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1.
Wenchao Su Hongtao Zhang Ruizhong Hu Xi Ge Bin Xia Yanyan Chen Chen Zhu 《Mineralium Deposita》2012,47(6):653-662
Arsenian pyrite in the Shuiyindong Carlin-type gold deposit in Guizhou, China, is the major host for gold with 300 to 4,000 ppm Au and 0.65 to 14.1 wt.% As. Electron miroprobe data show a negative correlation of As and S in arsenian pyrite, which is consistent with the substitution of As for S in the pyrite structure. The relatively homogeneous distribution of gold in arsenian pyrite and a positive correlation of As and Au, with Au/As ratios below the solubility limit of gold in arsenian pyrite, suggest that invisible gold is likely present as Au1+ in a structurally bound Au complex in arsenian pyrite. Geochemical modeling using the laser ablation-inductively coupled plasma mass spectrometry (LA-ICP-MS) analysis of fluid inclusions for the major ore forming stage shows that the dominant Au species were Au(HS)2− (77%) and AuHS(aq)0 (23%). Gold-hydroxyl and Gold-chloride complexes were negligible. The ore fluid was undersaturated with respect to native Au, with a saturation index of −3.8. The predominant As species was H3AsO30 (aq). Pyrite in the Shuiyindong deposit shows chemical zonation with rims richer in As and Au than cores, reflecting the chemical evolution of the ore-bearing fluids. The early ore fluids had relatively high activities of As and Au, to deposit unzoned and zoned arsenian pyrite that host most gold in the deposit. The ore fluids then became depleted in Au and As and formed As-poor pyrite overgrowth rims on gold-bearing arsenian pyrite. Arsenopyrite overgrowth aggregates on arsenian pyrite indicate a late fluid with relatively high activity of As. The lack of evidence of boiling and the low iron content of fluid inclusions in quartz, suggest that iron in arsenian pyrite was most likely derived from dissolution of ferroan minerals in the host rocks, with sulfidation of the dissolved iron by H2S-rich ore fluids being the most important mechanism of gold deposition in the Shuiyindong Carlin-type deposit. 相似文献
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位于右江盆地南部的滇东南底圩金矿床是近年来新发现的一处金矿床,为理清其成因,对不同类型矿石和赋矿围岩进行了主、微量元素及硫化物的硫同位素分析。结果表明,相较于赋矿围岩,矿石中明显富集Au、As、Sb、Hg、Tl、S、K、C元素,应为热液带入;而Si、Mg、Fe、Zr和Th在矿石和围岩中变化不大,Fe主要来源于赋矿围岩。对矿床中的主要金属硫化物黄铁矿和毒砂进行的矿物学和硫同位素分析表明,载金矿物主要为含砷黄铁矿和毒砂,金可能主要以Au+的形式赋存在含砷黄铁矿和毒砂之中;含金硫化物具有较高的硫同位素组成(5.93‰~11.99‰),表明成矿所需的S主要为地壳来源。结合前人对于右江盆地南部相似金矿的研究,认为印支期造山作用使沉积物脱水形成的变质流体交代玄武岩,容矿岩石的硫化物化作用是底圩金矿床形成最重要的成矿作用之一。 相似文献
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The Nature of Ore‐forming Fluids of the Carlin‐type Gold Deposit in Southwest China: A Case from the Zimudang Gold Deposit 
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下载免费PDF全文 The Zimudang gold deposit is a large Carlin‐type gold deposit in the Southwest Guizhou Province, China, with an average Au content of 6.2 g/t. Gold is mainly hosted in the fault zone and surrounding strata of the F1 fault and Permian Longtan Formation, and the ore bodies are strictly controlled by both the faults and strata. Detailed mineralogy and geochemistry studies are conducted to help judge the nature of ore‐forming fluids. The results indicate that the Au is generally rich in the sulfides of both ores and wall rocks in the deposit, and the arsenian pyrite and arsenopyrite are the main gold‐bearing sulfides. Four subtypes of arsenian pyrite are found in the deposit, including the euhedral and subhedral pyrite, framboidal pyrite, pyrite aggregates and pyrite veins. The euhedral and subhedral pyrite, which can take up about 80% of total pyrite grains, is the dominant type. Au distributed unevenly in the euhedral and subhedral pyrite, and the content of the Au in the rim is relatively higher than in the core. Au in the pyrite veins and pyrite aggregates is lower than the euhedral and subhedral pyrite. No Au has been detected in the points of framboidal pyrites in this study. An obvious highly enriched As rim exists in the X‐ray images of euhedral pyrites, implying the ore‐forming fluids may be rich in As. The relationship between Au and As reveals that the Au may host as a solid solution (Au+) and nanoparticles of native gold (Au0) in the sulfides. The high Co/Ni ratio (>1) of sulfides and the enrichment of W in the ores all reflect that the gold‐bearing minerals and ore‐forming process were mainly related to the hydrothermal fluids, but the magmatic and volcanic activities cannot be neglected. The general existence of Au and As in the sulfides of both ores and wall rocks and the REE results suggest that the ore‐forming fluids may mainly be derived from the basin itself. The enrichment of Tl suggests that the ore‐forming fluids may be enriched in Cl. The Ce and Eu show slightly or apparently negative anomalies, which means the ore fluids were probably formed under reducing environment. The Y/Ho ratios of ore samples fluctuate around 28, implying the bicarbonate complexation and fluorine were both involved in the ore‐forming process. Combined with the previous studies and our results, we infer that the ore‐forming fluids enriched Au, As, HS? and halogen (F, Cl) were derived from the mixture of reducing basinal fluids and magmatic or volcanic hydrothermal fluids. 相似文献
4.
