赣南脉状钨矿的地球化学特征   总被引：2，自引：0，他引：2  

王成发 《矿床地质》1984,3(2):76-84

赣南是世界著名的脉状钨矿产地,许多地学工作者对其作过详细研究。本文在前人工作的基础上,拟对脉状钨矿的某些地球化学特征及分布规律作进一步探讨。一、地质简况赣南位于南岭山系东段(图1)。泥盆纪以前,这里地壳大幅度下陷,沉积了巨厚的复理石建造、碎屑岩建造、碳酸盐建造及火山岩建造。区内震旦系、寒武系、奥陶系广泛分布。下古生代末期的强烈地壳运动,使泥盆纪以前的地层普遍上升褶皱,并伴有大规模酸性  相似文献   

Hydrothermal zircon geochronology: Age constraint on Nanling Range tungsten mineralization (Southeast China)     

《Ore Geology Reviews》2016

The Nanling Range (Southeast China) is well known for its wolframite-bearing-quartz-vein (WQV) tungsten deposit. This study focuses on the geochemistry and geochronology of zircons from the WQV and challenges the current view of the tungsten mineralization in the Nanling Range. The features of the WQV zircons include: (1) pale brown, murky brown, or orange-red color and translucence under microscope; (2) {110} + {101} type crystal form; (3) weak cathodoluminescence; (4) enrichment of Hf (ranging from 1.97 to 7.83 wt.% HfO₂), U (ranging from 0.02 to 3.97 wt.% UO₂), Th (ranging from 0 to 0.65 wt.% ThO₂), and P (ranging from 0 to 1.82 wt.% P₂O₅); and (5) presence of solid (hydrothermal and ore minerals) and fluid inclusions. These features indicate that the WQV zircons crystallized from hydrothermal fluids during tungsten mineralization. The in-situ LA-ICPMS U–Pb results of the WQV zircons from five different tungsten deposits in the Nanling Range yield similar ages, ranging from 134.4 ± 1.9 Ma to 132.9 ± 1.5 Ma, approximately 20 million years younger than proposed tungsten ore ages (155 ± 5 Ma). Several mineralization characteristics and field observations also cast doubt on the current model — Nanling Range tungsten ore is the result of orthomagmatic processes. The zircon characterization method provided in this study could be applied to tungsten metallogenic research in other parts of the world.  相似文献   

Genetic relationship between silver–lead–zinc mineralization in the Wutong deposit,Guangxi Province and Mesozoic granitic magmatism in the Nanling belt,southeast China     

Pilar Lecumberri-Sanchez  Rolf L. Romer  Volker Lüders  Robert J. Bodnar 《Mineralium Deposita》2014,49(3):353-369

More than 50 % of the world's total reserves of tungsten are in China and most tungsten deposits are located in the Nanling range in southeast China. This study explores the potential genetic relationship between tungsten–tin (W–Sn) mineralization and shallower Ag–Pb–Zn deposits in the Nanling range based on data from the Wutong deposit, Guangxi Province. The lead, oxygen, carbon, sulfur, and strontium isotopic compositions of minerals at Wutong indicate that a single crustal-derived fluid was responsible for mineralization. Wutong likely formed at relatively low temperatures (～200–300 °C) and low pressures, as indicated by the similarity between homogenization temperatures of fluid inclusions and those estimated from S isotopic compositions of minerals. The hübnerite age (92.3–104.4 Ma) indicates that the Wutong mineralization is likely related to nearby Late Yanshanian (Cretaceous) S-type granites derived from Proterozoic crust. This mineralization event coincides with the last W–Sn mineralization event and the Cretaceous peak of mineralization in the Nanling range.  相似文献   

Silver sulfotellurides from volcanic-hosted massive sulfide deposits in the Southern Urals     

