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1.
湘西花垣地区铅锌矿床是铅锌矿资源储量超过千万吨的世界级超大型矿床之一。对该矿床主矿化期的方解石和闪锌矿进行了系统的C、H、O同位素研究。分析结果显示,花垣地区铅锌矿床主成矿期方解石样品的δ~(13)C_(PDB)值范围为-2.71‰~1.21‰,δ~(18)OSMOW值范围为16.09‰~22.48‰,团结、李梅、土地坪、蜂塘和大石沟各铅锌矿床中主成矿期方解石的13C、18O同位素依次表现出逐渐降低的特征,在δ~(18)O_(SMOW)-δ~(13)C_(PDB)图上主要介于原生碳酸盐岩与海相碳酸盐岩之间,该地区铅锌矿床成矿流体中的碳主要来源于海相碳酸盐岩的溶解作用。花垣矿区围岩的δ~(13)C_(PDB)值范围为0.15‰~1.17‰,δ~(18)O_(SMOW)值范围为19.79‰~23.89‰,指示沉积成因海相碳酸盐岩的特征。方解石和闪锌矿样品中流体的δD_(SMOW)变化于-91.1‰~-15‰之间,δ18Ofluid变化范围为-4.1‰~9.25‰,在矿区范围内流体的迁移方向是由北向南,δ~(18)O_(fluid)-δD_(SMOW)图显示,矿床成矿流体的主要来源是建造水和大气降水。成矿流体与围岩间的水-岩反应是导致湘西花垣地区铅锌矿床中方解石和闪锌矿矿物发生沉淀的主要机制。 相似文献
2.
湘西花垣李梅铅锌矿床C、O、S、Pb同位素特征及成矿物质来源 总被引:2,自引:1,他引:2
李梅铅锌矿床位于扬子地块的东南缘,是湘西-鄂西成矿带花垣矿田中较早发现的超大型铅锌矿床之一,矿体呈层状、似层状产于寒武系清虚洞组藻灰岩中。文章通过对其进行C、O、S、Pb同位素地球化学及流体包裹体激光拉曼的研究,探讨了成矿流体和成矿物质的来源及演化。研究结果表明:成矿期热液方解石的δ~(13)CPDB为-2.79‰~1.11‰,δ~(18)OSMOW为14.59‰~23.05‰,表明成矿流体中的CO_2主要来自于寒武系碳酸盐岩的溶解,部分成矿期及成矿后的热液方解石与有机质的热化学还原作用有关。激光拉曼研究显示包裹体气相成分中含大量的CH_4、H_2S、N_2及其他烃类,推测已经演化到高成熟阶段的有机质可能以古油气藏的形式参与了成矿作用,闪锌矿中气态含碳质沥青包裹体的出现暗示有机质的热化学还原反应参与了铅锌成矿过程。矿石中硫化物的δ~(34)SCDT值为+26.30‰~+34.66‰,平均值为+30.52‰,表明还原S主要来自成矿流体中海水硫酸盐充分的热化学还原作用。矿石硫化物的Pb同位素组成变化范围较小,~(206)Pb/~(204)Pb、~(207)Pb/~(204)Pb、~(208)Pb/~(204)Pb分别为17.999~18.235、15.584~15.789、38.147~38.576,推测成矿物质主要来源于元古界浅变质基底板溪群和寒武系下统牛蹄塘组黑色页岩,部分来自于清虚洞组赋矿围岩。 相似文献
3.
近年来湘西黔东地区铅锌矿产勘查成果显著,已发现矿床(点)200余处,铅锌矿主要产于寒武系—奥陶系碳酸盐岩地层中。通过对该地区典型铅锌矿床碳酸盐围岩和成矿期方解石的C、O同位素组成分析,结果表明:碳酸盐围岩的δ13CPDB值(-1.16‰~1.70‰,均值0.51‰)和δ18OSMOW值(18.56‰~22.42‰,均值21.04‰)变化范围较小,组成相对均一,在δ13CPDB-δ18OSMOW图上投影点位于海相碳酸盐岩区;而成矿期方解石的δ13CPDB值(-5.80‰~0.42‰,均值-1.18‰)比围岩略低,δ18OSMOW值(12.96‰~23.05‰,均值18.36‰)有明显的下降,在δ13CPDB-δ18OSMOW图上投影点主要位于上地幔区和海相碳酸盐岩之间。根据C、O同位素组成特征并结合前人研究成果,认为成矿流体中的C主要来源于碳酸盐围岩,S来源于地层中的膏盐层,Pb、Zn主要来源于下寒武统牛蹄塘组地层,成矿流体是一种高盐度的低温热卤水,它与碳酸盐围岩的水-岩反应和降温的耦合作用是该地区成矿期方解石和矿石矿物沉淀的主要机制。 相似文献
4.
