世界上典型矽卡岩型铜矿的石榴子石和透辉石组分十分相似,属于典型的矽卡岩型铜矿床。从宝山铜铅锌多金属矿床硫化物中黄铁矿、闪锌矿矿物成分组成可以看出,该矿床硫化物为岩浆热液成因,并呈现出北东向比南西向成矿温度高的特征。     

宁镇中段矽卡岩的石榴子石与成矿关系研究

宁镇中段铜多金属矿床与矽卡岩、尤以石榴子石矽卡岩关系密切,故从矿物学角度研究该区矽卡岩的石榴子石与成矿的关系具有现实找矿意义。通过现场观察、光学显微镜、扫描电镜、X射线衍射分析、微区能谱分析及成矿元素含量分析等,对宁镇中段矽卡岩石榴子石的形貌、结构、成分、种类及其与成矿的关系进行研究,结果表明：本区石榴子石属钙铝-钙铁榴石系列,但铜矿化区的石榴子石均属其中的钙铁榴石亚种,并且铜矿化区石榴子石的铜含量远远低于无矿化区石榴子石。研究认为,成矿元素在矽卡岩期的富集或分散趋势是石榴子石成矿元素含量高低的关键原因,若岩浆分异出来的成矿元素总量相同,则在矽卡岩期即富集到石榴子石等矿物使其成矿元素较高不利于成矿,反之则石榴子石成矿元素较低而矽卡岩期后热液具有利物质条件利于成矿。     

元素富集指数在研究矽卡岩化过程中元素迁移的应用

<正>本文选取内蒙古白音诺尔铅锌矿南采坑一矽卡岩剖面,计算矽卡岩元素富集指数,研究矽卡岩化过程中元素的迁移特征。所选剖面覆盖绿帘石化花岗闪长岩、绿帘石化钙铁辉石化碳酸盐化花岗闪长岩、钙铁辉石矽卡岩及大理岩,使用便携式X荧光仪Niton XL3t 950原位测点,测区面积为5 m×0.4 m,测点布置网格为10 cm×10cm,局部加密为10 cm×5 cm,共得测点数据280     

云南都龙锡锌多金属矿床矽卡岩矿物学特征与地质意义

都龙锡锌矿床位于云南省马关县境内,是我国第3大锡多金属矿床。前人对该矿床进行了大量的研究工作,但关于该矿床的成因仍存争议,有岩浆热液、喷流沉积和沉积-变质-热液改造3种成因观点。矽卡岩作为矿区最重要的含矿岩石,对其开展相关的研究工作对于解决上述争议具有重要的意义。本文在详细的镜下鉴定工作之上,对矽卡岩中的石榴子石、辉石和角闪石进行了电子探针成分分析。分析结果表明,矽卡岩中石榴子石为钙铁榴石-钙铝榴石系列,辉石主要为透辉石-钙铁辉石系列,角闪石主要为阳起石和铁阳起石,另含有少量的铁角闪石。结合前人年代学、流体包裹体、硫、铅和碳同位素等方面研究资料,认为该矿床成因类型为岩浆热液成因的矽卡岩型多金属矿床。     

福建马坑铁（钼）矿床矽卡岩矿物学特征及分带研究

马坑大型铁(钼)矿赋存于莒舟-大洋花岗岩体外接触带黄龙组(C2h)灰岩和林地组(C1l)碎屑岩层间构造破碎带中,铁矿与矽卡岩密切共生,但矿床成因尚存在争议。本文就马坑铁矿矽卡岩进行了矿物学特征研究。电子探针分析结果表明:该矿矽卡岩矿物组合主要为辉石、石榴子石和钙蔷薇辉石,退化蚀变岩矿物组合为角闪石、绿帘石、绿泥石、石英等。单斜辉石以透辉石和钙铁辉石为主,仅存在少量锰钙辉石;似辉石为钙蔷薇辉石和蔷薇辉石;石榴子石端元成分以钙铁榴石为主,钙铝榴石少量;角闪石属于钙角闪石,矿物学特征表明它们形成于相对较氧化的条件下。马坑铁矿的矽卡岩是由热流体沿灰岩与碎屑岩之间层间构造破碎带交代形成的,铁矿石大部分产于矽卡岩内,磁铁矿多稍晚于矽卡岩,不仅广泛交代矽卡岩,而且还直接交代灰岩、砂岩等围岩,呈交代结构;主矿体下盘常出现厚层石英岩,碎屑岩也出现了明显的交代,矽卡岩分带现象普遍,与典型矽卡岩矿床特征一致。结合矿床地质特征,马坑铁矿矿床类型应为层控矽卡岩型矿床。     