K. A. Novoselov  E. V. Belogub  V. V. Zaykov  V. A. Yakovleva 《Mineralogy and Petrology》2006,87(3-4):327-349

Summary This paper addresses Ag-sulfotellurides occurring in volcanic-hosted massive sulfide deposits of the Southern Urals. Cervelleite-like minerals were identified in ores from the Gayskoe, Yaman-Kasy, Severo-Uvaryazhskoe, Tash-Tau, and Babaryk deposits, where they occur in ores containing chalcopyrite, galena, sphalerite, tennantite ± bornite. Other Ag- and Te-bearing minerals (electrum, hessite, stromeyerite and Ag-bearing chalcocite) are present in the association. A benleonardite-like mineral associated with sylvanite and native tellurium was found as a metastable phase in paleohydrothermal tubes relics from the Yaman-Kasy deposit. Formation of the sulfotellurides indicates relative low fTe₂ in the hydrothermal systems, insufficient for formation of most S-free tellurides. The significant Cu enrichment in cervelleite relates to the association with bornite. Broad variations in composition and physical properties of cervelleite-like sulfotellurides allow the supposition of the presence of several, as yet unnamed mineral species, which can be distinguished by Cu contents, Te/S ratios, and presumably by crystal structure.  相似文献   

Physicochemical parameters of the formation of hydrothermal deposits: A fluid inclusion study. I. Tin and tungsten deposits   总被引：1，自引：0，他引：1  

V. B. Naumov  V. A. Dorofeev  O. F. Mironova 《Geochemistry International》2011,49(10):1002-1021

The author’s database, which presently includes data from more than 18500 publications on fluid and melt inclusions in minerals and is continuing to be appended, was used to generalize results on physicochemical parameters of the formation of hydrothermal deposits and occurrences of tin and tungsten. The database includes data on 320 tin and tin-tungsten deposits and occurrences and 253 tungsten and tungstentin deposits around the world. For most typical minerals of these deposits (quartz, cassiterite, tungsten, scheelite, topaz, beryl, tourmaline, fluorite, and calcite), histograms of homogenization temperatures of fluid inclusions were plotted. Most of 463 determinations made for cassiterite are in the range of 300–500°C with maximum at 300–400°C, while those for wolframite and scheelite (453 determinations) fall in the range of 200–400°C with maximum at 200–300°C. Representative material on pressures of hydrothermal fluids included 330 determinations for tin and 430 determinations for tungsten objects. It was found that premineral, ore, and postmineral stages spanned a wide pressure range from 70–110 bar to 6000–6400 bar. High pressures of the premineral stages at these deposits are caused by their genetic relation with felsic magmatism. Around 50% of pressure determinations lie in the range of 500–1500 bar. The wide variations in total salinity and temperatures (from 0.1 to 80 wt % NaCl equiv and 20–800°C) were obtained for mineral-forming fluids at the tin (1800 determinations) and tungsten (2070 determinations) objects. Most of all determinations define a salinity less than 10 wt % NaCl equiv. (∼60%) and temperature range of 200–400°C (∼70%). The average composition of volatile components of fluids determined by different methods is reported. Data on gas composition of the fluids determined by Raman spectroscopy are examined. Based on 180 determinations, the fluids from tin objects have the following composition (in mol %): 41.2 CO₂, 39.5 CH₄, 19.15 N₂, and 0.15 H₂S. The volatile components of tungsten deposits (190 determinations) are represented by 56.1 CO₂, 30.7 CH₄, 13.2 N₂, and 0.01 H₂S. Thus, the inclusions of tungsten deposits are characterized by higher CO₂ content and lower (but sufficiently high) contents of CH₄ and N₂. The concentrations of tin and tungsten in magmatic melts and mineral-forming fluids were estimated from analysis of individual inclusions. The geometric mean Sn contents are 87 ppm (+ 610 ppm/−76 ppm) in the melts (569 determinations) and 132 ppm (+ 630 ppm/−109 ppm) in the fluids (253 determinations). The geometric mean W values are 6.8 ppm (+ 81/−6.2 ppm) in the magmatic melts (430 determinations) and 30 ppm (+ 144 ppm/−25 ppm) in the mineral-forming fluids (391 determinations).  相似文献   