湘南铜山岭铜多金属矿床成矿物质来源的 S、Pb、C同位素约束 总被引:2,自引:0,他引:2
铜山岭铜多金属矿床是湘南W、Sn、Pb、Zn、Cu多金属矿集区的代表性矿床,本文对其不同类型岩石和矿石矿物进行了S、Pb、C同位素组成对比研究。矿石硫化物的δ34 S值变化范围为-1.9‰~5.7‰,平均值为2.6‰,硫主要来源于硫同位素组成均一化的岩浆。硫化物硫同位素平衡温度表明,矿床主要成矿温度为134~339℃。矿石铅的206 Pb/204 Pb、207 Pb/204 Pb、208 Pb/204 Pb比值分别为18.256~18.856、15.726~15.877、38.352~39.430;岩体岩石铅的206Pb/204Pb、207Pb/204Pb、208Pb/204Pb比值分别为18.617~18.805、15.721~15.786、38.923~39.073;两者铅同位素组成相同,都主要为上地壳铅,是由同一岩浆体系分异形成,可能来源于古老基底岩石。不同类型岩石、方解石矿物的δ13 CPDB值为-9.88‰~1.32‰,δ18 OSMOW值为11.67‰~17.68‰,从矽卡岩矿体到距岩体稍远的围岩地层,方解石矿物的δ13 CPDB、δ18 OSMOW值逐渐增大,成矿流体中的碳早期可能主要来源于岩浆,在成矿过程中有部分碳酸盐岩地层碳的加入。铜山岭矿床成矿物质主要来源于岩浆,赋矿地层对矿床成矿物质来源作用不显著,仅提供了少量成矿物质。 相似文献
5.
滇东北茂租大型铅锌矿床成矿物质来源及成矿机制 总被引:4,自引:0,他引:4
茂租铅锌矿床地处扬子地块西缘,是川滇黔铅锌成矿域内赋存于震旦系灯影组白云岩中大型铅锌矿床的典型代表.其工业矿体呈似层状、脉状和不规则状.热液方解石和矿石硫化物(闪锌矿、方铅矿和黄铁矿)是主要矿物,其形成贯穿整个成矿过程.在矿床地质特征解析基础上,获得了热液方解石C-O同位素和矿石硫化物S-Pb同位素数据,结果表明热液方解石δ13CpDB值和δ18OSMOW值变化范围较窄,分别为-3.73‰~-1.95‰和+13.80‰~+14.95‰,在δ13 CPDB与δ18OSMOW图上介于海相碳酸盐岩和原生碳酸岩范围间,呈弱负相关趋势,表明成矿流体中的CO2主要由海相碳酸盐岩溶解作用形成,并存在慢源和有机CO2加入;硫化物δ34 SCDT值介于+13.35‰~+15.37‰,暗示成矿流体中的硫是海相硫酸盐岩热化学还原的产物,而含硫有机质热降解也有贡献;硫化物Pb同位素组成稳定,206 pb/204 Pb,207 pb/204 Pb和208 pb/204 Pb值范围,分别为18.129~18.375,15.644~15.686和38.220~38.577,位于上地壳和造山带Pb演化线之间,落入基底岩石(昆阳群和会理群)Pb同位素组成范围内,表明成矿物质具有壳源特征,主要由基底岩石提供.综合各类地质-地球化学信息,认为茂租铅锌矿床成矿流体中不同组分来源不同,具有“多来源混合”特征,其成矿机制可以用“流体混合”模式来解释. 相似文献
6.
