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1.
Alan J. Wilson David R. Cooke Benjamin J. Harper Cari L. Deyell 《Mineralium Deposita》2007,42(5):465-487
The alkalic porphyry gold–copper deposits of the Cadia district occur in the eastern Lachlan Fold Belt of New South Wales,
Australia. The district comprises four porphyry deposits (Ridgeway, Cadia Quarry, Cadia Hill, and Cadia East) and two iron–copper–gold
skarn deposits (Big Cadia and Little Cadia). Almost 1,000 tonnes of contained gold and more than four million tonnes of copper
have been discovered in these systems, making Cadia the world’s largest known alkalic porphyry district, in terms of contained
gold. Porphyry gold–copper ore at Cadia is associated with quartz monzonite intrusive complexes, and is hosted by central
stockwork and sheeted quartz–sulfide–(carbonate) vein systems. The Cadia porphyry deposits are characterized by cores of potassic
and/or calc–potassic alteration assemblages, and peripheral halos of propylitic alteration, with late-stage phyllic alteration
mostly restricted to fault zones. Hematite dusting is an important component of the propylitic alteration assemblage, and
has produced a distinctive reddening of feldspar minerals in the volcanic wall rocks around the mineralized centers. Sulfide
mineralization is strongly zoned at Ridgeway and Cadia East, with bornite-rich cores surrounded by chalcopyrite-rich halos
and peripheral zones of pyrite mineralization. The Cadia Hill and Cadia Quarry deposits have chalcopyrite-rich cores and pyrite-rich
halos, and Cadia Hill contains a high-level bornite-rich zone. Distinctive sulfur isotopic zonation patterns have been identified
at Ridgeway, Cadia Hill, and Cadia East. The deposit cores are characterized by low δ34Ssulfide values (−10 to −4‰), consistent with sulfide precipitation from an oxidized (sulfate-predominant) magmatic fluid at 450 to
400°C. Pyrite grains that occur in the propylitic alteration halos typically have δ34Ssulfide values near 0‰. There is a gradual increase in δ34Ssulfide values outwards from the deposit cores through the propylitic halos. Water–rock interaction during propylitic alteration
caused magmatic sulfate reduction and concomitant oxidation of ferrous iron-bearing minerals, resulting in enrichment of 34S in pyrite and also producing the distinctive reddened, hematite-rich alteration halos to the Cadia deposits. These results
show that sulfur isotope analyses have potential applications in the exploration of alkalic porphyry-style deposits, with
zones of depleted δ34Ssulfide values most prospective for high-grade mineralization. 相似文献
2.
巴布亚新几内亚地质构造格架复杂,包括地台、碰撞造山带、外来地体、俯冲带、岛弧和海底扩张中心。巴布亚新几内亚铜金矿床类型主要为斑岩型铜金矿床、浅成低温热液型金银矿床和夕卡岩型铜金矿床(三者之间具有密切的时间、空间和成因关系),其次为海底块状硫化物矿床。铜金矿床分布比较集中,主要产出于碰撞造山带和岛弧上,其次产出于现代海底扩张中心。铜金矿床大多规模巨大或较大,埋藏较浅,易于勘探和适合露天开采。与铜金矿床有关的岩浆岩大多为钙碱性火山岩和浅成侵入岩,少数与富钾碱性火山岩(橄榄玄粗岩)或侵入岩伴生。铜金矿床蚀变带发育且分带性明显,大多与斑岩体系和/或火山机构有关。虽然许多铜金矿床的矿物成分比较复杂,但是其矿石较易处理和利用。 相似文献
3.
