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新疆包古图地区金矿床矿化类型和与围岩关系研究 总被引:1,自引:1,他引:0
西准噶尔包古图地区是新疆北部重要的金铜产地,已发现中型金矿床1处,金矿点20余处,大型斑岩铜(金、钼)矿床1处。金矿床按矿化类型可分为石英脉-蚀变岩型、蚀变岩型、辉锑矿-石英脉型、富硫化物型以及产于斑岩型铜矿中的伴生金。石英脉-蚀变岩型是最主要的矿石类型,构成包古图地区最主要的经济矿体。蚀变岩型是包古图地区近年来发现的新矿化类型,矿体由就位于NW向断裂中的蚀变凝灰质细砂岩和蚀变凝灰岩组成。辉锑矿-石英脉型矿石中含自然砷、自然锑、Paakkonenite、方锑金矿和硫锑金银矿等罕见矿物,这些矿物都与金矿化直接相关。富硫化物型矿石中,自然铋和辉铋矿与金矿化紧密相关。这些金矿化在空间上与中酸性岩体和岩体附近的岩脉关系紧密,成因上金矿化与岩体密切相关,而与岩脉关系不大。成矿元素在岩体中含量最高,其次为岩体附近的火山碎屑沉积岩,同一区域内岩脉的成矿元素含量最低,离岩体越远,成矿元素含量越低。Au与As、Sb、Bi之间具有不同程度的正相关性,As、Sb、Bi异常是该区找金的重要化探标志。中酸性岩体是最重要的找矿标志,岩体附近的断裂系统是金矿最有利的就位空间。 相似文献
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海南乐东地区抱伦金矿矿石特征及其成因矿物学意义 总被引:3,自引:1,他引:3
抱伦金矿为大型中温热液石英脉型矿床,矿石以含金石英脉型为主,次为含金蚀变岩型。主要金属矿物为黄铁矿和磁黄铁矿,次要金属矿物20多种;脉石矿物有石英、方解石、绢云母和绿泥石等。金矿物主要为自然金,次为金、铋和银的固溶体,含Au8.20%~99.30%,Ag≤52.71%,Bi≤91.20%。铋、碲矿物有自然金属、硫化物、铋化物、硫盐和碲化物等类型。金矿石含Bi0.18×10-6~16×10-6,平均4.11×10-6,富矿石中达419×10-6。该矿床属较特殊的富铋类型,与琼西戈枕剪切带的金矿有相似之处,在琼西-粤东金矿带大陆一侧存在类似矿床,它们在成因上均应与岩浆和韧—脆性断裂活动有关。 相似文献
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黑刺沟金矿床以富As和Sb的微细浸染蚀变岩型金矿化和部分石英脉型锑-金矿化为特征,典型矿物组合为黄铁矿-毒砂(辉锑矿)-石英;贾公台金矿床以少硫化物石英脉型金矿化和蚀变岩型金矿化为特征,As和Sb的质量分数不高,典型矿物组合为黄铁矿-自然金(方铅矿)-石英-钾长石;鸡叫沟金矿床以蚀变岩型金矿化为主,次之为石英脉型金矿化,典型矿物组合为黄铁矿-黄铜矿-石英.3个金矿床的成因均与岩浆岩有密切联系,但各矿区的岩浆岩在岩石学、岩石化学、微量元素及稀土元素特征具有差异,表明其成因不尽相同.这可能是造成3个金矿床地质特征差异的主要原因. 相似文献
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山东招远界河金矿床矿化垂向变化特征研究 总被引:1,自引:0,他引:1
界河金矿床作为胶东地区典型的蚀变岩型金矿床,目前通过坑道工程揭露已经探明其矿体垂深达800m左右。从矿区浅部向深部,其矿化呈现出一定的规律性变化:矿化类型呈现出浅部以蚀变岩型矿化为主、深部以裂隙脉型矿化为主的分带规律;矿体规模逐渐变小,矿化强度逐渐减弱,矿体产状也逐渐变缓。此外,矿物组分、矿石组构、围岩蚀变以及微量元素特征等从浅部向深部也均呈现出规律性的变化。结合区域内石英脉型和蚀变岩型金矿化的垂向分带特征,初步建立了胶东地区金矿化在垂向上的"三段式"分带模式:浅部以石英脉型矿化为主,中部以蚀变岩型矿化为主,深部则以裂隙脉型矿化为主。 相似文献
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《吉林大学学报(地球科学版)》2015,(Z1)
<正>抱伦金矿床位于中国海南省西南部乐东县境内,是一个大型中温热液金矿床。该矿床以含金石英脉为主,蚀变岩型金矿脉次之。金矿脉呈NNW方向分布在志留系浅变质碎屑岩破碎带之中。68个矿石样品的多元素分析结果表明抱伦金矿床具有富Bi高Au的特点,属于Au-Bi-(低Te)-S流体体系。抱伦金矿床的金属矿物有自然金、黑铋金矿、硫铋金矿、自然铋、辉铋矿、辉铅铋矿、斜方辉铅铋矿、硫碲铅矿、硫铋碲矿,伴生矿物以磁黄铁矿、毒砂、黄铜矿为主,还有Fe-闪锌矿、方铅矿、黄铁矿等,脉石矿物主要 相似文献
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乌拉山金矿带金矿化分为石英脉型(Ⅰ),石英脉-蚀变岩型(Ⅱ),蚀变岩型(Ⅲ)三大类型,其分带性与大桦背花岗岩具有密切空间关系. 相似文献
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黔东南金成矿区位于江南造山带金成矿省的西南端,成矿条件优越。坑头金矿床是黔东南金成矿区的一个中型矿床,在其深部找矿中,发现除石英脉型矿体外,还存在蚀变岩型矿体。然而,这种蚀变岩型矿体的构造形态、蚀变类型、与石英脉型矿体之间关系和金的赋存状态尚不清楚。本研究与当前的勘查工作紧密结合,围绕石英脉型矿体和新发现的蚀变岩型矿体为研究切入点,借助微区分析技术(扫描电镜和电子探针)进行系统的“流体- 蚀变- 成矿”研究。蚀变矿物金红石矿物化学显示为热液成因,具有典型造山型金矿床的金红石标型特征。围岩的沉积- 成岩过程(包括低级变质作用过程),主要形成了草莓状黄铁矿和含铁碳酸盐岩,为后期含金硫化物(黄铁矿和毒砂)的形成提供物质基础(如Fe)。金的成矿富集过程主要经历了绢云母+毒砂+黄铁矿+石英(Ser+Apy+Py+Qtz)阶段、黄铁矿+毒砂+石英(Py+Apy+Qtz)阶段和自然金+石英(Au0+Qtz)阶段。在Ser+Apy+Py+Qtz阶段,主要表现为含矿流体与围岩的初级交代,形成大量浸染状黄铁矿+毒砂的硫化带;Py+Apy+Qtz阶段主要为流体沿着剪切带再交代,形成蚀变岩型矿体;Au0+Qtz阶段主要表现为含金石英大脉的形成。金的赋存状态研究显示,蚀变岩矿体中Au以他形显微- 次显微自然金赋存在蚀变岩硫化物裂隙中,或以化学结合态方式赋存在黄铁矿和毒砂中(后者占主导)。在晚期Au0+Qtz阶段,自然金呈自形、粗粒(~0. 5 mm)赋存在石英脉中。综合研究认为,多期构造(流体)交代导致的溶解- 再沉淀可能是坑头金富集成矿主要原因之一。 相似文献