《矿物岩石地球化学通报》2016,(1)
民稿铅锌矿床位于湘西北铅锌成矿带南西侧,处于花垣矿田与凤凰矿田之间,是近年来新发现的矿床。为探讨其成矿物质来源和矿床成因,本文在矿床地质特征研究的基础上,开展了硫、铅、碳、氧同位素研究。结果显示,3件方铅矿样品的δ~(34)S值为26.1‰~28.3‰;~(206)Pb/~(204)Pb值为18.05~18.29,~(207)Pb/~(204)Pb值为15.67~15.84,~(208)Pb/~(204)Pb值为38.23~38.24;3件成矿期方解石的δ~(13)C值为-4.78‰~-2.63‰,δ~(18)O值为21.4‰~21.8‰。结合区域研究成果认为,成矿硫源来自赋矿地层中海相硫酸盐TRS的产物;成矿铅源主要来自深部矿质,部分来自赋矿围岩;成矿流体中的碳来自赋矿围岩,成矿流体中含有地层水。综合分析认为,民稿铅锌矿床是扬子地台东南缘伸展拉张背景下,区域深大断裂活动引起的成矿作用的产物,矿床类型应为MVT型铅锌矿床,并建立了成矿模型。 相似文献
7.
冰洞山铅锌矿床是扬子地块北缘铅锌找矿的新突破。矿床主要形成于基底隆起部位的震旦系陡山沱组,矿体呈层状、似层状产于陡山沱组第四段白云岩角砾岩中,围岩蚀变很弱。矿石主要呈中粗粒晶质结构,充填于白云岩角砾岩间。金属矿物主要为闪锌矿、方铅矿等。与矿石共生的方解石流体包裹体分析表明流体均一温度为95~175℃,密度为0.897~1.117 g/cm3,估算成矿流体压力为25.4~32.5 MPa,计算相应的深度为1.24~1.43 km。矿石中硫化物的δ(34S)为13.03‰~33.72‰,其δ(34S)的顺序为:黄铁矿闪锌矿方铅矿;硫酸盐的δ(34S)为32.07‰~47.22‰,S来源于海相硫酸盐的还原。矿石硫化物的铅同位素组成为:N(206Pb)/N(204Pb)=17.660~18.093,N(207Pb)/N(204Pb)=15.457~15.694,N(208Pb)/N(204Pb)=37.444~38.288,成矿金属来源于震旦系-寒武系。矿石伴生碳酸盐矿物的δ(13CPDB)为-1.22‰~-0.31‰,成矿流体中的CO2为震旦系碳酸盐岩的溶解成因。冰洞山铅锌矿床成矿流体可能为起源于盖层沉积的中低温盆地卤水,伴随穹隆构造过程中,成矿流体向陡山沱组白云岩角砾岩运移并发生热液充填成矿,在成因上为MVT型铅锌矿床。 相似文献
8.
湘南宝山铅锌矿床硫、铅、碳、氧同位素特征及成矿物质来源 总被引:3,自引:1,他引:2
宝山铅锌矿床是湘南地区代表性矿床之一。宝山铅锌矿床的成矿作用与156~158 Ma的宝山花岗闪长斑岩密切相关。花岗闪长斑岩主要由古老地壳部分熔融而成。为确定成矿物质来源,文章系统研究了宝山铅锌矿床的硫、铅、碳、氧同位素组成特征。矿床中硫化物黄铁矿、闪锌矿、方铅矿的δ34S值呈狭窄的塔式分布,变化在-2.17‰~6.46‰之间,平均值为3.13‰。δ34S值总体表现为δ34S黄铁矿δ34S闪锌矿δ34S方铅矿,表明硫同位素分馏基本达到了平衡。矿石、花岗闪长斑岩和赋矿地层硫同位素对比研究表明,矿石中的硫主要由岩浆分异演化而来,岩浆中的硫主要来自古老地壳。矿石206Pb/204Pb、207Pb/204Pb和208Pb/204Pb比值分别为18.188~18.844、15.661~15.843和38.562~39.912,赋矿地层206Pb/204Pb、207Pb/204Pb和208Pb/204Pb比值分别为18.268~19.166、15.620~5.721和38.364~39.952。矿石铅同位素组成比地层中的更富放射性成因铅,矿石中部分铅来自宝山花岗闪长质岩浆,在成矿流体运移过程中有部分地层铅参与了成矿,岩浆中的铅主要来自古老地壳。热液方解石的碳、氧同位素组成介于岩浆和赋矿碳酸盐岩的碳、氧同位素之间,主要是由于岩浆流体和碳酸盐岩不同比例的水岩反应所致,测水组有机碳的加入造成了部分热液方解石δ13CPDB值偏低。 相似文献
9.
