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1.
西藏蒙亚啊铅锌矿床是冈底斯北缘一个重要的层状或似层状矽卡岩矿床,来姑组为矿床的主要容矿层位。矿区矽卡岩矿物主要有硅灰石、辉石、石榴石、透闪石、阳起石、绿帘石和绿泥石等。根据矿物的共生组合及交代关系,推断矿床经历了4个成矿阶段:早期矽卡岩阶段、晚期矽卡岩阶段、石英-硫化物阶段和碳酸盐阶段。结合矿物手标本及显微镜下观察,通过对矽卡岩矿物的电子探针测试,分析石榴石、辉石和硅灰石的矿物特征,结果表明:西藏蒙亚啊铅锌矿床属钙质矽卡岩矿床,石榴石和辉石的组分变化较大,分别为And599~9472Gro0~3787(Pyr+Spe+Alm)087~678和Di1885~9444Hd339~7058Jo009~1114,硅灰石的矿物组分为Wo9900~9944Fs037~078En007~023。石榴石属钙铁榴石-钙铝榴石系列,且环带发育,辉石为透辉石-钙铁辉石系列,硅灰石组分较纯。西藏蒙亚啊矽卡岩为钙质矽卡岩,其矿床在形成过程中经历了热液流体的多期多阶段演化,矿床形成环境也并不是稳定的封闭体系。矽卡岩矿物成分特征表明,蒙亚啊铅锌矿床的成矿环境是一个低酸性的氧化-弱氧化环境。 相似文献
2.
湖南宝山铜铅锌多金属矿床矿物学特征及其地质意义 总被引:1,自引:0,他引:1
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(Di61-95)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。 相似文献
3.
云南金厂河铁铜铅锌多金属矿床矽卡岩矿物学特征及蚀变分带 总被引:1,自引:0,他引:1
金厂河铁铜铅锌多金属矿床是位于"三江"地区保山地块北部的隐伏多金属矿床,矿体呈层状、似层状产于上寒武统核桃坪组大理岩化灰岩与矽卡岩内,受NW向F2断裂和NE向F10断裂控制明显。本文根据野外穿切关系及矿物共生组合,将矿床划分为4个成矿阶段,即矽卡岩阶段、退化蚀变阶段、石英-硫化物阶段、碳酸盐阶段。矿区脉石矿物包括石榴子石、辉石、角闪石、绿帘石、绿泥石、黑柱石、石英、方解石、萤石等,矿石矿物主要包括磁铁矿、黄铜矿、磁黄铁矿、黄铁矿、方铅矿和闪锌矿。本文以矽卡岩矿物为研究对象,利用电子探针技术对其矿物学特征进行研究,结果表明:该矿床矽卡岩矿物主要为钙矽卡岩,石榴子石以钙铁榴石为主,辉石为透辉石-钙铁辉石过渡系列,角闪石主要为阳起石、铁阳起石和铁闪石,黑柱石含铁较高,多与磁铁矿相伴生;本矿床含少量锰质矽卡岩,包括锰铝榴石、含锰钙铁辉石、含锰阳起石、含锰黑柱石。矿床从深至浅的垂向分带以及自东向西的水平分带具有相似性:含Fe钙质矽卡岩※含Cu钙质矽卡岩※含Pb-Zn锰质矽卡岩※大理岩化灰岩,表明由矿床中部至两侧,自东向西,均有明显高温氧化环境向低温还原环境演化趋势。通过与已有矽卡岩Pb-Zn矿床矿物分带模型对比,推测存在深部岩浆热液以断裂交汇部位侵入交代围岩成矿,该矿床应为远接触带的矽卡岩型隐伏铁铜铅锌多金属矿床。 相似文献
4.