内蒙古大井矿床中银矿物的研究   总被引：1，自引：0，他引：1  

王玉往  王京彬等 《地质论评》2002,48(5):526-533

本文总结了内蒙古大井矿床中银矿物的类型，产出特征以及矿物命名的问题，详细描述了黝铜矿族，浓红银矿，脆银矿，自然银以及含银的铅－铋（锑）硫盐类矿物等主要银矿物的产出状态和化学成分特征，并讨论了相应的形成条件，同时指出本区银矿物主要形成于两个矿化阶段，即：早期黄铜矿－黄铁矿阶段，主要形成了黝铜矿族的含银矿物以及辉锑银矿，硫锑铜银矿等含铜的硫盐类矿物，晚期方铅矿－闪锌矿阶段，形成的银矿物种类较为繁杂，除形成黝铜矿族矿物外，多数含铅，铋的硫盐矿物以及自然银、硫化物和浓红银矿、脆银矿等无铜的简单硫盐等均是在这一阶段形成。  相似文献   

Gold mineralization of the Khaak-Sair gold-quartz ore occurrence in listwanites (western Tuva)     

《Russian Geology and Geophysics》2015,56(9):1332-1348

We consider mineral assemblages and mineralogical and geochemical peculiarities of hypogene gold from the Khaak-Sair multistage low-sulfide gold-quartz ore occurrence in listwanites. Three productive substages of Au-and Ag-mineral formation have been recognized on the basis of mineralogical studies: gold-sulfosalt-sulfide-quartz, gold-mercury-quartz, and gold-selenide-telluride-sulfide-quartz. These substages were characterized by the following sequences of mineral formation: (1) ultrahigh-fineness gold → high-fineness gold → argental gold (medium- and low-fineness gold) → electrum + Ag-bearing and argental fahlores (up to 50 wt.% Ag) ± acanthite ± hessite; (2) high-fineness gold → Hg-bearing and mercurian gold → mercurian electrum → mercurian kustelite → Au-bearing mercurian silver; and (3) high-fineness gold → mercurian gold → mercurian electrum + naumannite + Te-bearing naumannite + fischesserite + tiemannite + hessite + coloradoite + Ag-bearing minerals of the galena-clausthalite series (up to 6 wt.% Ag) ± Se-cinnabar ± Se-imiterite. Productive mineral assemblages of the ore occurrence formed in the hypabyssal facies (depth ~ 1.5 km, P ~ 0.5 kbar) on the background of a temperature decrease from 290 to 160 °C and variations in f(O₂), f(S₂), f(Se₂), and f(Te₂).  相似文献   

The muscovite granites: Parental rocks to the Nanling Range tungsten mineralization in South China     