扬子陆块北缘马元铅锌矿床成矿物质来源探讨: 来自C、O、H、S、Pb、Sr同位素地球化学的证据 总被引:7,自引:3,他引:4
呈层状、似层状产于震旦系灯影组角砾状白云岩层间构造带中的马元铅锌矿床是近年来在扬子陆块北缘铅锌找矿的新突破。文章通过碳、氧、氢、硫、铅和锶同位素地球化学特征研究,探讨了成矿流体和成矿金属来源。研究结果表明:矿石中热液脉石矿物的δ13CPDB为-4.24‰~0.93‰,δ18OSMOW为15.92‰~23.24‰,表明成矿流体中的CO2为震旦系碳酸盐岩的溶解成因。矿石中硫化物的δ34S变化于12.94‰~19.4‰之间;硫酸盐矿物的δ34S为32.2‰~33.48‰,表明还原硫主要来自地层中海相硫酸盐的还原。矿石硫化物的铅同位素组成均一,206Pb/204Pb、207Pb/204Pb和208Pb/204Pb分别为17.62~18.02、15.49~15.63和37.57~38.35,成矿金属可能主要来源于震旦系—志留系。脉石矿物石英流体包裹体的δDFI为-92‰和-113‰,如果取成矿温度200℃,根据δ18O石英值计算的相应流体包裹体的δ18O水为6.03‰~12.73‰,推测成矿流体可能起源于大气降水为主的盆地卤水,或为其他来源的流体与有机质反应形成。成矿流体87Sr/86Sr为0.70967~0.71146,高于赋矿围岩震旦系灯影组白云岩锶同位素比值(0.70890~0.70945),表明成矿流体流经了古生代地层(及基底),并与其中具有高锶同位素比值的碎屑岩、页岩和泥岩等进行了水岩反应及同位素交换。 相似文献
10.
新疆西天山喇嘛萨依铜矿床地质和C、O、S、Pb同位素地球化学 总被引:1,自引:0,他引:1
喇嘛萨依铜矿是新疆西天山赛里木微地块内的一处典型铜矿床,关于其成因类型尚存争议。总结了该铜矿床的地质特征,测试围岩、脉石碳酸盐的C、O同位素和硫化物的S、Pb同位素组成,探讨其成因类型。研究表明,喇嘛萨依铜矿床具有后生矿床特征,发育矽卡岩化蚀变,脉石方解石的δ13C值变化范围为-1.04‰~-0.87‰,低于围岩灰岩的δ13C值(变化范围为3.51‰~5.47‰),δ18O值变化范围为9.33‰~9.61‰,明显低于正常的海相碳酸盐岩的O同位素(δ18O=20‰~26‰),C、O同位素组成反映喇嘛萨依铜矿成矿晚阶段流体来自岩浆水和地下水的混合水;硫化物的δ34S值主要变化范围为3.75‰~8.64‰,与区域上海西期斑岩的硫同位素组成(如达巴特斑岩铜钼矿床硫化物的δ34S变化范围为4.9‰~7.9‰)接近,反映硫来源于斑岩;黄铜矿的铅同位素为206Pb/204Pb=18.264~19.544,207Pb/204Pb=15.575~15.656,208Pb/204Pb=38.103~38.705,具有富含放射成因铅、两阶段异常铅特征,与区域上海西期斑岩(达巴特流纹斑岩)的铅同位素组成特征相似,反映成矿金属物质部分来源于斑岩。通过综合分析认为,喇嘛萨依铜矿是与斑岩有关的矽卡岩型矿床。 相似文献
11.