金厂河铁铜铅锌多金属矿床是位于“三江”地区保山地块北部的隐伏多金属矿床,矿体呈层状、似层状产于上寒武统核桃坪组大理岩化灰岩与矽卡岩内,受NW向F2断裂和NE向F10断裂控制明显。本文根据野外穿切关系及矿物共生组合,将矿床划分为4个成矿阶段,即矽卡岩阶段、退化蚀变阶段、石英-硫化物阶段、碳酸盐阶段。矿区脉石矿物包括石榴子石、辉石、角闪石、绿帘石、绿泥石、黑柱石、石英、方解石、萤石等,矿石矿物主要包括磁铁矿、黄铜矿、磁黄铁矿、黄铁矿、方铅矿和闪锌矿。本文以矽卡岩矿物为研究对象,利用电子探针技术对其矿物学特征进行研究,结果表明:该矿床矽卡岩矿物主要为钙矽卡岩,石榴子石以钙铁榴石为主,辉石为透辉石-钙铁辉石过渡系列,角闪石主要为阳起石、铁阳起石和铁闪石,黑柱石含铁较高,多与磁铁矿相伴生;本矿床含少量锰质矽卡岩,包括锰铝榴石、含锰钙铁辉石、含锰阳起石、含锰黑柱石。矿床从深至浅的垂向分带以及自东向西的水平分带具有相似性:含Fe钙质矽卡岩→含Cu钙质矽卡岩→含Pb-Zn锰质矽卡岩→大理岩化灰岩,表明由矿床中部至两侧,自东向西,均有明显高温氧化环境向低温还原环境演化趋势。通过与已有矽卡岩Pb-Zn矿床矿物分带模型对比,推测存在深部岩浆热液以断裂交汇部位侵入交代围岩成矿,该矿床应为远接触带的矽卡岩型隐伏铁铜铅锌多金属矿床。 相似文献
5.
福建马坑铁(钼)矿床矽卡岩矿物学特征及分带研究 总被引:3,自引:0,他引:3
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。 相似文献
6.
黄沙坪矿床矿物组合分带规律研究 总被引:8,自引:0,他引:8
黄沙坪铅锌矿床围绕301号和304号花岗斑岩体出现矿物组合分带的特点。矿物组合呈正向带状分布,由复杂到简单。从花岗斑岩体至远离岩体的地层,矿床分带表现为接触交代矽卡岩型铁(锡)矿床→气化高温热液矽卡岩型钨钼矿床→高中温热液含铁(锡)铅锌矿床或铜铅锌矿床。成矿顺序为Fe→Fe(Sn)→W、Mo→(Cu)PbZn。并分析了矿液形成、运移演化、成矿过程中的硫、氧与温度的相互联系,相互制约,共同作用构成了矿物共生组合分带的规律。 相似文献
7.
广东省天堂铜铅锌多金属矿床矽卡岩矿物学特征及其地质意义 总被引:2,自引:0,他引:2
天堂矿床是粤西地区以泥盆系上统天子岭组灰岩为围岩的大型矽卡岩型铜铅锌多金属矿床,矿体呈似层状、层状、透镜状、不规则状等产出在矽卡岩和矽卡岩化大理岩中,矿区发育石榴子石、透辉石、绿帘石、硅灰石、绿泥石等蚀变矿物,金属矿物主要包括黄铜矿、黄铁矿、方铅矿和闪锌矿等。本文以主要矽卡岩矿物为研究对象,利用电子探针技术对其矿物学特征进行研究。电子探针分析结果表明:天堂铜铅锌多金属矿床矽卡岩属于交代矽卡岩中典型的钙矽卡岩。石榴子石以钙铝榴石-钙铁榴石系列为主,从早到晚具有从钙铝榴石为主到钙铁榴石为主的演化趋势,说明成矿流体由酸性向碱性演化。辉石以透辉石为主,石榴子石和辉石的矿物组分分别为Adr4.60~96.47Grs2.10~94.28(Prp+Sps)0.41~3.88和Di88.51~95.09Hd3.31~9.76Jo0.28~3.98,其较大的成分变化特征反映出矽卡岩不是在一个完全封闭的平衡条件下形成的。帘石主要为绿帘石,含有少量的黝帘石。矿物成分分析表明辉石的Mn/Fe比值和矿化金属元素存在一定的联系。通过矽卡岩矿物学特征分析,进一步证实天堂铜铅锌多金属矿床是花岗岩类岩浆交代灰岩而形成的典型矽卡岩型矿床。 相似文献
8.