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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黔西南泥堡金矿围岩与矿石的对比及其成矿机制研究 总被引:1,自引:0,他引:1
泥堡金矿的矿体主要赋存在构造蚀变体及逆冲断层破碎带中,受地层和断裂的双重控制。本文在岩相学研究的基础上应用X射线粉晶衍射分析(XRD)结合电子探针分析(EMPA)确定和量化了围岩和矿石的蚀变矿物及载金砷黄铁矿,对比了围岩和矿石的特点,并利用主微量元素分析矿化过程中围岩与矿石之间的元素带入带出通量,探讨了泥堡金矿蚀变矿物与成矿的关系及成矿机制问题。分析结果表明,黄铁矿(主要的载金矿物)与石英呈负相关,与伊利石呈正相关;矿石发生了去碳酸盐化作用,矿石中的黄铁矿大多具有环带结构,部分围岩也发生了去碳酸盐化作用,而围岩中的黄铁矿一般不具有环带结构;Au明显加入到构造蚀变体的矿石中,而CaO、MgO、S、Ba、Be等从其围岩中带出;Au、Sc、As和Fe_2O_3明显加入到逆冲断层破碎的矿石中,SiO_2、CaO、Sr、W、Be等则显示从其围岩中带出。综合分析认为,去碳酸盐化和硫化作用是泥堡金矿的主要成矿机制。在矿化前,去碳酸盐化作用为成矿提供了有利的环境;在成矿过程中,矿化通过硫化作用形成了黄铁矿的载金含砷边缘。 相似文献
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Nobutaka Shimada Tomoki Nakamura Yasuo Morinaga Yoshihito Shikama 《Resource Geology》2005,55(2):91-100
Abstract. The presence of invisible gold was confirmed in arsenian pyrite from the Hishikari epithermal gold deposit, Kagoshima, Japan, by means of EPMA and SIMS analyses. The relative concentration of invisible gold may be positively correlated with As contents (0.01 to 10.37 wt%) of fine-grained arsenian pyrite which commonly occurs in the auriferous quartz veins. Although arsenian pyrite occurs widely in any mineralization stage with electrum and other sulfide, sulfosalts, selenide or telluride minerals, arsenian pyrites having higher As contents accompanied by invisible gold occur dominantly in the middle stage of fine-adularia-quartz and in the late stage of coarse-quartz rather than in the early stage of columnar-adularia. 相似文献
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甘肃阳山金矿田载金矿物特征及金赋存状态研究 总被引:12,自引:6,他引:6
采用电子探针分析,详细研究了甘肃阳山类卡林型金矿田原生矿石中不同成矿阶段载金矿物的Au、As、S、Fe等元素含量及其分布规律,确定含砷黄铁矿和毒砂是最重要的载金矿物,发现不同成矿阶段的黄铁矿具有不同的成分特点;沉积成岩期黄铁矿为草莓状、胶状,砷和金含量最低,分别为0.10%和0.08%;热液成矿期早阶段黄铁矿粒度较粗(0.40~1.00mm),是较高温度(270~300℃)下缓慢结晶的产物,其砷和金含量较低,分别为0.27%和0.09%;热液成矿期主阶段(包括M1,M2和M3亚阶段)黄铁矿粒度微细(0.05~0.20mm),是210~270℃条件下快速结晶的产物,砷和金含量最高,M1亚阶段分别为3.45%As和0.11%Au,M2亚阶段分别为3.88%As和0.14%Au.在含砷黄铁矿中,金可能有自然金和离子金两种存在方式.沉积成岩期和热液成矿期早阶段低砷黄铁矿中金主要以纳米级自然金(Au~0)颗粒形式分布,而在热液成矿期主阶段含砷黄铁矿中金主要以Au+的形式存在.当热液中As活度高时,含砷黄铁矿在快速生长条件下,其生长面的空穴和缺陷较多,有利于热液中Au(HS)~0络合物通过吸附反应直接进入含砷黄铁矿生长表面.此外,主阶段流体的硫化和沸腾作用均可导致H_2S的减少,有利于形成砷黄铁矿和Au沉淀富集. 相似文献
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本文依据地球化学热力学方法圈定了东北寨微细浸染型金矿床的成矿条件,探讨了热液中金的溶解迁移形式及成矿过程。研究结果表明,Au(HS)-2和AuH3SiO04为金的主要迁移形式,随着主期硅化的发生,金的有效载体从AuH3SiO04转为Au(HS)-2;而AuCl-2的作用始终微不足道。石英及黄铁矿、辉锑矿等硫化物的沉淀是导致金成矿的主要因素。有机质对金成矿的贡献具有阶段性的意义。 相似文献
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The Mirge-Naqshineh gold district is situated at northwest of Iran with a NW-trending brittleductile shear zone. It is hosted by Precambrian meta-sedimentary and meta-volcanic units traversed by mineralized quartz veins. In terms of cross-cutting relationships and sulfide content three types of quartz veins are identified in the region. Among those, parallel to bedding quartz vein(type Ⅰ) is the main host for gold