Zircon U/Pb and Pb/Pb geochronology of the Rastenberg granodiorite,South Bohemian Massif,Austria 总被引:3,自引:0,他引:3
Summary A combined zircon typology, zircon Pb-Pb evaporation, and conventional U-Pb study of the late- to post-tectonic Rastenberg granodiorite yields the following results: Typological investigations show two distinguishable zircon populations. Type l: subtype S24 ofPupin, colourless to slightly pink, clear to turbid, often with cores, few to abundant inclusions, long prismatic; type 2: subtype S4 ofPupin, colourless to reddish or slightly pink, clear to slightly turbid, no visible cores, abundant inclusions, tabular habit, short prismatic.At least 4 different zircon-forming events can be distinguished: Inherited cores with ages around 623±22Ma and single ages > 1206Ma from type 1 zircons imply the reworking of rocks derived from Cadomian and Proterozoic to Archean crust. Ages around 353±9Ma from type 1 zircons are interpreted as timing a first magma formation or the onset of a long-lasting magma-generating event during the Variscan plutonism in the South Bohemian pluton. The actual intrusion of the granodioritic magma into the middle crust took place around 338±2Ma (type 2 and rims of type 1 zircons).Only type 1 zircons are found as inclusions in large K-feldspar phenocrysts providing evidence that these phenocrysts have grown before the 338Ma event and may be as old as 353 Ma.[]
With 6 Figures 相似文献
Zirkon U/Pb und Pb/Pb Geochronologie des Rastenberger Granodiorits, südliche Böhmische Masse, Österreich
Zusammenfassung Zirkon-typologische Untersuchungen, Einzelzirkon Pb-Pb-Evaporations- und konventionelle U-Pb-Altersbestimmungen an Gesteinen des spät- bis postkinematischen Rastenberger Granodiorits geben folgende Resultate: Typologisch lassen sich zwei Zirkonpopulationen unterscheiden: Typ 1: S24 Subtyp vonPupin, farblos bis leicht rosa, klar bis getrübt, häufig mit Kernen, wenige bis viele Einschlüsse, lang prismatisch; Typ 2: S4 Subtyp vonPupin, farblos bis rötlich oder leicht rosa, klar bis leicht getrübt, keine sichtbaren Kerne, viele Einschlüsse, flachtafeliger Habitus, kurzprismatisch.Mindestens 4 unterschiedliche Altersgruppen lassen sich unterscheiden: Ererbte Kerne von Typ 1 Zirkonen mit Altern um 623±22Ma und einzelnen Altern > 1206Ma sprechen für die Aufarbeitung von Gesteinen, die von cadomischen und proterozoischen bis archaischen Gesteinen im Krustenbereich des Südböhmischen Plutons abstammen könnten. Alter um 353±9Ma von Typ 1 Zirkonen werden einer ersten magmatischen Phase oder dem Beginn der Krustenaufschmelzung im Zuge der Bildung der variszischen Plutonite zugeordnet. Die eigentliche Intrusion des Granodiorits um 338±2Ma wird mit Typ 2 und mit Randpartien von Typ 1 Zirkonen erfaßt.In den großen K-Feldspat-Phänokristallen finden sich nur Zirkone vom Typ 1. Dies deutet darauf hin, daß die Phänokristalle vor dem 338Ma Ereignis gebildet wurden, eventuell also bis 353Ma alt sein können.
With 6 Figures 相似文献
12.
Annie Vitrac-Michard Claude J. Allègre 《Contributions to Mineralogy and Petrology》1975,51(3):205-212
U-Pb ages for zircons of pyreneean gneisses and associated granites are comparable to whole rock Rb-Sr ages of 580, 320 m.y. and recent. Inherited radiogenic Pb in the granites limits the dating accuracy but points out an important contribution of crustal material in their formation. 相似文献
13.