马坑铁矿钻孔岩心红外光谱特征及蚀变分带特征研究 总被引:1,自引:0,他引:1
红外反射光谱技术可无损、快速、批量地识别出硅酸盐、硫酸盐、碳酸盐等矿物,近年来在矿物学研究、地质勘探与找矿、矿山选冶等方面取得了较显著进展。尤其是热红外波段(6000~14500nm)可识别出辉石、石榴子石、橄榄石等蚀变矿物以及长石、石英等造岩矿物,对于矽卡岩型、铜镍硫化物型以及石英脉型等矿床地质找矿、矿床成因研究等具有重要意义。本文通过对国家实物地质资料馆馆藏的马坑铁矿钻孔岩心进行短波-热红外反射光谱测量与分析,总结马坑铁矿各蚀变矿物光谱特征,并快速厘定了该矿床的蚀变矿物类型及组合特征。马坑铁矿蚀变矿物主要有石榴子石、辉石、碳酸盐、绿泥石、绢(白)云母、角闪石、绿帘石、蒙脱石、石膏等。石榴子石热红外光谱特征是在9199nm、9730nm、10500nm及11100nm处具有明显的反射特征,辉石热红外光谱特征主要是在11500nm和12150nm处具有明显的吸收特征。红外光谱分析表明蚀变矿物在空间上呈现出明显的分带性,蚀变矿物组合及分布严格受围岩岩性和热液交代的双重控制。通过红外反射光谱蚀变矿物组合特征研究,“石榴子石+辉石”可作为矽卡岩型矿床的标型矿物组合,蚀变分带特征也反映了主矿体从高温到低温的变化过程;结合矿床地质特征,推断出马坑铁矿为典型的层控矽卡岩型矿床。本研究可为矽卡岩型矿床的成矿规律认识和找矿勘探等方面提供科学支撑。 相似文献
9.
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 总被引:4,自引:0,他引:4
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。 相似文献
10.
11.
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. 相似文献
12.
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 总被引:1,自引:0,他引:1
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。 相似文献
13.
Yasuhiro Kato 《Resource Geology》1999,49(4):183-198
Abstract: Systematic data of rare earth elements (REEs) are presented in order to put some constraints on the origin of hydrothermal fluids responsible for two contrastive skarn deposits in Japan; the Kamioka Zn-Pb and Yoshiwara-Sannotake Cu(-Fe) deposits. Carbon and oxygen isotopic studies have demonstrated that the hydrothermal fluids responsible for the Kamioka Zn-Pb deposits are of meteoric water origin whereas those for the Yoshiwara-Sannotake Cu(-Fe) deposits are of magmatic water origin. The REE abundances of epidote skarn derived from aluminous rocks, garnet and clinopyroxene in calcic exoskarn derived from limestone, and interstitial calcite associated with sulfide minerals were determined for these contrastive skarn deposits by inductively-coupled plasma mass spectrometry (ICP-MS). A significant difference in the REE concentrations is not found between epidote skarn and aluminous original rock (plagioclase-clinopyroxene rock, called Inishi rock) from the Kamioka Zn-Pb deposits, indicating that the REEs are generally immobile during the formation of epidote skarn, and that the REE concentrations of the hydrothermal fluid are considerably low relative to the aluminous original rock. In contrast, the epidote skarn exhibits enrichment of Eu with increasing total REE concentrations relative to the aluminous original rock (quartz diorite) in the Yoshiwara-Sannotake Cu(-Fe) deposits, implying a contribution of magmatic fluid derived from granitoids during the skarn formation. Limestone generally has much lower REE concentrations related to surrounding aluminous rocks, and thus the REE concentrations of garnet and clinopyroxene in calcic exoskarn, originated from limestone, are variable due to the interaction with the hydrothermal fluids. The chondrite-normalized REE patterns of garnet, clinopyroxene, and interstitial calcite exactly provide useful information on origins of hydrothermal fluids. The REE patterns of these minerals from the Kamioka Zn-Pb deposits show lower (Pr/Yb)cn ratios, and negative Ce and Eu anomalies inherited from limestone with the decrease of This suggests that the hydrothermal fluids responsible for the Kamioka Zn-Pb deposits were depleted in REEs, and were not magmatic water in origin, but presumably meteoric one. In striking contrast, the REE patterns of exoskarn minerals and calcite from the Yoshiwara-Sannotake Cu(-Fe) deposits exhibit a positive Eu anomaly, and high (Pr/Yb)cn ratios with the considerable increase of σREE and the disappearance of negative Ce anomaly, implying that the fluids were dominantly of magmatic origin. The REE indices are very likely to be an excellent indicator to origins of the skarn deposits. 相似文献
14.