Compositional characteristics of garnets and pyroxenes in contact-metasomatic skarn deposits and their relationship with metallization

The compositions of more than 300 granets and pyroxenes from 14 contact-metasomatic calcic skarn deposits and calcic-magnesia skarn skarn deposits in China have been examined using electron microprobe technique. The compositions of garnets and pyroxenes from a wide variety of ore types represent ten major classes of calcic skarn deposits (Fe, Fe-Cu, Pb-Zn,W, Sn, Sn-Mo-Bi-W, W-Bi-Cu-Mo, Cu-Zn and W-Zn-Cu) and three major classes of calcic-magnesia skarn deposits (Fe-Cu, Mo, Pb-Zn). Garnets and pyroxenes show a wide range of variation in composition, but the majority of garnets are grossular-andradite solid solutions containing less than 15 mol% (spessartine + almandine + pyrope), whereas most pyroxenes are diopside-hedenbergite solid solutions containing less than 5 mol% johannesenile. Some pyroxenes from a Pb-Zn calcic-magnesia skarn deposit display an increase in Mn content. Only Sn-W calcic skarn deposits and Pb-Zn calcic-magnesia skarn deposits contain garnets with more than 15 mol% (spessartine + almandine + pyrope). Some relationships have been established between the compositions of garnets and pyroxenes and the metallization types of economically important metals in skarn deposits.     

广西拉么Zn—Cu矿床中夕卡岩的主要矿物特点与Ca—Fe—Si—C—O体系T—lgfO2图解

用电子探针数据研究了该矿床中主要夕卡岩矿物特点及其变化规律。采用理想结晶溶液固溶体位置混合模式,计算了石榴子石和辉石矿物对中钙铁榴石和钙铁辉石的摩尔分数。在计算纯固相和流体相参加的反应抵达平衡时的边界方程中,加上理想结晶固溶体中端元组分摩尔分数的修正项后,我们便可以计算出有纯固相、流体相和理想结晶溶液固溶体参加反应的在给定T、P条件下的lgfo_2值。计算结果表明:无变度点4周围的Hed+And+Wol组合对本矿区具有重要的地质地球化学意义。     

长江中下游成矿带矽卡岩型矿床矿物包裹体激光拉曼分析结果及其地质-地球化学意义

矽卡岩矿床各种硅酸盐矿物中熔融包裹体和流体-熔融包裹体的显微测温资料和相成分让我们提出过大量矽卡岩是岩浆成因的建议。在本文中,我们提供沿长江中下游成矿带的许多矽卡岩矿床包含在石榴子石和辉石里的熔融包裹体和流体-熔融包裹体的激光拉曼分析结果,目的是证明所研究的并与Cu-Fe-Au矿床共生的矽卡岩系岩浆成因。我们的研究结果显示,熔融包裹体只含固体相和微量气相。流体-熔融包裹体除了含大量固相外,还含微量流体和气相以及没有被仪器检测到的气体。固体相与包裹体寄主矿物相同或类似。流体相主要为水或盐水溶液和包括C6H6、C3H6、C3H8、CH4、CO2和O2的气体。我们提出,熔融包裹体和流体-熔融包裹体是原始岩浆的最好代表。这就证明,矽卡岩组合是由一个原生岩浆直接结晶而成。此外,我们还讨论了岩浆矽卡岩形成的温度、分布范围和规模、形成机制和与Cu-Fe-Au矿化作用的联系。     

Geological, mineralogical and geochemical characteristics of the Carles gold mineralization, Asturias, Spain

In the western part of the Cantabrian Zone, Carlés gold mineralization is related to an igneous stock of granodioritic composition which intruded into devonian limestones, forming a well-developed exo-skarn and quantitatively less important endo-skarn. The skarn is characterized by the presence of garnet, pyroxenes, amphiboles, layers of hornfels corresponding to pelitic intercalations, and a number of opaque oxides and sulfides. Gold inclusions in arsenic minerals are present in quartzveins occurring in the skarn and in the granodiorite, but gold-rich zones are limited to the skarn. The crystallization temperature of arsenopyrite is coherent with T-P conditions (T = 460°C, P = 2200 bars) deduced from intersections of isochores of aqueous and carbonic fluid inclusions studied in samples of cogenetic quartz.     