Pb on groundwater particles,Door County,Wisconsin 总被引:4,自引:0,他引:4
N. C. Woo 《Environmental Geology》1994,24(2):150-156
Pb was detected on groundwater particles larger than 0.45m. Pb concentration (micrograms per liter) showed positive correlations with particle concentration (milligrams per liter) at five sampled wells, although the slopes of the best-fit lines were different. X-ray fluorescence scans suggested that the particles primarily consist of K-Al silicate minerals, and that Pb is absorbed onto Fe oxyhydroxide coatings on Mg-rich silicates. Particle compositions varied at wells, but remained consistent at each well through the sampling period of a month. The particulate nature of Pb in groundwater could cause the spatial and temporal variations due to: (1) the unique composition of particles at wells, (2) the irregular pathways for groundwater particles, (3) the unpredictable amount of Pb-carrying particles entering the groundwater system during recharge events, and (4) the irregular sampling of groundwater particles subsequently dispersed along the advective flow path. 相似文献
14.
E.Bruce Watson T.Mark Harrison F.James Ryerson 《Geochimica et cosmochimica acta》1985,49(8):1813-1823
Diffusion coefficients for Sm, Sr, and Pb in fluorapatite at 900°–1250°C were obtained by measuring experimentally-induced diffusional uptake profiles of these elements in the margins of gem-quality apatite crystals. The crystals were immersed in synthetic melts enriched in the trace elements of interest and presaturated in apatite, and the resulting diffusion gradients were characterized by electron microprobe analysis. Except in the case of Pb, the diffusivities define good Arrhenius lines for the respective elements: DSm = 2.3 × 10?6exp(?52,200/RT) DSr = 412 exp(?100,000/RT). (Diffusion perpendicular to and parallel to c is measurably different in the case of Sr; the Arrhenius equation given above is an average for the two directions). Results on Pb were erratic, probably because extremely Pb-rich melts were used for some of the experiments. Data believed to be reliable define the following Arrhenius line: DPb = 0.035 exp(?70,000/RT). Constraints based on closure of natural apatites with respect to Pb suggest that the experimental data can be extrapolated, with sizeable uncertainty, to temperatures as low as 550°C.When applied to the question of isotopic and trace-element equilibration of residual or entrained apatites with crustal melts, the measured diffusivities indicate that 0.05-cm crystals will rarely preserve the original Pb-isotope characteristics of the source; the same is not true, however, of Sr (and, under some conditions, the REE), which may be unaffected at crystal cores during typical melting events. 相似文献
15.
The Emarat deposit, with a total proved reserve of 10 Mt ore grading 6% Zn and 2.26% Pb, is one of the largest Zn–Pb deposits in the Malayer–Esfahan belt. The mineralization is stratabound and restricted to Early Cretaceous limestones and dolomites. The ore consists mainly of sphalerite and galena with small amounts of pyrite, chalcopyrite, calcite, quartz, and dolomite. Textural evidence shows that the ore has replaced the host rocks and thus is epigenetic.Sulfur isotopes indicate that the sulfur in sphalerite and galena has been derived from Cretaceous seawater through thermochemical sulfate reduction. Sulfur isotope compositions of four apparently coprecipitated sphalerite–galena pairs suggest their precipitation was under equilibrium conditions. The sulfur isotopic fractionation observed for the sphalerite–galena pairs corresponds to formation temperatures between 77 °C and 168 °C, which agree with homogenization temperatures of fluid inclusions.Lead-isotope studies indicate that the lead in galena has been derived from heterogeneous sources including orogenic and crustal reservoirs with high 238U/204Pb and 232Th/204Pb ratios. Ages derived from the Pb-isotope model give meaningless ages, ranging from Early Carboniferous to future. It is probable that the Pb-isotope model ages that point to an earlier origin than the Early Cretaceous host rocks are derived from older reservoirs in the underlying Carboniferous or Jurassic units, either from the host rocks or from earlier-formed ore deposits within these units.This research and other available data show that the Emarat Zn–Pb deposit has many important features of Mississippi Valley-type (MVT) lead–zinc deposits and thus we argue that it is an MVT-type ore deposit. 相似文献