《Ore Geology Reviews》2017

Muscovite granites (MGs) in the Nanling Range (South China) occur as satellite intrusions within or surrounding batholitic biotite monzogranites (BMs). The MGs are massive and fine-grained with a porphyritic texture, and contain quartz, K-feldspar and albite in nearly equal portions. The accessory minerals in the MGs include alumina-rich minerals (e.g., Mn- and Fe-rich garnet, andalusite, topaz, and tourmaline), anatase, rutile, wolframite, cassiterite, xenotime, chalcopyrite, molybdenite, and volatile-rich minerals (e.g., microlite, topaz, tourmaline, fluorite, and calcite). Compared with the BMs, the MGs are geochemically enriched in major elements of Si, K, and Na, and incompatible trace elements of Rb, Cs, Y, U, Nb, Ta, W, Sn, Pb, Bi, Li, and Be, and depleted in major elements of Fe, Mg, Ca, Ti, and P, and compatible trace elements of Ba, Sr, Co, Ni, Cr, Cd, V as well as Zr and Hf. The chondrite-normalized REE patterns of the MGs are flat with large negative Eu anomalies. The mineralogical and geochemical features of the MGs indicate that they crystallized from highly fractionated granitic magmas. Zircons separated from the MG samples, which were collected from six different tungsten deposits, show characters of hydrothermal origin according to their morphologies, chemical compositions and inclusions. In-situ U–Pb dating of the zircons yields a weighted mean ²⁰⁶Pb/²³⁸U age of 133.4 ± 1.0 Ma. This age is similar to the mean age of the zircons from wolframite-bearing quartz veins (WQVs) in the Nanling Range (133.7 ± 1.3 Ma) reported from our previous study. Zircon Hf isotopes also reveal that the MGs and the WQVs are homologous. These mineralogical, geochemical and zirconological features indicate that the MGs are the parental rocks of the tungsten deposits in the Nanling Range. This study provides a new guidance for the exploration of magmatic-hydrothermal tungsten deposits.  相似文献   

浙江中生代火山岩区浅成热液型金、银矿床的金银赋存状态和富集规律          下载免费PDF全文

胡永和  许峰林  李长江  徐步台  蒋叙良 《地质找矿论丛》1993,8(1):84-94

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赣中聚源大型石英脉型白钨矿床含铀富钨矿物初步研究     

尹晓燕  李光来  刘晓东  苏晔  邬斌  韦星林  李成祥 《岩石学报》2021,37(5):1553-1566

聚源钨矿是华南地区为数不多的大型石英脉型白钨矿矿床之一。在详细的野外地质调查基础上,本文利用α径迹蚀刻、电子显微镜、扫描电镜以及电子探针等实验手段,对该矿床含钨和含铀矿物开展了精细矿物学的研究工作,探讨了成矿过程中钨和铀的富集规律。研究显示,该矿床钨铀矿物的形成可分为四个阶段:第一阶段,钨铀主要进入富含Nb、Ti的氧化物矿物,形成铌铁矿、钇易解石等富钨矿物,另有极少量的钨进入黑钨矿和早阶段白钨矿;第二阶段,铌铁矿与钇易解石被后期流体交代,形成含钨富铀的骑田岭矿、铌锰矿以及钛-钇易解石;第三阶段,钨进入中阶段白钨矿,这一阶段也是钨最主要的矿化阶段;第四阶段,钨进入晚阶段白钨矿。最后两阶段白钨矿中铀含量不高。骑田岭矿(WO_3 26.74%～29.68%),是聚源钨矿中除白钨矿和黑钨矿之外钨含量最高的含钨矿物。该矿易解石族矿物WO_3最高可达9.80%,极度富钨,是目前有文可查的钨含量最高的易解石。聚源钨矿中的含钨矿物大多数为白钨矿,但绝大多数的白钨矿却在骑田岭矿、易解石族矿物、铌铁矿族矿物、黑钨矿之后形成,说明成矿流体在演化过程中,绝大多数W首先进入富含Nb、Ti的含铀矿物和少量黑钨矿,之后才是白钨矿的大量结晶。  相似文献   

Au-Cu-Ag mineralization in rodingites and nephritoids of the Agardag ultramafic massif (southern Tuva,Russia)     

G.A. Palyanova  V.V. Murzin  T.V. Zhuravkova  D.A. Varlamov 《Russian Geology and Geophysics》2018,59(3):238-256