西藏冈底斯成矿带浅成低温热液型金锑矿床的发现及其意义--以西藏弄如日金锑矿床为例 总被引:9,自引:3,他引:6
通过化探、槽探和平硐等手段,对位于冈底斯成矿带东段的弄如日金矿床进行了评价和研究,在矿区发现金矿化带4条,圈出金矿体5个,控制2.3g/t品位以上的金资源量(333+3341)为2.97t,确定该矿床属典型的浅成中低温热液型金矿床。矿区的金矿体赋存于破碎蚀变角岩和蚀变二长花岗斑岩中,受南北向正断裂系统的控制,矿化以金为主,伴有辉锑矿、雄黄、黄铁矿等矿物,可分为浅成低温热液和表生氧化2个成矿期,金可能以独立的自然金状态存在于脉石矿物的粒问或裂隙中。弄如日金矿床形成于伸展构造背景,在空间上居斑岩铜矿床外围,成矿时代为中新世一上新世,与冈底斯斑岩型铜钼矿床及其外围的矽卡岩型铅锌矿床的成矿时代基本一致,说明三者受统一的成矿作用制约,属斑岩岩浆一热液成矿系统中的浅成低温热液型金锑矿床。 相似文献
4.
西藏弄如日金矿是冈底斯成矿带发现的第一个浅成低温热液型金矿床。为确定金矿床的成矿时代,对该矿床与金矿化有关的蚀变花岗斑岩中绢云母进行了40Ar-39Ar年龄测试,获得绢云母的加权平均年龄和等时线年龄分别为19.87±0.96Ma和19.70±0.30Ma。结果表明,弄如日金矿床金矿化的主要成矿时代为中新世。该成果的获得对于进一步认识弄如日金矿成因机制、地球动力学背景以及区域找金突破具有重要意义。 相似文献
5.
柴达木盆地南缘祁漫塔格—鄂拉山地区斑岩-矽卡岩矿床地质 总被引:10,自引:3,他引:7
柴达木盆地南缘祁漫塔格-鄂拉山地区发育斑岩-矽卡岩型铜多金属矿床,成矿主元素为Cu、Mo、Pb、Zn,大部分矿床伴生Au、Ag。斑岩型和矽卡岩型矿(化)体共生于同一个矿区之中,是这类矿床的一个重要特点。与成矿有关的侵入体是印支期的中酸性小岩体,它们具有浅成_超浅成和高侵位等特点。斑岩-矽卡岩矿床的成岩年龄和成矿年龄一致,形成于中三叠世至晚三叠世。它们是东昆仑造山带晚碰撞造山阶段壳-幔作用(幔源岩浆底侵-岩浆混合)的产物,与东昆仑地区这一时期的矽卡岩型铁多金属矿床、热液脉状多金属矿床,以及造山型金矿床共同构成了一个矿床成矿系列。 相似文献
6.
涞源杂岩体是中国东部燕山期岩浆岩带的重要组成部分,其成矿作用强烈、成矿作用方式多样,许多矿产地矿床类型为斑岩型、矽卡岩型、热液型等"多型一体",成矿元素Mo、Cu、Fe、Pb、Zn、Au、Ag等共伴生。该杂岩体内已查明大型矿产地4处、中型矿产地5处,是河北省有色金属的主要集聚区。高侵位的超浅成闪长玢岩、流纹斑岩等小岩株控制了斑岩型铜钼矿,中深成中酸性侵入岩与矽卡岩型、热液型铁铜铅锌金等多金属成矿关系密切,断裂构造、接触带构造是主要的控矿构造,赋矿围岩对成矿有一定的控制作用,钙矽卡岩与铜矿、镁矽卡岩与铁铅锌矿多金属关系密切。同时,本文对斑岩型、矽卡岩型、热液型-矽卡岩叠加型、热液型等典型矿床特征进行了综述,并指出了今后涞源杂岩体的找矿勘查方向。 相似文献
7.
