甘肃安家岔金矿床铅同位素地球化学研究

通过对安家岔金矿床铅同位素地球化学特征研究及其与邻区地层、岩浆岩和有关矿床铅同位素的对比结果表明：（１）本矿床石铅是一种以高放射成因为主的混合型铅，且明显表现出有大气降水参与热液成矿的铅同位素地球化学特征，反映本矿床属于沉积－强烈改造型金矿床；（２）本矿床成矿物质的直接来源主要为志留系；（３）本区的金矿成矿作用和主要与志留系重熔有关的岩浆岩的关系最为密切，因此，在志留系展布区内，Ｉ类岩浆岩密集出现     

滇黔桂微细浸染型金矿铅同位素组成及应用

滇黔桂微细浸染型金矿铅同位素组成及应用＊刘显凡刘家军朱赖民（中国科学院地球化学研究所，贵阳５５０００２）卢秋霞（成都理工学院，成都６１００５９）关键词微细浸染型金矿铅同位素组成矿质来源上地幔分异混染滇黔桂１矿床地质背景研究区位于扬子地台西南缘与华南加...     

芳畈-青山口矿带铜、铅、重晶石矿床成因探讨

芳畈-青山口矿带是产出在鄂北中深变质岩区的一条铜、铅、重晶石矿带.文章依据岩石地球化学分析结果的统计分析和硫、氧同位素测定结果,讨论了矿带内矿床的矿质来源、水源、热源等3个矿床成因问题,认为矿带内不同地段不同矿种的矿床属"三源"不同的热液矿床.     

论接触交代矽卡岩型多金属矿床的矿质来源—以铅同位素组成为依据

本文以铅同位素组成为线索，讨论了与中酸性侵入岩有关的接触交代矽卡岩型铜铅锌多金属矿床的矿质来源，得出了该类矿床矿质的岩浆源、岩浆与围岩混合源及多源混合源三种来源。     

个旧锡多金属硫化物矿床铅同位素组成特征及其成因意义

主要研究了个旧锡多金属硫化物矿床的矽卡岩型和层间硫化物型两类矿床。矽卡岩型矿床铅同位素组成与矿区花岗岩铅一致。层问硫化物型矿床铅同位素在同位素比值图上的投点比较分散，2／3投点较集中且与矿区花岗岩铅一致，另有部分硫化物型与矿区印支期火山岩一致，位于铅演化线的上地幔区域，其他少部分投点位于铅演化线的上地壳区域，因受到地层铅的加入而明显高于花岗岩铅。铅同位素组成特征表明，矽卡岩型矿床的形成与燕山期花岗岩直接相关，其矿质主要来源于花岗岩，较少部分源于地层；层间硫化物型矿床的矿质部分来源印支期的热水沉积作用，少部分来源于地层，并受到燕山期花岗岩的岩浆热液叠加改造。个旧超大型锡矿床的形成是多种成矿作用叠加的结果。     

内蒙古霍各乞铜铅锌矿床的铅同位素组成及其铅的来源研究

位于内蒙古狼山北侧的霍各乞层状铜、铅锌、铁矿床产于中元古界狼山群变质岩中,许多学者对该矿床进行了研究,但在矿床成因的认识上还存在争议,沉积变质改造、海底喷流沉积、岩浆叠加等成因观点相持不下。本文引入区域古元古代—太古宙基底、矿区各种沉积变质岩和火山岩、新元古代及海西期岩浆岩的铅同位素组成,与矿石铅同位素组成对比,以确定矿石铅的来源。研究结果表明:1矿石中硫化物的铅同位素组成均一;2区域古元古代-太古宙基底岩石的铅同位素组成具有地球早期老铅的特点,同位素组成具有较大的变化范围,与矿石的铅同位素组成存在巨大的差…     