Gold-bearing albite-amphibole-pyroxene rodingites of the Agardag ultramafic massif (southern Tuva, Russia) are confined to the E-W striking serpentinite crush zone. A zone of gold-bearing nephritoids is localized at the contact of rodingites with serpentinites. Optical and scanning electron microscopy, electron probe microanalysis, and fluorescent, chemical, ICP MS, and X-ray phase analyses were applied to study Au-Cu-Ag mineralization in the serpentinites, rodingites, and nephritoids. Copper sulfides, chalcocite and digenite, are present in the serpentinites, whereas gold and silver minerals are absent. Copper impurity is found in antigorite, Cr-spinel, and magnetite (up to 0.1-0.3 wt.%) as well as parkerite (up to 1.2 wt.%) and millerite (up to 7.9 wt.%). A wide variety of native gold and copper minerals has been identified in the rodingites: (1) cuproauride and tetra-auricupride free of or containing silver impurities (0.1 to 1.2 wt.%); (2) electrum of composition Ag0.50_-0.49Au0.50_-0.5₁ (650-660%c) intergrown with AuCu, sometimes as exsolution structures; (3) electrum of composition Ag₀._70-0.6₄Au₀._30-0.₃6 (440-510%c), with inclusions of AuCu and copper sulfides (geerite and yarrowite); (4) high-fineness gold (750-990%c) as veinlets in electrum; and (5) native copper. The composition of copper sulfides varies from chalcocite to covellite. Submicron inclusions of hessite Ag2Te were found in chalcocite. The amount of copper, gold, and silver minerals in the nephritoids is much less than that in the rodingites. The nephritoids contain chalcocite, electrum of composition Ag0.6_4-0.63Au0.36_-0.3₇ (530-540%c), cuproauride, and tetra-auricupride. The detected hypergene minerals are auricuzite, apachite, brochantite, high-fineness gold, native copper, and cuprite. The sequence of mineral formation in the Agardag ore occurrence has been established on the basis of mineral structures and mineral relations in the rodingites and nephritoids. It is proved that Au-Cu-Ag mineralization formed with the participation of Au- and Ag-bearing chloride-free low-sulfur carbon dioxide alkaline fluids in reducing conditions.  相似文献   

Ag2(S,Se) solid solutions in the ores of the Rogovik gold-silver deposit (northeastern Russia)     

《Russian Geology and Geophysics》2015,56(12):1738-1748

The relationships and chemical compositions of silver sulfoselenides in the ores of the Rogovik gold-silver deposit (northeastern Russia) were studied to refine the low-temperature region of the Ag₂S-Ag₂Se phase diagram and identify contradictions between natural and experimental data. Two types of relationships between the phases of the system Ag₂S-Ag₂Se have been recognized using optical and scanning electron microscopy: (1) Se-acanthite and S-naumannite occur as monomineral microinclusions or fill cracks in the grains or the interstices of other minerals, and acanthite (free of impurities) forms rims on Fe-sphalerite; (2) Se-acanthite forms rims on S-naumannite. Electron probe microanalysis of silver sulfoselenides from the Rogovik ores revealed 0–7.9 wt.% Se in acanthite and 0–3.2 wt.% S in naumannite, which corresponds to the acanthite series Ag₂S-Ag₂S₀.₇₄Se₀.₂₆ and naumannite series Ag₂S₀.₂₈Se₀.₇₂-Ag₂Se. The composition ranges of the studied acanthite and naumannite series are wider than those of natural silver sulfoselenides from the Guanajuato (Mexico), Silver City (USA), Salida (Indonesia), and other deposits (Ag₂S-Ag₂S0.85Se0.₁5 and Ag₂S0.₁₂Se0.88-Ag₂Se, respectively) but are significantly narrower than the composition ranges of synthetic samples: Ag₂S-Ag₂S0.₄Se0.6 and Ag₂S0.3Se0.₇-Ag₂Se. The presence of intergrowths of two phases of the Ag₂S-Ag₂Se series in the form of Se-acanthite rims on S-naumannite in the Rogovik ores and the absence of three-phase intergrowths of silver sulfoselenides Ag₂S_1 -xSe_x from this and other deposits do not confirm the assumption on the existence of the third solid solution. The results of earlier studies of natural Ag₂(S,Se) solid solutions show the existence of two solid solutions (of the acanthite and naumannite series) in the Ag₂S-Ag₂Se system and confirm the experimental data. It is necessary to carry out a detailed examination of natural silver sulfoselenides falling in the interval from Ag2S0.4Se0.6 to Ag2S0.3Se0.7 in order to identify the limits of two-phase immiscibility.  相似文献   