华北地台北缘燕辽钼(铜)成矿带矿床地质特征及动力学背景 总被引:29,自引:10,他引:29
华北地台北缘是中国重要的多金属成矿带,中段部位钼(铜)矿床的分布受区域EW向、NE向、NNE向断裂的联合控制。成矿带东端辽西地区以钼矿为主,西端冀北地区以铜(钼)矿为主。钼矿床的形成与燕山期中酸性小侵入体关系密切,矿床多产于花岗斑岩体之中或内外接触带中,矿床类型以斑岩型、斑岩_矽卡岩型、矽卡岩型为主。同位素研究表明,钼(铜)矿床成矿物质及成矿流体主要来源于下地壳或与太古代结晶基底有关的花岗岩;钼矿的形成主要与中生代富硅、富钾质花岗岩有关,而与铜矿成因有关的花岗岩酸碱度相对较低。成矿年代学研究表明,燕辽钼(铜)成矿带大规模成矿作用发生于180Ma左右和140Ma左右2个时期,其对应的成矿动力学背景分别为华北板块与西伯利亚板块后碰撞造山阶段和中国东部构造体制大转折晚期。 相似文献
15.
矽卡岩型铁矿的铁质来源与迁移富集机理探讨 总被引:4,自引:0,他引:4
矽卡岩型铁矿是我国最重要的富铁矿类型,其铁质来源及迁移富集机理是目前最核心、也最具争议的问题之一。本文在矽卡岩矿床复杂性和多成因性研究的基础上,对浅部铁质活化、迁移和富集机理进行整理归纳,建立了流程图;分别探讨了不同类矽卡岩型铁矿铁质的最大可能来源,认为与中酸性侵入体有关的该类铁矿,铁质主要源于浅部侵入岩;与酸性侵入体有关的该类铁矿,矿床附近的原始赋铁层位可能提供了大量铁质。但并非所有与酸性岩有关的此类铁床附近都存在赋铁地层,故本文对铁质深部来源的可能性进行了探讨,结合"岩浆矽卡岩-富碱侵入岩对"的概念,提出了全新的深部铁质活化、运移和富集的可能模式,即深部岩浆同化钙质岩石融离出的富铁矿浆上升并运移到浅部侵入岩与碳酸盐岩的接触带附近,与该系统中的热液相遇并反应,热液吸收矿浆中的铁质生成富铁的复合热液,后复合热液在接触带因物理化学条件的剧变而沉淀成矿。 相似文献
16.
R. Newberry 《Mineralium Deposita》1987,22(3):207-215
The polymetallic Pb-Zn-Ag-W-Cu-Au skarn and vein ores of the Darwin area, California, represent a metal association not common in skarn deposits. Detailed and regional geologic mapping combined with modal and chemical analyses of igneous rocks and electron microprobe and assay studies of calc-silicate rocks shows that there are three separate mineralizing systems which have been superimposed by structural and intrusive events. Scheelite-bearing skarns are associated with the alkaline Darwin stock; small Cu±Au skarns are adjacent to sheared (thrust-emplaced) granite-granodiorite masses; and Pb-Zn-Ag vein skarns are zoned around small granite porphyry dikes and plugs. Calc-silicate mineral compositions are also indicative of three different mineralization systems: W-skarns have high Fe pyroxenes and moderate Fe garnets; Cu-skarns have low Fe-pyroxenes and high Fe-garnets; and Pb-Zn skarns have high-Mn pyroxenes and garnets (patterns seen in other skarn deposits). Vein ores contain metals compatible with the subjacent skarns and apparently represent lower-temperature remobilization of skarn ores. 相似文献
17.