Avriel Venis L. Cirineo Akira Imai Ryohei Takahashi Redempta P. Baluda Noel C. Oliveros Victor B. Maglambayan Roy Ronald C. Luis Maria Lourdes M. Faustino Jacky Almadin 《Resource Geology》2021,71(1):1-40
The Southwest prospect is located at the southwestern periphery of the Sto. Tomas II porphyry copper–gold deposit in the Baguio District, northwestern Luzon, Philippines. The Southwest prospect hosts a copper‐gold mineralization related to a complex of porphyry intrusions, breccia facies, and overlapping porphyry‐type veinlets emplaced within the basement Pugo metavolcanics rocks and conglomerates of the Zigzag Formation. The occurrences of porphyry‐type veinlets and potassic alteration hosted in the complex are thought to be indications of the presence of blind porphyry deposits within the Sto. Tomas II vicinity. The complex is composed of at least four broadly mineralogically similar dioritic intrusive rocks that vary in texture and alteration type and intensity. These intrusions were accompanied with at least five breccia facies that were formed by the explosive brecciation, induced by the magmatic–hydrothermal processes and phreatomagmatic activities during the emplacement of the various intrusions. Hydrothermal alteration assemblages consisting of potassic, chlorite–magnetite, propylitic and sericite–chlorite alteration, and contemporaneous veinlet types were developed on the host rocks. Elevated copper and gold grades correspond to (a) chalcopyrite–bornite assemblage in the potassic alteration in the syn‐mineralization early‐mineralization diorite (EMD) and contemporaneous veinlets and (b) chalcopyrite‐rich mineralization associated with the chalcopyrite–magnetite–chlorite–actinolite±sericite veinlets contemporaneous with the chlorite–magnetite alteration. Erratic remarkable concentrations of gold were also present in the late‐mineralization Late Diorite (LD). High XMg of calcic amphiboles (>0.60) in the intrusive rocks indicate that the magmas have been oxidizing since the early stages of crystallization, while a gap in the composition of Al between the rim and the cores of the calcic amphiboles in the EMD and LD indicate decompression at some point during the crystallization of these intrusive rocks. Fluid inclusion microthermometry suggests the trapping of immiscible fluids that formed the potassic alteration, associated ore mineralization, and sheeted quartz veinlets. The corresponding formation conditions of the shallower and deeper quartz veinlets were estimated at pressures of 50 and 30 MPa and temperatures of 554 and 436°C at depths of 1.9 and 1.1 km. Temperature data from the chlorite indicate that the chalcopyrite‐rich mineralization associated with the chlorite–magnetite alteration was formed at a much lower temperature (ca. 290°C) than the potassic alteration. Evidence from the vein offsetting matrix suggests multiple intrusions within the EMD, despite the K‐Ar ages of the potassic alteration in EMD and hornblende in the LD of about the same age at 3.5 ± 0.3 Ma. The K‐Ar age of the potassic alteration was likely to be thermally reset as a result of the overprinting hydrothermal alteration. The constrained K‐Ar ages also indicate earlier formed intrusive rocks in the Southwest prospect, possibly coeval to the earliest “dark diorite” intrusion in the Sto. Tomas II deposit. In addition, the range of δ34S of sulfide minerals from +1.8‰ to +5.1‰ in the Southwest prospect closely overlaps with the rest of the porphyry copper and epithermal deposits in the Sto. Tomas II deposit and its vicinity. This indicates that the sulfides may have formed from a homogeneous source of the porphyry copper deposits and epithermal deposits in the Sto. Tomas II orebody and its vicinity. The evidence presented in this work proves that the porphyry copper‐type veinlets and the adjacent potassic alteration in the Southwest prospect are formed earlier and at a shallower level in contrast with the other porphyry deposits in the Baguio District. 相似文献
8.
“煌斑岩”与金矿的实际观察与理论评述 总被引:17,自引:1,他引:16
新的分析资料和研究表明,Rock等人提出的煌斑岩中温热液金矿成因模式在理论上和实际上都存在明显的问题,根据金和铂族元素,铜等元素的地球化学相关性,可以鉴别出绝大多数金异常高的煌斑岩类岩石受到次生蚀变和金富集作用。一些钾玄岩类岩石与中温热液金矿时空上的密切共生,是由于两者形成的构造环境相同,扩大“煌斑岩”这个术语的运用及其所包含的岩石类型,容易造成岩石学分类的混乱,并给岩石学和经济地质学研究带来困扰 相似文献
9.
10.