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乌拉山金矿带金矿化分为石英脉型(I),石英脉-蚀变岩型(Ⅱ),蚀变岩型(Ⅲ)三大类型,其分带性与大桦背花岗岩具有密切空间关系。 相似文献
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包古图地区是新疆西准噶尔重要的金矿集区之一,根据矿床地质和矿化类型,可将区内金矿化分为2类:以阔个沙也金矿床(包古图金矿Ⅰ~Ⅳ号点)为代表的石英脉型金矿化,产于部分中酸性斑岩体周边地层中,赋矿围岩为下石炭统包古图组凝灰质砂岩、凝灰岩等,围岩蚀变以硅化、绢云母化、黄铁矿化、毒砂化和碳酸盐化为主,矿体为黄铁矿_石英脉型、辉锑矿_石英脉型和自然砷_石英脉型或石英网脉型/蚀变岩型,受NE向断裂控制,与矿区密集分布的中酸性脉岩伴生,主要矿物组合为黄铁矿_毒砂_自然砷_辉锑矿_自然金_银金矿,矿化元素组合为Au_As_Sb,是中酸性斑岩系统热液演化晚期的产物;另一类金矿化产于中酸性斑岩与下石炭统火山_沉积地层的接触带中,以包古图金矿Ⅺ号点为代表,矿体为石英_硫化物脉型,矿物组合为黄铁矿_毒砂_自然铋_辉铋矿_自然金_黄铜矿,是斑岩系统热液演化较早期的产物。结合已有研究资料,可将区内金矿床的成矿模型总结如下:斑岩岩浆系统演化晚期分异出含Au_Cu_Bi_As_Sb的岩浆热液,在岩体内部形成斑岩型铜矿化,岩体与围岩接触带形成高温石英_硫化物脉型Au_As_Bi矿化,部分含矿热液随中酸性岩脉向外围迁移,并逐渐与大气水混合,最终在NE向断裂中形成石英脉型Au_As_Sb矿化。基于此成矿模型,认为包古图地区金矿找矿工作的重点应该放在中酸性斑岩体与围岩接触带和斑岩体外围NE向断裂(中酸性脉岩)密集分布区,尤其是As_Sb、As_Bi化探异常叠加区。矿床地质和地球化学特征对比显示,包古图金矿成矿系统与侵入岩有关的金矿成矿系统非常相似。 相似文献
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The Cihai iron-cobalt deposit is located in the southern part of the eastern Tianshan ironpolymetallic metallogenic belt. Anomalous native gold and bismuth have been newly identified in Cinan mining section of the Cihai deposit. Ore formation in the deposit can be divided into three stages based on geological and petrographical observations:(I) skarn, with the main mineral assemblage being garnet-pyroxene-magnetite;(II) retrograde alteration, forming the main iron ores and including massive magnetite, native gold, native bismuth, and cobalt-bearing minerals, with the main mineral assemblage being ilvaite-magnetite-native gold-native bismuth; and(III) quartz-calcitesulfide assemblage that contains quartz, calcite, pyrrhotite, cobaltite, and safflorite. Native gold mainly coexists with native bismuth, and they are paragenetically related. The temperature of initial skarn formation was higher than 340℃, and then subsequently decreased to ~312℃ and ~266℃. The temperature of the hydrothermal fluid during the iron ore depositional event was higher than the melting point of native bismuth(271℃), and native bismuth melt scavenged gold in the hydrothermal fluid, forming a Bi-Au melt. As the temperature decreased, the Bi-Au melt was decomposed into native gold and native bismuth. The native gold and native bismuth identified during this study can provide a scientific basis for prospecting and exploration for both gold- and bismuth-bearing deposits in the Cihai mining area. The gold mineralization in Cihai is a part of the Early Permian Cu-Ni-Au-Fe polymetallic ore-forming event, and its discovery has implications for the resource potential of other iron skarn deposits in the eastern Tianshan. 相似文献