矽卡岩岩浆对中国北方某些矽卡岩型矿床形成的制约——来自包裹体激光拉曼分析证据

本文将报道中国北方主要矽卡岩型矿床矿物熔融包裹体和流体-熔融包裹体的激光拉曼分析结果。研究目的是确认这些矿化矽卡岩矿物是否含熔融包裹体和流体-熔融包裹体,获取有关它们相态特征和相组成以及它们的分布状况(是局部的、偶然性的,还是广泛的)的信息。文章对邯邢铁矿、蒙库铁矿和杨家杖子钼矿等9个矿床12块标本中石榴石、辉石和方解石或白云石中23个包裹体进行了共聚焦激光拉曼光谱仪分析。拉曼分析结果表明,所研究的矽卡岩矿物均含熔融包裹体和/或流体-熔融包裹体,它们是岩浆矽卡岩的直接证据。结合本文激光拉曼分析结果、地质背景和其他地区岩浆矽卡岩矿物包裹体测温学研究,对所研究矽卡岩的形成机制和岩浆矽卡岩对中国北方某些矽卡岩型矿床的制约进行了讨论。认为含有熔融包裹体和/或流体-熔融包裹体的矿化矽卡岩系岩浆成因,其分布范围广泛,规模不小。中国北方某些矽卡岩型矿床的时空分布和规模受控于该地区分布的岩浆矽卡岩。希望本文有助于拓宽矽卡岩型矿床成矿规律研究和深部找矿勘探的思路。     

Magmatic unmixing in spinel from late Precambrian concentrically-zoned mafic–ultramafic intrusions, Eastern Desert, Egypt

Spinel is widespread in the ultramafic core rocks of zoned late Precambrian mafic–ultramafic complexes from the Eastern Desert of Egypt. These complexes; Gabbro Akarem, Genina Gharbia and Abu Hamamid are Precambrian analogues of Alaskan-type complexes, they are not metamorphosed although weakly altered. Each intrusion is composed of a predotite core enveloped by pyroxenites and gabbros at the margin. Silicate mineralogy and chemistry suggest formation by crystal fractionation from a hydrous magma. Relatively high Cr₂O₃ contents are recorded in pyroxenes (up to 1.1 wt.%) and amphiboles (up to 1.4 wt.%) from the three plutons. The chrome spinel crystallized at different stages of melt evolution; as early cumulus inclusions in olivine, inclusions in pyroxenes and amphiboles and late-magmatic intercumulus phase. The intercumulus chrome spinel is homogenous with narrow-range of chemical composition, mainly Fe³⁺-rich spinel. Spinel inclusions in clinopyroxene and amphibole reveal a wide range of Al (27–44 wt.% Al₂O₃) and Mg (6–13 wt.% MgO) contents and are commonly zoned. The different chemistries of those spinels reflect various stages of melt evolution and re-equilibration with the host minerals. The early cumulus chrome spinel reveals a complex unmixing structures and compositions. Three types of unmixed spinels are recognized; crystallographically oriented, irregular and complete separation. Unmixing products are Al-rich (Type I) and Fe³⁺-rich (Type II) spinels with an extensive solid solution between the two end members. The compositions of the unmixed spinels define a miscibility gap with respect to Cr–Al–Fe³⁺, extending from the Fe³⁺–Al join towards the Cr corner. Spinel unmixing occurs in response to cooling and the increase in oxidation state. The chemistry and grain size of the initial spinel and the cooling rate control the type of unmixing and the chemistry of the final products. Causes of spinel unmixing during late-magmatic stage are analogous to those in metamorphosed complexes. The chemistry of the unmixed spinels is completely different from the initial spinel composition and is not useful in petrogenetic interpretations. Spinels from oxidized magmas are likely to re-equilibrate during cooling and are not good tools for genetic considerations.     