P点铅及其应用意义

在铅同位素研究中，异常铅是经常遇到并难于解释的问题。在一个矿区或矿带范围内，某些矿床的铅同位素资料中往往显示存在两种类型的铅：具有单阶段演化历史的正常铅和具有两个(或多个)阶段演化历史的异常铅。在常规的铅同位素组成图解上，这两种铅的数据点有时构成异常铅等时线，正常铅则位于等时线上含放射性成因铅最低的位置处。如果这种正常铅能给出合理的矿化年龄，并且该年龄与容矿围岩的成岩年龄基本一致，但显著老于异常铅瞬间增长模式年龄，那么，这种正常铅可能是异常铅等时线的起点，笔者称其为P点铅。显然，异常铅是后期放射性成因铅加入到P点铅形成的，P点铅的模式年龄为异常铅来源区的年龄：利用P点铅及异常铅等时线的资料，可以计算获得异常铅的矿化年龄。因此，P点铅这个概念的提出，为探讨矿化年龄问题开辟了一条新途径。文章还以加拿大和北欧地区某些矿床的铅同位素资料为例，讨论了在实际成矿过程中是否有P点铅存在的问题，讨论了P点铅在矿床成因研究中的重要意义。并给出了如何判断P点铅的具体条件。     

湘黔边境铅锌矿带硫铅同位素组成特征

本文从地球化学硫、铅同位素组成角度出发,对湘黔边境铅锌矿带的成矿时代、成矿温度、物质来源及矿床成因进行探讨。该矿带铅锌矿床属沉积—改造型矿床,成矿金属物质来源于地幔,矿质硫来源于矿层上覆中上寒武统海相蒸发白云岩中的膏盐;成矿温度为中—低温(135—200℃);成矿时代主要是加里东期,加里东早期形成矿源层,晚期溶解、活化、混合、改造矿源层形成矿床。该矿带属加拿大派纳派因特式铅锌矿,是寻找以锌为主的铅锌矿很有前景的地区。     

热液矿床石英铅同位素组成及其地质意义

作者以若尔盖铀矿床为例，研究了含矿热液形成的石英脉石英的铅同位素组成，并将其作为联系母源铅同位素组成的桥梁，判别铀的来源。结果表明，矿床中石英铅同位素组成与含矿黄铁矿和中酸性构造－岩浆成因的花岗岩铅同位素组成具线性演化关系。由此提出含矿热液中的铀来自中酸性构造－岩浆岩而不是地层岩石的新见解，同时提出利用热液石英铅同位素组成判别非放射性矿床成矿元素来源的可能性。     

西成铅锌矿田硫,铅同位素地球化学研究

本文系统地介绍了西成铅锌矿田内地层、岩体和矿石的硫、铅同位素地球化学特征,结果表明铅锌矿床的成矿物质来自于区域基底地层,而不是泥盆纪地层,但泥盆纪地层对成矿具有时控和层控意义.同时,硫、铅同位素可用于划分矿床成因类型.     

云南兰坪盆地西缘脉状铜多金属矿床硫、铅同位素组成及成矿示踪

云南兰坪盆地西缘脉状铜多金属矿床主要赋存于由砂岩、粉砂岩和页岩组成的碎屑岩建造中.为了查明兰坪盆地西缘脉状铜多金属矿床成矿物质来源,对盆地西缘四个典型脉状铜多金属矿床(科登涧、连城、金满和水泄)的硫、铅同位素的组成进行了分析和对比研究.结果表明,这些矿床的铅同位素组成总体变化较小,且大部分落在盆地沉积地层铅范围内,金满、连城铜矿床可能有部分深源铅的加入.硫同位素特征表明,兰坪盆地西缘脉状铜多金属矿床的硫主要来源于地层硫酸盐的还原作用,其中金满铜矿床和连城铜钼多金属矿床可能有深源硫的混入.各矿床硫同位素不同的特点,除反映各矿床源区硫同位素组成的差异外,可能还与各矿床成矿时不同的物理化学条件(温度、氧逸度、pH 值和离子强度等)差异有关     

Lead Isotopic Composition and Lead Source of the Huogeqi Cu-Pb-Zn Deposit, Inner Mongolia, China