mineralization. Gold is found in three different forms: 1) submicrometer-size inclusions of gold in arsenian pyrite, 2) as electrum and 3) in the crystal lattice of sulfides(pyrite, galena and chalcopyrite). Six types of pyrite(Py1-Py6) were identified in this ore reserve. Py3 coexists with arsenopyrite and contains the greatest As-Au concentrations. There is a negative correlation between the As and S contents in Py2 and Py3, implying the substitution of sulfur by arsenic. Pyrites and mineralized quartz veins were formed via metamorphic-hydrothermal fluid and reflect the gold-transportation as Au(HS)_2~- under reducing and acidic conditions. The gold precipitation mainly controlled by crystallization of arsenian pyrite during fluid/rock interactions and variation of fO_2. The volcanic host rock has played an important role in gold concentration, as Py3 in this rock contains inclusion of gold particles, but gold is within the lattice of pyrite in phyllite or other units. 相似文献
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The enrichment of gold in arsenian pyrite is usually associated closely with the enrichment of arsenic in the mineral, generally known as As1−-pyrite [Fe(As, S)2]. Direct analyses of the valence state of Au in pyrite are, however, difficult due to generally low (∼ppm level) Au concentrations. By means of X-ray photoelectron spectroscopy (XPS), this study obtained reliable valence states of As in pyrite from the Yang-shan gold deposit, a giant “Carlin-type” Au deposit in the western Qinling orogen, central China. The arsenian pyrite specimens were sputtered with Ar+ beam in the vacuum chamber of an XPS to obtain pristine surfaces and to avoid As oxidation during sample preparation. Analyses before and after sputtering show that the As3+ peak are only present on surface that was once exposed to the air. In contrast, the peak of As−1 was essentially unchanged during continuous sputtering. The results indicated that As− is the predominant state on the pristine surface of arsenian pyrite; the peak of As3+ previously reported for Au-bearing arsenian pyrite was probably due to oxidation when exposed to air during sample preparation. It is unlikely that the coupled substitution of (Au+ + As3+) for 2Fe2+ takes place in the pyrite lattice. The so-called As3+-pyrite proposed by previous studies may occur in some special (oxidizing) geologic settings, but it is not observed in the Yang-shan gold deposit, and is unlikely to be important in typical orogenic or Carlin-type gold deposits, in which arsenian pyrite is a dominant Au carrier. Combining previous studies on Carlin-type Au deposits with our XPS experimental results, we suggest that the most likely state of Au in the Yang-shan Au deposit is lattice-bounded Au with or without nanoparticles (Au0). 相似文献
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南秦岭赋存于沉积岩中的金龙山金矿带主要载金矿物黄铁矿、毒砂研究 总被引:1,自引:0,他引:1