Mineral compositions and fluid evolution of the Tonglushan skarn Cu–Fe deposit,SE Hubei,east-central China

The Tonglushan Cu–Fe deposit (1.12 Mt at 1.61% Cu, 5.68 Mt at 41% Fe) is located in the westernmost district of the Middle–Lower Yangtze River metallogenic belt. As a typical polymetal skarn metallogenic region, it consists of 13 skarn orebodies, mainly hosted in the contact zone between the Tonglushan quartz-diorite pluton (140 Ma) and Lower Triassic marine carbonate rocks of the Daye Formation. Four stages of mineralization and alterations can be identified: i.e. prograde skarn formation, retrograde hydrothermal alteration, quartz-sulphide followed by carbonate vein formation. Electron microprobe analysis (EMPA) indicates garnets vary from grossular (Ad_20.2–41.6Gr_49.7–74.1) to pure andradite (Ad_47.4–70.7Gr_23.9–45.9) in composition, and pyroxenes are represented by diopsides. Fluid inclusions identify three major types of fluids involved during formation of the deposit within the H₂O–NaCl system, i.e. liquid-rich inclusions (Type I), halite-bearing inclusions (Type II), and vapour-rich inclusions (Type III). Measurements of fluid inclusions reveal that the prograde skarn minerals formed at high temperatures (>550°C) in equilibrium with high-saline fluids (>66.57 wt.% NaCl equivalent). Oxygen and hydrogen stable isotopes of fluid inclusions from garnets and pyroxenes indicate that ore-formation fluids are mainly of magmatic-hydrothermal origin (δ¹⁸O = 6.68‰ to 9.67‰, δD = –67‰ to –92‰), whereas some meteoric water was incorporated into fluids of the retrograde alteration stage judging from compositions of epidote (δ¹⁸O = 2.26‰ to 3.74‰, δD= –31‰ to –73‰). Continuing depressurization and cooling to 405–567°C may have resulted in both a decrease in salinity (to 48.43–55.36 wt.% NaCl equivalent) and the deposition of abundant magnetite. During the quartz-sulphide stage, boiling produced sulphide assemblage precipitated from primary magmatic-hydrothermal fluids (δ¹⁸O = 4.98‰, δD = –66‰, δ³⁴S values of sulphides: 0.71–3.8‰) with an extensive range of salinities (4.96–50.75 wt.% NaCl equivalent), temperatures (240–350°C), and pressures (11.6–22.2 MPa). Carbonate veins formed at relatively low temperatures (174–284°C) from fluids of low salinity (1.57–4.03 wt.% NaCl equivalent), possibly reflecting the mixing of early magmatic fluids with abundant meteoric water. Boiling and fluid mixing played important roles for Cu precipitation in the Tonglushan deposit.     

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.     

Melt inclusions in high-An plagioclase from the Gorda Ridge: an example of the local diversity of MORB parent magmas

 The use of ocean floor basalt chemistry as a tool to investigate mantle composition and processes requires that we work with basalts that have been modified little since leaving the mantle. One source of such basalts is melt inclusions trapped in primitive crystals. However, obtaining information from these melt inclusions is complicated by the fact that melt inclusions in natural basalts are essentially always altered by post-entrapment crystallization. This requires that we develop techniques for reconstructing the original trapped liquid compositions. We conducted a series of experiments to reverse the effects of post-entrapment crystallization by re-heating the host crystals to their crystallization temperature. For these experiments we used plagioclase crystals separated from a single Gorda Ridge lava. The crystallization temperature for these crystals was determined by a set of incremental re-heating experiments to be ∼1240–1260° C. The inclusions are primitive, high Ca-Al basaltic melts, saturated with plagioclase, olivine and Al-rich chromite at low pressure. The inclusion analyses can be linked to the host lava composition by low pressure fractionation. The major element composition of the re-homogenized melt inclusions within each crystal is relatively constant. However, the incompatible element analyses have extremely wide ranges. The range of La/Sm and Ti/Zr from inclusions analyzed from a single sample from the Gorda Ridge exceeds the range reported for lavas sampled from the entire ridge. The pyroxene compositions predicted to be in equilibrium with the melt inclusion trace element signature cover much of the range represented by pyroxenes from abyssal peridotites. The volumetric proportions of the magmas entering the base of the crust can be evaluated using frequency distribution of melt inclusion compositions. This distribution suggests that the array of magmas was skewed towards the more depleted compositions, with little evidence for an enriched component in this system. This pattern is more consistent with a dynamic flow model of the mantle or of a passive flow model where the melts produced in the peripheral areas of the melting regime were not focused to the ridge. Received: 5 January 1995 / Accepted: 13 June 1995