新疆西南天山金矿床主要类型、特征及成矿作用 总被引:7,自引:1,他引:6
文章在总结前人研究成果的基础上,综合论述了西南天山金矿的成矿地质背景、金矿床的时空分布和基本特征。根据矿床地质特征和控矿因素,将西南天山的金矿划分为与剪切带有关的金矿床、与侵入岩有关的金矿床(包括斑岩型)、石英-重晶石脉型金矿床、与火山岩有关的金矿床和矽卡岩型金矿床5类,其中与剪切带有关的金矿床是最重要的矿床类型。探讨了西南天山金矿的成矿时代、成矿物质和成矿流体来源,以及成矿地球动力学机制。提出与剪切带有关的金矿床成矿物质主要来源于岩浆和海相碳酸盐岩,成矿流体主要来源于岩浆水或主要来自大气降水,混合少量岩浆水。石英-重晶石脉型金矿床成矿物质来自容矿地层,成矿流体主要来源于沉积建造水。与剪切带有关的金矿、与侵入岩有关的金矿、石英重晶石脉型金矿和矽卡岩型金矿成矿时代主要集中在二叠纪—三叠纪,形成于后碰撞构造演化阶段。斑岩型和浅成低温热液型金矿床形成于岛弧挤压环境。 相似文献
11.
黑龙江多宝山矿田争光金矿床类型、U-Pb年代学及古火山机构 总被引:5,自引:3,他引:2
争光金矿床(伴生锌)位于我国东北地区黑龙江省多宝山Cu-Au-Mo成矿带南东端,构造上处于古亚洲成矿构造域和滨太平洋成矿构造域的叠加部位。该金矿距北西向的多宝山铜金矿和铜山铜矿分别约为10km和5km,因此,深入研究其成矿时代、成因类型归属,理清与多宝山铜金矿-铜山铜矿的关系具有重要科学价值。争光金矿赋矿围岩为奥陶系多宝山组安山质火山岩地层,发育爆发相、溢流相、火山碎屑流相、火山沉积相等,且爆发相和喷溢相交替出现,具有喷发时期熔岩溢流与火山碎屑物的喷发交替进行或具多旋回火山活动的特征;根据火山集块岩、火山角砾岩、火山碎屑岩的空间展布及岩相变化特征,推测矿区内发育有古火山机构。受后期北西向构造影响,火山岩地层具北西向弱定向变形特征。含金脉系呈脉状、网脉状沿北西向、北东向及南北向构造产出;矿石矿物以黄铁矿、闪锌矿、黄铜矿、方铅矿为主,金以裂隙金、粒间金和包裹金的形式赋存于上述硫化物中,部分赋存在石英中。综合脉系特征、矿物组合、蚀变类型、闪锌矿Fe含量等,本文明确提出该矿床为中硫型浅成低温热液型金矿。对矿区内发育的成矿后闪长玢岩、花岗闪长斑岩及长石斑岩等脉岩的锆石U-Pb测年结果初步厘定争光金矿金成矿作用早于454Ma。综合判断争光金矿与多宝山含金斑岩铜矿、铜山铜矿同形成于480~454Ma受古亚洲洋俯冲作用控制的岛弧背景,构成完整的斑岩Cu-Au与中硫化型浅成低温热液Au成矿系统。 相似文献
12.
黑龙江多宝山地区铜金成矿作用及成矿规律 总被引:5,自引:3,他引:2
黑龙江省多宝山地区发育多期以铜金为主的成矿作用。加里东中期形成了斑岩型铜钼(金)矿床,燕山早期主要形成了矽卡岩型铜铁(金)矿床,燕山晚期形成了浅成热液型金矿床。不同时期矿床的空间分布受古生代海相火山岩为主的地层的控制,同时,受到NE向和NW向2组断裂交叉形成的环(菱)形构造的控制。各期岩浆作用最晚阶段形成的硅铝质含量较高且成矿元素明显富集的小型侵入体与成矿关系最为密切。多宝山地区是不同时代构造-岩浆作用的中心地带,富含铜、金等成矿组分的中奥陶统多宝山组海相火山岩地层是不同时代矿床的统一矿质来源,导致不同时代的成矿作用叠加发生、不同时代矿产种类具有一致性以及矿床集中分布等特点。 相似文献
13.