金龙山金矿是产于南秦岭镇安-旬阳晚古生代沉积盆地细碎屑岩-碳酸盐建造中的微细浸染型金矿.主要载金矿物毒砂、黄铁矿,粒度多为10~100 μm,约为次显微状金颗粒直径的1000倍左右.黄铁矿为含砷黄铁矿,并常作为原生沉积成因草莓状、球菌状黄铁矿的增生环带,因而常规方法无法分离出原生沉积成因黄铁矿与热液阶段黄铁矿、毒砂.用于单矿物化学分析、同位素、热电性测定的黄铁矿样品多为热液改造后多阶段黄铁矿的混合样品,毒砂的含金性比黄铁矿更好.成岩期黄铁矿无砷或砷很低,金矿成矿阶段黄铁矿亏硫,毒砂亏砷.金、砷最大可能是含矿热液带入的,成岩期黄铁矿可能提供了部分硫.黄铁矿的热电系数范围较大,空穴导型、电子导型均有,以空穴型为主.矿带内硫化物的硫同位素呈多垛状产出,但主要集中于6‰~17‰之间.铅同位素反映了造山带特征,与汞锑矿石的铅同位素相近,金锑成矿与深大断裂的活动有关. 相似文献
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丘岭金矿床是西秦岭地区重要的卡林型金矿之一, 金矿化赋存于上泥盆统南阳山组和下石炭统袁家沟组地层中, 容矿岩石的岩性为钙质粉砂岩、粉砂质页岩和泥质灰岩.金矿石中主要金属矿物为黄铁矿和毒砂, 非金属矿物则以石英、方解石和绢云母为主.通过对矿石矿物黄铁矿和毒砂的扫描电镜-能谱分析、电子探针分析和激光剥蚀电感耦合等离子体质谱分析, 对丘岭金矿床金的赋存形式和富集机理进行了较为详细的研究.结果表明, 丘岭金矿床中金主要以次显微不可见金的形式存在, 其次为显微可见金.次显微金包括: (1)固溶体金(Au+), 主要存在于环带状细粒黄铁矿的含砷增生边区域和毒砂中, 少量存在于环带状黄铁矿的核部不含砷区域; (2)纳米级自然金颗粒(Au0), 存在于粗晶黄铁矿中.环带状细粒黄铁矿核部的次显微金可能主要以胶体吸附的形式存在, 暗示容矿岩石在沉积成岩过程中有金的初步富集, 而环带状黄铁矿幔部和毒砂中的Au则主要来源于成矿流体, 以S和As的络合物形式搬运.显微可见金主要分布在细粒黄铁矿的晶体边缘和热液蚀变绢云母、石英及方解石中, 粒径通常小于3~5 μm, 其形成可能与成矿流体中金的局部过饱和及成矿流体对细粒黄铁矿和毒砂中次显微金的活化和再次富集有关. 相似文献
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The Sukari Gold Mine,Eastern Desert—Egypt: structural setting,mineralogy and fluid inclusion study 总被引:1,自引:0,他引:1
The Sukari gold mine (18.8 Mt @ 2.14 g/t Au) is located 15 km west of the Red Sea coast in the southern central Eastern Desert of Egypt. The vein-type deposit is hosted in Late Neoproterozoic granite that intruded island-arc and ophiolite rock assemblages. The vein-forming process is related to overall late Pan-African shear and extension tectonics. At Sukari, bulk NE–SW strike-slip deformation was accommodated by a local flower structure and extensional faults with veins that formed initially at conditions of about 300 °C and 1.5–2 kbar. Gold is associated with sulfides in quartz veins and in alteration zones. Pyrite and arsenopyrite dominate the sulfide ore beside minor sphalerite, chalcopyrite and galena. Gold occurs in three distinct positions: (1) anhedral grains (GI) at the contact between As-rich zones within the arsenian pyrite; (2) randomly distributed anhedral grains (GII) and along cracks in arsenian pyrite and arsenopyrite, and (3) large gold grains (GIII) interstitial to fine-grained pyrite and arsenopyrite. Fluid inclusion studies yield minimum vein-formation temperatures and pressures between 96 and 188 °C, 210 and 1,890 bar, respectively, which is in the range of epi- to mesothermal hydrothermal ore deposits. The structural evolution of the area suggests a long-term, cyclic process of repeated veining and leaching followed by sealing, initiated by the intrusion of granodiorite. This cyclic process explains the mineralogical features and is responsible for the predicted gold reserves of the Sukari deposits. A characteristic feature of the Sukari gold mineralization is the co-precipitation of gold and arsenic in pyrite and arsenopyrite.Editorial handling: H. Frimmel 相似文献
15.