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Terrestrial geochemistry of Cd,Bi, Tl,Pb, Zn and Rb 总被引:1,自引:0,他引:1
About 2000 common magmatic, metamorphic and sedimentary rocks and rockforming minerals contained in 465 individual samples have been analyzed for 6 trace metals and potassium with high precision, mainly by combined distillation and AAS methods. Estimates of average abundances in the continental crust are: 98 ppb Cd. 82 ppb Bi. 490 ppb Tl, 14.8 ppm Pb, 77 ppm Zn and 98 ppm Rb (K/Rb: 223). These averages are close to the mean concentrations of the 6 elements in sedimentary and in low to medium grade metamorphic rocks. In relation to the upper mantle the earth's crust has very effectively accumulated Rb, Pb, Tl (and Bi). Cd and Zn are equally distributed between the upper and lower crust. Bi, Tl, Rb, Pb and K are accumulated in the upper relative to the lower continental crust by factors between 3.5 and 1.4. This is mainly due to higher concentrations in granites and lower abundances in granulites relative to gneisses and schists. The five metals form large ions with bulk coefficients less than one for the partition between metamorphic rocks and anatectic granitic melts. The major hosts of Rb, Tl, Pb and Bi in rocks are minerals with 8- to 12-coordinated sites such as mica, K-feldspar, plagioclase etc. (except for some preference of Bi for sphene and apatite). As examples of significant correlations those of Pb with Tl, K, Bi and Rb in mafic rocks and of Bi with K, Rb, Tl and Pb in sedimentary rocks can be reported. In granites and gneisses hydroxyl containing Fe2+-Mg-silicates are major host minerals for Zn and Cd. Except in some carbonate rocks Cd has no preference for Ca minerals. 相似文献
18.
河南箕山登封群单颗粒锆石^207Pb/^206Pb同位素年代研究 总被引:5,自引:0,他引:5
本文对河南箕山登封群老袋窑组变流纹斑岩进行了单颗粒锆石^207Pb/^206Pb同位素年龄测定。研究表明锆石属典型的岩浆结晶产物,其年龄值为2501.94±0.70Ma,它与登封群下部火山岩的Sm-Nd年龄(2514±42Ma)非常接近,这说明箕山地区登封群火山作用时限很短(10Ma±),是一套完整的花岗-绿岩建造,和嵩山地区登封群属同一期构造-岩浆活动的产物,并不能划分出早元古代岩石建造。 相似文献
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20.
《International Geology Review》2012,54(4):424-440
AbstractA newly discovered, shoshonitic lava-hosted Pb deposit at Nariniya in central Tibet provides an excellent example to help improve our understanding of the linkage between post-collisional potassic magmatism and ore formation in Tibet. The Pb ores exist as veins or veinlets in NWW-striking fracture zones within the potassic lava (trachyte). The veins contain quartz, galena, pyrite, and sericite (muscovite) as well as minor chalcopyrite, sphalerite, calcite, and dolomite with sericitization, pyritization, and minor silicification. The 40Ar–39Ar plateau age of the hydrothermal muscovite is 37.95 ± 0.30 Ma, which represents the Pb mineralization age. This obtained age is indistinguishable, within analytical error, from the zircon U–Pb age of 37.88 ± 0.22 Ma for potassic lava. Therefore, the ore formation can be genetically linked to potassic magmatism. Galena has similar Pb isotopic composition to magmatic feldspar from the host lava, suggesting the derivation of Pb from the magmatic system. Previous studies have suggested that S- and ore-forming fluids are of magmatic origin. Published data show that the Nariniya volcanic rocks are acidic, shoshonitic, akakitic, peraluminous, and enriched in Sr–Nd–Pb isotopes. Thus, they are geochemically different from other potassic volcanic rocks (no adakitic affinity) in the North Qiangtang terrane, but similar to the 46–38 Ma high-K calc-alkaline peraluminous adakitic rocks in this terrane and the late Eocene Cu-generating potassic porphyries from the Sanjiang region of eastern Tibet. As such, the Nariniya potassic magma likely originated from melting of subducted continental crust, with or without interaction with the overlying enriched mantle. Such post-collisional potassic rocks in Tibet are thought to be potential targets for prospecting of both Pb–Zn and porphyry Cu ores. Note that other ore styles (in addition to the Nariniya ore style) may exist in the potassic volcanic districts of Tibet. 相似文献