镁质碳酸盐岩型温石棉矿床是成矿热液交代镁质碳酸盐岩生成的,一般均产于地台环境。按地台稳定性不同,成矿环境分为地台隆起区的基底建造类型和地台拗陷区的盖层建造类型。产于地台隆起区的矿床,以前震旦纪镁质碳酸盐岩为控矿层位。产于太古代及早、中元古代深变质结晶基底中的矿床,由区域变质及混合岩化过程中的变质热液交代碳酸盐岩成矿。产于晚元古代浅变质褶皱基底(扬子准地台)中的矿床,以岩浆期后热液或接触交代(湿矽卡岩)热液为成矿热液来源。产于地台拗陷区的矿床,均以震旦纪镁质碳酸盐岩为控矿层位。其成矿时期较晚,一般与拗陷区内岩浆活动同期,由岩浆期后热液或接触交代(湿矽卡岩)热液对镁质碳酸盐岩进行交代成矿。 相似文献
18.
Granite- and gabbrodiorite-associated skarn deposits of NW Iran 总被引:1,自引:0,他引:1
Field and laboratory studies show that there are two types of skarn deposits in NW Iran: granite-associated (type I) and gabbrodiorite-associated (type II). Granite-associated deposits are accompanied by Cu and Fe mineralisation, whereas Mn and Fe are the main ore metals in gabbrodiorite-associated skarn deposits. There are some differences in the mineralogy of these skarn deposits. Bixbyite, piemontite and Cr-bearing garnet are found only in gabbrodiorite-associated skarns, whereas idocrase occurs only in granite-associated deposits. Type II skarns show exoskarn features, whereas some type I skarns have developed endoskarn as well. Evidence of boiling of hydrothermal fluid can be seen in both types and seems to be a common mechanism of mineral deposition. Gabbrodiorite-associated skarns show higher fO2 than granite-associated deposits. Based on mineralogical and textural evidence, mineralisation in both groups has started from about 550 °C. Early formed anhydrous minerals have begun to be replaced by hydrous minerals from about 400 °C.It seems that due to low fluid content in the gabbrodioritic magma, heated meteoritic water in the surrounding volcanoclastic and tuffaceous rocks was the main source of hydrothermal solution in the gabbrodiorite-associated skarn system. 相似文献
19.
Vostok-2—East Russia’s largest skarn deposit of high-grade sulfide-scheelite ore with substantial base-metal and gold mineralization—was formed during the Mesozoic orogenic epoch of evolution of the Far East marginal continental system as an element of the gold-tin-tungsten metallogenic belt. The deposit is related to the multistage monzodiorite-granodiorite-granite complex pertaining to the ilmenite series and spatially associated with a minor granodiorite porphyry (?) stock, which bears petrological features transi- tional to those of intrusive rocks occurring at Au-W and Au deposits. The hydrothermal metasomatic alteration of host rocks evolved from pyroxene skarn via retrograde postskarn and propylitic (hydrosilicate) metasomatic rocks to the late, low-temperature quartz-sericite metasomatic rocks often with albite, chlorite, carbonate, and apatite. The mineral assemblages of skarn and postskarn metasomatic rocks correspond to those at the reduced-type tungsten skarn deposits. Zoning of the postskarn metasomatic rocks is controlled by granodiorite stock. The hydrothermal metasomatic alteration was accompanied by development of mineralization from scheelite via sulfide-scheelite with pyrrhotite and chalcopyrite to the gold-base-metal-scheelite assemblage with arsenopyrite, Bi-Sb-Te-Pb-Zn sulfides and sulfosalts. Several scheelite generations are recognized. Scheelite of the late generations is enriched in Eu, as is typical of gold deposits. The associated gold mineralization comprises both native gold varying in fineness and Au-bearing arsenopyrite. The significant gold mineralization emphasizes genetic links of this deposit with intrusion-related Au-W and Au deposits of the reduced type. 相似文献
20.
对柿竹园矽卡岩成因及其成矿作用的新认识 总被引:10,自引:0,他引:10
本文将报导柿竹园W,Sn,Mo,Bi矿床中矽卡岩矿物-石榴子石和辉石成分和石榴子石中熔融包裹体研究结果,对不同中段的16块矽卡岩样品(94%的标本采自第Ⅲ矿带)中的石榴子石和辉石进行了电子探针分析,共获得230个测点的数据,此外,还对上述中段大部分样品里的石榴子石和辉石进行了从边部到核心成分测定,共获得13个样品的97个测点数据,研究结果表明,绝大多数石榴子石属于含Alm+Sps+Pyr〈13%( 相似文献