The Huogeqi orefield located on the northern side of Mt. Langshan, Inner Mongolia occurs in the Middle Proterozoic Langshan Group metamorphic rocks, and the orebodies arc stratiform. In the past twenty years, many Chinese geologists have conducted researches on the Huogeqi Cu-Pb-Zn deposit, but there has been still a controversy on its origin. Some advocate that the deposit is of sedimentary-metamorphic rcworking origin, some hold that it is of sea-floor SEDEX origin, and others have a preference for magmatic superimposition origin. The crux of the controversy is that there is no common understanding about the source of ore-forming materials. In this paper, the Pb isotopic compositions of regional Achaean-Early Proterozoic basement rocks, various types of sedimentary- metamorphic rocks and volcanic rocks in the mining district, Late Proterozoic and Hercynian magmatic rocks arc introduced and compared with the orc-lead composition, so as to constrain the source of the ore lead. The result indicates that （1） sulfides in the ores have homogeneous Pb isotopic compositions, showing a narrow variation range. Their ^206pb/^204pb ratios arc within a range of 17.027- 17.317; ^207Pb/^204pb ratios, 15.451-15.786 and ^208Pb/^204pb ratios, 36.747-37.669; （2） the Pb isotopic compositions of the regional Achaean-Early Proterozoic basement rocks arc characteristic of the old Pb isotopic composition at the early-stage evolution of the Earth, which varies over a wider range, reflecting significant differences in Pb isotopic compositions of the ores. All this indicates that the source of ore lead has no bearing on the basement rocks; （3） the sedimentary-metamorphic rocks in the mining district arc characterized by highly variable and more radiogenic Pb isotopic compositions and their Pb isotopic ratios arc obviously higher than those of ores, demonstrating that ore lead did not result from metamorphic rcworking of these rocks; （4） Pb isotopic compositions of Late Proterozoic diorite-gabbro and Hercynian granite are higher than those of ores. Meanwhile, the Pb isotopic compositions of sulfides in the small-sized strata-penetrating mineralized veinlets formed at later stages arc completely consistent with that of sulfides in stratiform-banded ores, suggesting that these veiniets arc the product of autochthonous rcworking of the stratiform-banded ores during the period of metamorphism and the late magmatic superimposition-mineralization can be excluded; （5） amphibolite, whose protolith is basic volcanic rocks, has the same Pb isotopic compositions as ores, implying that ore lead was derived probably from basic volcanism. So, the source of ore-forming materials for the Huogeqi deposit is like that of the volcanic massive sulfide （VMS） deposits. However, the orebodies do not occur directly within the volcanic rocks, and instead they overlie the volcanic rocks, showing some differences from those typical VMS-type deposits.     

中国SEDEX型矿床成矿流体硼、硅、氦-氩同位素组成研究评述

SEDEX型矿床成矿流体的研究是矿床地球化学研究的重要课题之一。正确识别系统中不同的流体来源及其混合过程,是深刻理解SEDEX型矿床形成演化的关键。系统总结了国内几个典型的SEDEX型矿床同位素研究成果,认为B和Si同位素是根据SEDEX型矿床独特的矿物组合而提出的一种示踪方法,对矿床成因和沉积环境示踪效果理想;He、Ar同位素则因为在地壳和地幔储库中有极不相同的组成,是理想的幔源流体示踪剂。鉴于SEDEX型矿床含有电气石、黄铁矿、硅质岩等特殊的矿物与岩石组合,B、Si、He-Ar同位素可能更适合SEDEX型矿床矿化流体来源研究,并指出其理论发展的薄弱之处。     

会泽铅锌矿床Pb、Zn成矿物质来源探讨

长期以来,有关会泽铅锌矿床的Pb、Zn成矿物质来源问题存在较大的争论。作者从成矿金属元素地球化学特征、Sr和Pb同位素组成特征出发,全面阐述了会泽铅锌矿床的Pb、Zn成矿物质来源。指出：成矿金属则是来自多方面的,它不仅来源于从震旦系到二叠系碳酸盐岩地层,而且来源于基底岩石（如昆阳群）和峨眉山玄武岩。因此,成矿物质具有多源性。     