Genesis of gold and silver sulfides at the Ulakhan deposit (northeastern Russia)     

《Russian Geology and Geophysics》2007,48(10):799-810

Geology and mineralogy of the Ulakhan Au-Ag epithermal deposit (northeastern Russia, Magadan Region) are considered. A four-stage scheme of mineral formation sequence is proposed. Concentrations of Au and Ag in minerals of early and late parageneses were determined. It has been established that uytenbogaardtite is associated with native gold and hypergenesis stage minerals — goethite, hydrogoethite, or limonite replacing pyrite. The compositions of uytenbogaardtite (Ag₃AuS₂), acanthite (Ag₂S), and native gold were studied. The composition of the Ulakhan uytenbogaardtite is compared with those of Au and Ag sulfides from other deposits. Thermodynamic calculations in the system H₂O–Fe–Au–Ag–S–C–Na–Cl were carried out, which simulate the interaction of native gold and silver with O₂- and CO₂-saturated surface waters (carbonaceous, sulfide-carbonaceous, and chloride-sodium-carbonaceous) in the presence and absence of acanthite and pyrite at 25 °C and 1 bar. In closed pyrite-including systems, native silver and kustelite are replaced by acanthite; electrum, by uytenbogaardtite, acanthite, and pure gold; and native gold with a fineness of 700–900‰, by pure gold and uytenbogaardtite. Under the interaction with surface waters in the presence of Ag₂S and pyrite, Au-Ag alloys form equilibrium assemblages with petrovskaite or uytenbogaardtite and pure gold. The calculation results confirmed that Au and Ag sulfides can form after native gold in systems involving sulfide-carbon dioxide solutions (H₂Saq > 10^–4 m). The modeling results support the possible formation of uytenbogaardtite and petrovskaite with the participation of native gold in the hypergenesis zone of epithermal Au-Ag deposits during the oxidation of Au(Ag)-containing pyrite, acanthite, or other sulfides.  相似文献   

南岭地区钨锡花岗岩的成矿矿物学：概念与实例   总被引：7，自引：0，他引：7  

王汝成  朱金初  张文兰  谢磊  于阿朋  车旭东 《高校地质学报》2008,14(4):485-495

南岭地区的钨锡成矿作用与花岗岩岩浆活动有十分密切的关系。花岗岩的物源与成矿元素的初始富集、花岗岩的分异程度和花岗岩中流体性质与活动性集中体现了花岗岩对成矿的控制能力,即花岗岩的成矿能力。初步建立了南岭地区钨锡花岗岩的成矿矿物学研究体系。黑云母、榍石、锆石、锡石、金红石、黑钨矿、白钨矿和钨铁铌矿等是讨论的重点矿物,它们可用于判别花岗岩的成矿能力。首先以矿物晶体化学为基础,介绍了上述矿物在钨锡花岗岩中的岩相学特征、内部构造和矿物化学及其变化,并分别论证了花岗岩原始含矿性、花岗岩结晶演化和花岗岩中成矿元素活动性的矿物学标志;其次,系统对比了南岭地区三类钨锡花岗岩（准铝质含锡花岗岩、过铝质含锡花岗岩和过铝质含钨花岗岩）的成矿矿物学特征。以湖南骑田岭花岗岩复式岩体为实例,进行了芙蓉- 菜岭含锡花岗岩和新田岭含钨花岗岩的成矿矿物学对比研究。前者以黑云母、榍石为典型含锡矿物,它们在流体富集阶段,经热液蚀变作用,导致锡的淋滤和结晶富集作用;后者则以出现岩浆白钨矿和黑钨矿为特征。提出的钨锡花岗岩成矿矿物学研究体系有助于深化矿床学研究和矿床勘探工作,并将在今后工作中进一步完善。  相似文献   