内蒙古达茂旗北部岩浆活动与铜、金成矿作用 总被引:2,自引:0,他引:2
内蒙古达茂旗北部岩浆岩分布广泛,以加里东期和华力西晚期为主。加里东期侵入岩以闪长岩、石英闪长岩及斜长花岗岩为主;华力西晚期侵入岩以闪长岩、石英闪长岩、黑云母花岗岩、二长花岗岩及钾长花岗岩为主。经研究发现,铜矿化多与闪长岩、石英闪长岩及花岗闪长岩有关;金矿化多与石英闪长岩、斜长花岗岩及黑云母花岗岩有关;铜、金矿床(点)均产于岩体内或其外接触带的火山岩中,暗示铜、金矿(点)的形成与岩浆活动密切相关。进一步研究发现本区铜、金矿化主要受华力西晚期岩浆活动控制。通过对研究区成矿地质背景的讨论及与斑岩型铜、金矿床地质特征的对比,指出本区具备寻找斑岩型铜、金矿床的潜力。 相似文献
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15.
智利科皮亚波GV地区侵入岩地球化学及年代学研究 总被引:3,自引:2,他引:1
智利北中部科皮亚波GV地区位于中生代铁氧化物铜金(IOCG)矿床与斑岩铜矿过渡带。侵入岩体主要为辉长闪长岩、闪长岩、闪长斑岩、黑云母花岗岩、斑状花岗岩和二长岩。岩石地球化学特征说明该侵入岩体属于钙碱性、I型或磁铁矿系列,来源于深部上地幔。推测这些岩浆岩岩石组合形成于洋壳俯冲带,局部扩张与挤压转换导致弧后盆地萎缩封闭并快速抬升。岩浆侵入具有多期次活动,形成了多期次热液活动中心,并发育面型与脉带型蚀变矿化分带,地表具有寻找大型IOCG矿床前景。地表泥化-绿泥石-多孔状硅化网脉和含金银多金属铁锰碳酸盐化网脉发育,含金银多金属网脉状-带状和面型蚀变区揭示地表有浅成低温热液型金银多金属矿床;深部具有寻找隐伏斑岩型铜金矿床前景。今后需在该区加强蚀变矿化分带规律研究,进行深部找矿预测。 相似文献
16.
The Miduk porphyry copper deposit is located in Kerman province, 85 km northwest of the Sar Cheshmeh porphyry copper deposit, Iran. The deposit is hosted by Eocene volcanic rocks of andesitic–basaltic composition. The porphyry‐type mineralization is associated with two Miocene calc‐alkaline intrusive phases (P1 and P2, respectively). Five hypogene alteration zones are distinguished at the Miduk deposit, including magnetite‐rich potassic, potassic, potassic–phyllic, phyllic and propylitic. Mineralization occurs as stockwork, dissemination and nine generations (magnetite, quartz–magnetite, barren quartz, quartz‐magnetite‐chalcopyrite‐anhydrite, chalcopyrite–anhydrite, quartz‐chalcopyrite‐anhydrite‐pyrite, quartz‐molybdenite‐anhydrite ± chalcopyrite ± magnetite, pyrite, and quartz‐pyrite‐anhydrite ± sericite) of veinlets and veins. Early stages of mineralization consist of magnetite rich veins in the deepest part of the deposit and the main stage of mineralization contains chalcopyrite, magnetite and anhydrite in the potassic zone. The high intensity of mineralization is associated with P2 porphyry (Miduk porphyry). Based on petrography, mineralogy, alteration halos and geochemistry, the Miduk porphyry copper deposit is similar to those of continental arc setting porphyry copper deposits. The Re‐Os molybdenite dates provide the timing of sulfide mineralization at 12.23 ± 0.07 Ma, coincident with U/Pb zircon ages of the P2 porphyry. This evidence indicates a direct genetic relationship between the Miduk porphyry stock and molybdenite mineralization. The Re‐Os age of the Miduk deposit marks the main stage of magmatism and porphyry copper formation in the Central Iranian volcano‐plutonic belt. 相似文献
17.