Peng Zhang Linlin Kou Yan Zhao Zhongwei Bi Deming Sha Renping Han Zhumin Li 《地学前缘(英文版)》2020,(2):547-563
TheWulong lode deposit contains over 80 tonnes of gold with an average grade of 5.35 g/t.It is one of the largest deposits in Dandong City,Liaoning Province in northeast China.Previous studies on the deposit focused on its geological characteristics,geochemistry,fluid inclusions,and the timing of gold mineralization.However,controversy remains regarding the origin of the ore-forming fluids and metals,and the genesis of the gold deposit.This paper presents zircon UePb and pyrite RbeSr ages and S,Pb,He,and Ar isotopic results along with quartz H and O isotopic data for all litho-units associated with the deposit.Laser ablation inductively coupled mass spectrometry measurements yielded zircon UePb dates for samples of pre-mineralization rocks like granite porphyry dike,the Sanguliu granodiorite,fine-grained diorite,and syn-mineralization diorite,as well as post-mineralization dolerite,and lamprophyre;their emplacement ages are 1261 Ma,1241 Ma,1231 Ma,1201 Ma,1192 Ma,and 1152 Ma,respectively.The pyrite RbeSr isochron age is 1191 Ma,indicating that both magmatism and mineralization occurred during the Early Cretaceous.The d18OH2O values of ore-forming hydrothermal fluids from the quartzepolymetallic sulfide vein stage vary from 4.8&to 6.5&,and the dDV-SMOW values are between67.7&and75.9&,indicating that the ore-forming fluids were primarily magmatic.The noble gas isotope compositions of fluid inclusions hosted in pyrite suggest that the ore-forming fluids were dominantly derived from crustal sources with minor mantle input.Sulfur isotopic values of pyrite vary between 0.2&and 3.5&,suggesting that S was derived from a homogeneous magmatic source or possibly from fluids derived from the crust.The Pb isotopic compositions of sulfides(207Pb/204Pb?15.51 e15.71,206Pb/204Pb?17.35e18.75,208Pb/204Pb?38.27e40.03)indicate that the Pb of the Wulong gold deposit is a mixture of crust and mantle components.Geochronological and geochemical data,together with the regional geological history,indicate that Early Cretaceous magmatism and mineralization of the Wulong gold deposit occurred during the rollback of the subducting Paleo-Pacific Plate,which resulted in lithospheric thinning and the destruction of the North China Craton(NCC),which indicates that the deposit is of magmaticehydrothermal origin. 相似文献
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17.
滇黔桂“金三角”卡林型金矿含砷黄铁矿和毒砂的矿物学研究 总被引:21,自引:5,他引:16
滇黔桂"金三角"卡林型金矿不同矿床亚类的典型矿床硫化物显微镜下观察和电子探针显微分析(EP-MA)表明,含砷黄铁矿和毒砂是主要的载金矿物.载金黄铁矿主要以环带状含砷黄铁矿、细粒自形含砷黄铁矿为主.环带状黄铁矿核部贫As、Au,富S、Fe,而环带则相反,且Au与As具有正相关关系.核部贫As的黄铁矿成因复杂,既有成矿早阶段的热液成因,又有受热液蚀变交代的沉积成因.核部和环带是不同成矿阶段的产物.元素的相关关系表明环带中As主要取代S的位置.多环带的特点还表明,热液活动是脉动式的,含矿流体化学成分也是在不断变化的.不论是核部还是环带,均有Au含量高出检出限的测点,但环带是主要的载金部位.细粒含砷黄铁矿为均质结构,具有高As、Au,低S、Fe的特点,类似环带状黄铁矿的环带特征,推测与富砷环带是同期热液活动形成的.毒砂-黄铁矿集合体中的黄铁矿分为环带结构和均质结构2种,并分别具有上述2种黄铁矿的特点.载金毒砂可以细分为3个世代,具均质结构,热液成因.各世代毒砂Au含量均有高出检出限的测点,同时Au、As、S、Fe的含量变化不大,均为主成矿阶段的产物.载金矿物的结晶顺序为:贫砷的沉积成因或早阶段热液成因黄铁矿→富砷的细粒黄铁矿颗粒和富砷黄铁矿环带→毒砂.黄铁矿和毒砂中的Au在EPMA微束的分辨率下均显示分布是不均匀的,环带状黄铁矿中Au元素图出现的均匀结构可能为一种假象,说明金主要以"不可见"的纳米级超显微包裹金形式存在,少量为"不可见"晶格金和微米级显微"可见金".整个滇黔桂"金三角"卡林型金矿不同亚类矿床之间的载金矿物特征和金的赋存状态没有本质区别,说明它们具有相同的成矿作用过程和成矿背景. 相似文献
18.