湖南龙山锑金矿床白云母~(40)Ar-~(39)Ar年代学及其意义初探   总被引：1，自引：1，他引：0  

张志远  谢桂青  李惠纯  李伟 《岩石学报》2018,34(9):2535-2547

龙山锑金矿是湘中Sb-Au矿集区内规模最大的脉状锑金矿床,但其精确的成矿时代尚未厘定。本次工作发现该矿床第Ⅰ成矿阶段的石英硫化物脉中发育少量的热液白云母。通过40Ar-39Ar年代学测定,确定了白云母的~(40)Ar-~(39)Ar同位素坪年龄为162. 5±1. 8Ma,相应的等时线年龄为161. 1±1. 2Ma(MSWD=1. 0),反等时线年龄为161. 1±1. 2Ma(MSWD=1. 0)。根据矿物共生组合特征,认为白云母的~(40)Ar-~(39)Ar坪年龄能代表龙山锑金矿床的成矿年龄。结合湘中地区其他锑(金)矿床的年代学研究成果,本文认为,该地区在155~162Ma之间有一次热液成矿事件,与南岭地区165~150Ma与花岗岩有关的钨锡多金属矿床的成矿时代相一致。湘中地区已有的S同位素地球化学和地球物理学资料表明,该地区锑金矿床的形成可能与岩浆作用有关,类似于南岭地区晚侏罗世钨锡多金属矿床的构造背景。  相似文献   

内蒙古维拉斯托-拜仁达坝矿床矿石特征及成矿机理   总被引：2，自引：0，他引：2       下载免费PDF全文

唐然坤  吕新彪  曹晓峰  梅微  尚世超  吴建亮  艾智龙 《地球科学》2014,39(6):671-686

维拉斯托-拜仁达坝锌铜多金属矿床为近几年大兴安岭中南段西坡发现的较大的2个银多金属矿床,主要对2个矿床矿石矿物组合分析和对比,对主要的矿石矿物组合进行扫描电子显微镜-能谱分析和电子探针分析显示:从早期到晚期,矿物组合从高温钨酸盐和氧化物-复硫化物-硫化物-低温含锑硫盐矿物(锑化物);银的赋存状态主要为可见银矿物,其次为晶格银(类质同象)和次显微包裹银,其中生成顺序依次为含银黝铜矿+银锑黝铜矿+黝锑银矿-辉锑铅银矿+柱硫锑铅银矿+深红银矿+锑银矿.根据不同成矿阶段的矿物组合和流体包裹体特征得出:成矿早期在氧化偏酸性环境下,W、Sn等以钨酸、钨酸盐等形式迁移,Zn2+、Pb2+、Cu+等金属离子以氯络合物形式迁移;随着黑钨矿气化沉淀及成矿流体物理化学条件的变化,成矿中-晚期成矿环境变为弱碱性还原条件,成矿流体中金属离子以硫氢络合物迁移为主,伴着温度降低和围岩的水-岩作用,硫氢络合物分解,导致磁黄铁矿等硫化物、硫锑银矿物、硫锑铅矿等依次沉淀.   相似文献   

Supergene oxidation of bonanza Au-Ag veins at the Sleeper Deposit, Nevada, USA: implications for hydrogeochemical exploration in the Great Basin     

J.A. Saunders   《Journal of Geochemical Exploration》1993,47(1-3)

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捷克Jílové金矿集区中硒矿物的特征与硒化物-碲化物的形成物理化学条件     