Guangming Li Kezhang Qin Kuishou Ding Tiebing Liu Jinxiang Li Shaohuai Wang Shanyuan Jiang Xingchun Zhang 《Resource Geology》2006,56(3):315-336
Abstract. Medium‐ and large‐scaled skarn Cu‐Au±Mo deposits, e.g. Kelu, Liebu, Chongmuda and Chenba among others, are distributed in Shannan area of the Gangdese Cu‐Au metallogenic belt. Intrusions‐related skarn copper mineralization belongs to high K and calc‐alkaline rock series, located in late collision volcano‐magmatic arc and formed between 20 to 30 Ma. Copper mineralization occurs at exocontact zone of the lower Cretaceous Bima Group carbonate and other calcareous‐bearing sedimentary rocks with intrusions. At present, three main mineralization types are identified, including skarn type, hydrothermal vein type and porphyry type. Mineralizing associations are Cu‐Mo, Cu‐Au and Cu. In ore districts, those mineralization types form an entire porphyry‐skarn Cu‐Au±Mo ore‐forming system. Alterations of the exocontact are mainly skarnization and hornfelsization, while the alterations of the endocontact are mainly sericitization, silicification, and chloritization of intrusion. In the study area, the endoskarn is not well developed. Copper mineralization occurs mainly in the exocontact in the form of stratoid, lenticular and pockety ore body. Veined mineralization can be seen in marblized and hornfelsed siltstone, being away from the contact zone. In the endocontact, the mineralization is mainly veinlet‐like and disseminated. In Shannan area, skarnization can be divided into early skarnization stage and late hydrous silicate stage. The early skarnization stage is featured by mainly andradite and grossular skarn, containing minor diopside, hedenbergite, magnetite and some copper minerals; and the late hydrous silicate stage is of replacement of garnet skarn by chlorite, epidote, quartz and calcite together with sulfides precipitation. The latter is the main stage of copper mineralization. Bornite is the dominant ore mineral associated with minor chalcopyrite and pyrite; and gold as well as silver are distributed in bornite and wittichenite. Results of microthermometry study of fluid inclusions in quartz of late hydrous silicate stage from different deposits show intermediate temperature and low to intermediate‐salinity features for all samples. The dominant inclusion type is composed of two phases, being about 4 to 15 % vapor and 85 to 96 % liquid at room temperature. Homogenization temperatures range from 232 to 335d?C. Salinities have been recorded between 4.2 and 15.5 wt% NaCl equivalent. Boiling fluid inclusions are not identified and it indicates that metal deposition mainly resulted from water‐rock reactions. The results of sulfur isotope analysis indicate that the sulfur isotope values (δ34S 1.29–1.68 %o) of the samples collected from skarns are similar with that from the endocontact (δ34S 1–1.75 %o). Both of them have very close sulfur isotope values (near δ34S 0 %o), which indicate the sulfur of both the skarn type and the porphyry type mineralization was from deep sources. Ages determined on biotite from ore‐bearing intermediate porphyries by Ar‐Ar methods range from 23.77±0.29 to 29.88±0.56 Ma, showing that skarn copper mineralization in the study area evidently is older than the porphyry Cu(‐Mo) mineralization in Gangdese, and likely representing another metallogenic event. The Cu‐Au skarn deposits in the Kelu‐Liebu‐Chongmuda belt are interpreted as the shallow level, skarn‐related deposits in a porphyry‐skarn mineralization. Appearance of porphyry copper mineralization in some skarn deposits implies that skarn copper mineralization of the study area resemble to those in northern sub‐metallogenic belt, having uniform porphyry‐skarn ore‐forming system. Therefore, it is presumed there should be potential to find deep level porphyry‐type Cu‐Au mineralization targets. 相似文献
18.