交梨汞、金矿床位于三丹成矿带上,汞矿体呈透镜状、扁豆状、脉状赋存于断裂破碎带上,合矿围岩为下奥陶统锅塘组一套斜坡相的粒屑灰岩。其中产于F1断层及其上盘的①、②号汞矿体中有金矿伴生,构成工业矿体。矿石矿物除辰砂外,还有黄铁矿、毒砂、闪锌矿、雄黄及自然金,偶见自然汞;脉石矿物为方解石、白云石重晶石、石英等,金以自然金属态及类质同位素形式分别含于玉髓和黄铁矿、毒砂等载金矿物中。矿体围蚀变强烈,与汞矿有关的蚀变有雄黄矿化、中强硅化、黄铁矿化、毒砂化及玉髓化(硅化),与金矿化关系密切。汞、金矿的成矿地质条件优越,找矿潜力较大。 相似文献
19.
Y.-H. Sung J. Brugger C. L. Ciobanu A. Pring W. Skinner L. V. Danyushevsky M. Nugus 《Mineralium Deposita》2009,44(7):765-791
The Sunrise Dam gold mine (11.1 Moz Au) is the largest deposit in the Archaean Laverton Greenstone Belt (Eastern Goldfields
Province, Yilgarn Craton, Western Australia). The deposit is characterized by multiple events of fluid flow leading to repeated
alteration and mineralization next to a major crustal-scale structure. The Au content of arsenian pyrite and arsenopyrite
from four mineralizing stages (D1, D3, D4a, and D4b) and from different structural and lithostratigraphic environments was measured using in situ laser ablation inductively
coupled plasma mass spectrometry. Pyrite contains up to 3,067 ppm Au (n = 224), whereas arsenopyrite contains up to 5,767 ppm (n = 19). Gold in arsenopyrite (D4a stage) was coprecipitated and remained as “invisible gold” (nanoparticles and/or lattice-bound) during subsequent deformation
events. In contrast, gold in pyrite is present not only as “invisible gold” but also as micrometer-size inclusions of native
gold, electrum, and Au(Ag)–tellurides. Pristine D1 and D3 arsenian pyrite contains relatively low Au concentrations (≤26 ppm). The highest Au concentrations occur in D4a arsenian-rich pyrite that has recrystallized from D3 pyrite. Textures show that this recrystallization proceeded via a coupled dissolution–reprecipitation process, and this process may have contributed to upgrading Au grades during D4a. In contrast, Au in D4b pyrite shows grain-scale redistribution of “invisible” gold resulting in the formation of micrometer-scale inclusions of
Au minerals. The speciation of Au at Sunrise Dam and the exceptional size of the deposit at province scale result from multiple
fluid flow and multiple Au-precipitating mechanisms within a single plumbing system. 相似文献
20.
甘肃早子沟金矿是西秦岭成矿带上矿床规模较大,研究程度较高的构造蚀变岩性金矿典型代表。针对早子沟金矿床深部找矿方向与成矿潜力,本文采用三维地质建模手段,成矿有利信息提取方法,开展基于找矿地质模型的三维建模与综合成矿预测。研究结果表明:甘肃早子沟金矿适用于控矿断裂+有利岩体+有利围岩蚀变+等间距控矿的综合地质找矿模型;地质异常变量定量分析与提取结果在地质认识上均得到较好的印证,综合成矿预测结果显示矿床明显受多期次构造控制矿化叠加富集,Au1、Au9、Au30、M16等主矿体深部具有良好的找矿潜力。 相似文献