刘家军  杨隆勃  翟德高  吴杰 《地学前缘》2013,20(1):166-181

捷克Jílové金矿集区在中世纪时期曾是波希米亚地块最大、最富集金的地区,黄金开采已具有2000多年的悠久历史。最重要的矿床有Pepˇr、Bohuliby、Radlík和Rotlev,主要赋存于新元古界těchovice组火山-沉积岩和波希米亚花岗闪长岩深成岩体中。金矿化存在3种类型:脉状矿化、含金网脉状矿化、浸染状矿化。金矿床中的矿物组成已超过70种,包括Cu、Pb、Zn、Fe、As、Mo、Bi、Hg、Au和Ag的一些硫化物、硫盐、氧化物、氢氧化物、硫酸盐、碳酸盐、钨酸盐、硅酸盐,还有碲化物、卤化物和自然元素的矿物。笔者通过显微镜观察、电子探针和扫描分析等综合分析技术,确认金矿床中也存在一些硒矿物。金矿石中的矿物种类较多,组成复杂以及存在大量碲化物、自然金,构成Jílové金矿集区的一大特色。一般说来,亲硫环境越强,出现硒化物、碲化物这样的特殊矿物就越少。因此,金矿床中同时存在大量碲化物、硒化物矿物,表明金矿床的形成具有特殊的物理化学条件。在成矿早阶段,具有高f(S2)和低f(Se2)、f(Te2)、f(O2)的介质,且f(S2)/f(Se2)>1、f(S2)/f(Te2)>1,此时形成大量的黄铁矿、白铁矿、磁黄铁矿、黄铜矿、毒砂、方铅矿、闪锌矿等硫化物。而Se、Te有可能以类质同象的形式赋存于硫化物矿物中。在成矿晚阶段,随着硫化物的大量沉淀,具有f(Se2)/f(S2)、f(Te2)/f(S2)、f(O2)逐渐增高,有利于硒化物、碲化物的形成。根据金矿石中的硒矿物、碲矿物组合,获得在300℃成矿温度下形成硒化物、碲化物时的f(Se2)、f(Te2)分别为10-14.97～10-7.09和10-10.98～10-7.50。  相似文献   

广东省乐昌市禾尚田地区钨多金属矿床找矿进展及潜力分析     

周明文 《华南地质与矿产》2013,(4):318-321

禾尚田钨多金属矿床位于南岭东西向构造带中段,粤北“山字型”构造瑶山脊柱西翼和南端。其中钨锡矿床产于上泥盆统天子岭组碳酸盐岩中,矿体呈脉状。成矿元素以钨、锡为主,伴生银、铜、铅、锌、铍等。禾尚田矿区钨矿体规模较大、矿体数目较多、走向和倾向上延续性好,目前已有工程控制的钨锡资源储量30万吨。根据地物化综合分析研究,在钨锡矿床外围根据成矿温度条件规律分布有很大找矿潜力的铅、锌、锑、银、金等矿床。  相似文献   

Sulfur gases produced by the decomposition of sulfide minerals: Application to geochemical exploration     

Carl H. Taylor  Stephen E. Kesler  Paul L. Cloke 《Journal of Geochemical Exploration》1982,17(3):165-185

We have evaluated the potential application of sulfur gas analysis to exploration for buried sulfide mineral deposits by: (1) calculating by use of equilibrium thermodynamics, the relative abundances of gases that should be given off by decomposing sulfide minerals; and (2) determining experimentally the abundances of gases that are actually given off. The calculations indicate that the gases that should be given off by decomposing sulfide minerals are (in order of decreasing abundance) H₂S, COS, CS₂, CH₃SH, (CH₃)₂S₂ or SO₂ or S₂ (depending on Eh and pH). In contrast, our experiments show that decomposing sulfide minerals evolve only CS₂ and COS, in order of decreasing abundance. Pyrite produces the largest amounts of sulfur gas. Moist (rather than saturated) and non-sterile (rather than sterile) conditions enhance gas generation from pyrite, although no large difference appeared between sterile and non-sterile experiments for other sulfide minerals. These experiments indicate that the sulfur gases CS₂ and COS could be useful indicators of buried metal sulfide deposits.  相似文献