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辽宁五龙金矿铋矿物与金矿化关系研究 总被引:6,自引:0,他引:6
辽宁五龙金矿的铋矿物为辉铋矿,自然铋和辉铅铋矿,它们与金矿化关系非常密切,在高温条件下,Bi与Au呈固溶体形式或某种化合物形式存在,随着温度的下降,Bi与Au分离构成两种独立矿物,二者紧密共生,在含金石英矿体中,铋矿物的多少直接影响矿石品位,铋矿物是重要的金矿化指示矿物。 相似文献
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The deposit under study is a hydrothermal filling-metasomatic vein type lead-zinc-silver deposit, in whichgold and silver can be recovered as by-products. These metals mainly occur as microgranular native gold,electrum, stephanite, acanthite, pyraragyrite, freibergite, and native silver. Gold minerals tend to be associatedwith galenobismutite, native bismuth and unnamed Bi_2Te. They are either enclosed in pyrite, marmatite,iron-bearing sphalerite and galens or fill the microfissures of these minerals. Silver minerals usually occur incleavages or fissures of galena, marmatite and pyrite, but are not associated with gold and bismuth minerals.Gold and silver mineralizations occurred later than lead and zinc, while the silver mineralization was precededby that of gold. 相似文献
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The Mokrsko-West deposit is unique among European Variscan gold deposits from the points of view of both the structure (an approx. 200 m thick complex of sheeted, several mm-thick, densely spaced quartz veins) and the economic viability (gold reserves of about 100 t). The deposit is hosted mainly by tonalite of the calc-alkaline Sázava tonalite suite (ca. 354 Ma) of the Central Bohemian Plutonic Complex. Mineralization is characterized by quartz-dominated gangue, no visible hydrothermal alteration, low sulfide content, high fineness native gold accompanied by maldonite, aurostibite, native bismuth and numerous Bi–Te–(S) phases. Five mineralogical stages are described in great detail. Arsenopyrite and chlorite thermometers, mineral phase stabilities and published isotope and fluid inclusion data are used to reconstruct the temperature and compositional evolution of the system. The role of liquid bismuth in the sequestration of gold is also discussed.The deposit shares the features of both orogenic gold (ORG) and intrusion-related gold (IRG) deposits. The IRG model is advocated by close spatial association between the ore zone and the tonalite host-intrusion, by the absence/scarcity of hydrothermal alteration, by the Au–Bi–Te–As elemental association and by marked thermal gradients from the early to late mineralization stages. The ORG model is advocated by an approx. 15–10 Ma gap between the intrusion of the tonalite-host and the ore formation, by isotope and geochemical evidence for a key role of metamorphic fluids in the mobilization and transfer of many elements/species (inclusive S and Au). The apparently ambiguous classification of the deposit can most probably be attributed to deposit formation at a depth of ≥ 9 km and to setting of the deposit at/inside a large-scale plutonic complex with multiple and prolonged tectonic and intrusive activity. 相似文献