FU Zhongyang XU Xiaochun HE Jun FAN Ziliang XIE Qiaoqin DU Jianguo CHEN Fang 《《地质学报》英文版》2019,93(1):88-110
The Tongling ore district is one of the most economically important ore areas in the Middle–Lower Yangtze River Metallogenic Belt, eastern China. It contains hundreds of polymetallic copper–gold deposits and occurrences. Those deposits are mainly clustered(from west to east) within the Tongguanshan, Shizishan, Xinqiao, Fenghuangshan, and Shatanjiao orefields. Until recently, the majority of these deposits were thought to be skarn-or porphyry–skarn-type deposits; however there have been recent discoveries of numerous vein-type Au, Ag, and Pb-Zn deposits that do not fall into either of these categories. This indicates that there is some uncertainty over this classification. Here, we present the results of several systematic geological studies of representative deposits in the Tongling ore district. From investigation of the ore-controlling structures, lithology of the host rock, mineral assemblages, and the characteristics of the mineralization and alteration within these deposits, three genetic types of deposits(skarn-, porphyry-, and vein-type deposits) have been identified. The spatial and temporal relationships between the orebodies and Yanshanian intrusions combined with the sources of the ore-forming fluids and metals, as well as the geodynamic setting of this ore district, indicate that all three deposit types are genetically related each other and constitute a magmatic–hydrothermal system. This study outlines a model that relates the polymetallic copper–gold porphyry-, skarn-, and vein-type deposits within the Tongling ore district. This model provides a theoretical basis to guide exploration for deep-seated and concealed porphyry-type Cu(–Mo, –Au) deposits as well as shallow vein-type Au, Ag, and Pb–Zn deposits in this area and elsewhere. 相似文献
19.
吉南地区斑岩—热液脉型金多金属矿床成矿模式 总被引:6,自引:1,他引:6
通过对四个典型矿床(二密,西岔-金厂沟,正岔,荒沟山)的地质,地球化学等综合信息对比,发现它们在形成时间-空间-成因上既相互联系,又相互区别,共同构成斑岩-热液成矿系统。该系统包括“三大”成矿体系,即:幔源岩浆体系,深穿透断裂构造体系,含矿气液流体体系。其中,二密铜矿产于中生代塌陷式火山机构内的斑岩体内外接触带,为斑岩型矿床,西岔-金厂沟金矿产于深穿透性构造控制的斑岩体边部,属斑岩-热液脉型金矿,正岔铅锌矿产于中生代斑岩体与早元古宙地层的外接触带,属热液矽卡岩型多金属矿,而荒沟山金矿则受控于北东向鸭绿江断裂体系与中生代斑岩共存的构造带中,属热液脉型金矿,在区域成矿上构成斑岩型,斑岩-浅成热液脉型和浅成热液脉型多金属成矿模式。 相似文献
20.
加强埃达克岩研究,开创中国Cu、Au等找矿工作的新局面 总被引:36,自引:27,他引:36
埃达克岩与浅成低温热液Au-Ag及斑岩型Cu、Cu-Au矿床有密切的关系,环太平洋地区多数大型和世界级的斑岩铜矿均与埃达克岩有关。埃达克岩有利于成矿的关键因素与埃达克岩形成时角闪石转变为石榴石的脱水作用有关,而水能萃取出在地幔和基性岩中富集的金属元素。因此,埃达克岩集中分布的地区有利于铜、金等矿化的聚集。中国铜矿资源严重不足,解决这个紧迫问题的出路在寻找斑岩铜矿。全球铜矿主要分布在环太平洋地区,中国与环太平洋类似的地区不是中国东部,而是古亚洲洋造山带、东北吉黑东部和西藏冈底斯。从国家目标出发,建议实施铜、金等找矿工作的战略转移,把浅成低温热液和斑岩型Au、Cu、Ag等矿床找矿的重点放在古生代的古亚洲洋造山带、晚古生代-中生代的吉黑东部和中-新生代的冈底斯地区。古亚洲洋造山带首选阿尔泰西南缘-东准噶尔、东天山和内蒙古中部3个地区。埃达克岩可以作为找矿标志来使用,因此,在找矿思路上也应当有一个变化,即:先找埃达克岩,再找矿。 相似文献