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Frederico Sousa Guimares Alexandre Raphael Cabral Bernd Lehmann Francisco Javier Rios Moiss Augusto Bacellar
vila Marco Paulo de Castro Glucia Nascimento Queiroga 《地学学报》2019,31(4):358-365
Native bismuth in the form of metallic melt has been considered instrumental to the formation of some metallic ore deposits via a mechanism dubbed the “Liquid Bismuth Collector Model.” Here, we provide petrographical documentation of trail‐forming, μm‐sized blebs of native bismuth in cassiterite–quartz veins from the Santa Bárbara greisen Sn deposit in the Rondônia tin province of northern Brazil. These inclusions suggest the trapping of a Bi melt that took place during vein formation, in a mechanism similar to the entrapment of fluid inclusions. 相似文献
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A. Cepedal M. Fuertes-Fuente A. Martín-Izard S. González-Nistal L. Rodríguez-Pevida 《Mineralogy and Petrology》2006,87(3-4):277-304
Summary Gold ores in skarns from the Río Narcea Gold Belt are associated with Bi–Te(–Se)-bearing minerals. These mineral assemblages
have been used to compare two different skarns from this belt, a Cu–Au skarn (calcic and magnesian) from the El Valle deposit,
and a Au-reduced calcic skarn from the Ortosa deposit. In the former, gold mineralization occurs associated with Cu–(Fe)-sulfides
(chalcopyrite, bornite, chalcocite-digenite), commonly in the presence of magnetite. Gold occurs mainly as native gold and
electrum. Au-tellurides (petzite, sylvanite, calaverite) are locally present; other tellurides are hessite, clausthalite and
coloradoite. The Bi-bearing minerals related to gold are Bi-sulfosalts (wittichenite, emplectite, aikinite, bismuthinite),
native bismuth, and Bi-tellurides and selenides (tetradymite, kawazulite, tsumoite). The speciation of Bi-tellurides with
Bi/Te(Se + S) ≤ 1, the presence of magnetite and the abundance of precious metal tellurides and clausthalite indicate fO2 conditions within the magnetite stability field that locally overlap the magnetite-hematite buffer. In Ortosa deposit, gold
essentially occurs as native gold and maldonite and is commonly related to pyrrhotite and to the replacement of l?llingite
by arsenopyrite, indicating lower fO2 conditions for gold mineralization than those for El Valle deposit. This fact is confirmed by the speciation of Bi-tellurides
and selenides (hedleyite, joséite-B, joséite-A, ikunolite-laitakarite) with Bi/Te(+ Se + S) ≥ 1. 相似文献