西藏甲玛铜多金属矿床S、Pb、H、O同位素特征及其指示意义

西藏甲玛铜多金属矿床是中国近年来发现的特大型铜铅锌多金属矿床之一,其产出的环境和形成机理为国内外矿床学家所关注。对甲玛铜多金属矿床中代表性岩（矿）石样品进行了S、Pb、H和O同位素分析,并从成矿系统中“源”的角度对其变化规律和成因意义进行了探讨。研究结果表明,甲玛铜多金属矿床的围岩和矿石中δ34S值变化于-4.9‰～0.5‰,在硫同位素直方图上呈塔式分布,成矿热液δ34SΣS在0值附近,与矿区内斑岩体的δ34S组成（-0.2‰～-0.7‰）十分接近。表明了矿石中硫的来源单一,主要来源于岩浆。矿石铅同位素变化范围较大,明显分为两组：第一组样品富放射性成因铅,其206Pb/204Pb变化范围为18.603～18.752,207Pb/204Pb变化范围为15.610～15.686,208Pb/204Pb变化范围为38.910～39.135;第二组样品具有低放射性成因铅特征,其206Pb/204Pb变化范围为18.130～18.270,207Pb/204Pb变化范围为15.470～15.480,208Pb/204Pb变化范围为38.140～38.850。各同位素比值相对稳定,变化范围较小。将含矿斑岩的岩石铅与矿石铅进行综合投图,两种类型的铅并非单阶段正常铅,而是混合铅,有放射性成因铅的加入。可能存在不同的源区或在演化过程中有不同源区物质的混入。氢氧同位素研究结果显示,氢同位素的来源主要为深部的花岗岩体,而氧同位素由于后期大气降水增多、水/岩比值升高,导致含矿石英脉中δ18OH2O降低。因此推断甲玛铜多金属矿床成矿流体早期以深源流体为主,随着成矿过程的演化,大气降水所占的比例也越来越大。     

塔里木盆地西北缘乌恰地区乌拉根铅锌矿床 S-Pb同位素特征及其地质意义

乌拉根铅锌矿床产出于塔里木盆地西北缘喀什凹陷中—新生界中,成矿地质条件优越,资源潜力可观,具有超大型矿床找矿远景,但其成因一直存在较大争议。本次对乌拉根铅锌矿进行了详细的S、Pb同位素研究,探讨了其成矿物质来源和矿床成因。测试分析结果表明,乌拉根铅锌矿床矿石δ34S值为-26.09‰~+15.0‰,具有较宽的分布范围,显示出轻硫与重硫同时富集的特征,指示乌拉根铅锌矿床S主要来自海相硫酸盐的还原。乌拉根铅锌矿的206Pb/204Pb值为17.771～18.6413,207Pb/204Pb值为15.402～15.6454,208Pb/204Pb值为37.92～38.7507,Pb同位素组成变化较小,且集中于造山带铅演化线附近,推测本矿区Pb可能来自区域内的古老地层。综合前人研究和本次S、Pb同位素分析结果,认为乌拉根铅锌矿床是在南天山和西昆仑山两大造山带相互逆冲推覆背景下,盆地流体大规模运移,在油气还原条件下形成的一类赋存于沉积岩中的铅锌矿床。     

塔里木盆地西北缘乌恰地区乌拉根铅锌矿床S-Pb同位素特征及其地质意义

乌拉根铅锌矿床产出于塔里木盆地西北缘喀什凹陷中—新生界中,成矿地质条件优越,资源潜力可观,具有超大型矿床找矿远景,但其成因一直存在较大争议。本次对乌拉根铅锌矿进行了详细的S、Pb同位素研究,探讨了其成矿物质来源和矿床成因。测试分析结果表明,乌拉根铅锌矿床矿石δ34S值为-26.09‰~＋15.0‰,具有较宽的分布范围,显示出轻硫与重硫同时富集的特征,指示乌拉根铅锌矿床S主要来自海相硫酸盐的还原。乌拉根铅锌矿的206Pb/204Pb值为17.771～18.6413,207Pb/204Pb值为15.402～15.6454,208Pb/204Pb值为37.92～38.7507,Pb同位素组成变化较小,且集中于造山带铅演化线附近,推测本矿区Pb可能来自区域内的古老地层。综合前人研究和本次S、Pb同位素分析结果,认为乌拉根铅锌矿床是在南天山和西昆仑山两大造山带相互逆冲推覆背景下,盆地流体大规模运移,在油气还原条件下形成的一类赋存于沉积岩中的铅锌矿床。     

金顶超大型铅锌矿床的成矿金属来源——来自铅同位素组成的制约

金顶矿床是世界著名的超大型铅锌矿床,其巨量的金属堆积引起许多学者对成矿金属来源的关注。前人通过铅同位素示踪研究,提出了成矿金属来自地幔、上地壳、下地壳及不同端员混合等不同认识。理论分析表明,这些观点认识的差异可能源于不同作者分析铅同位素数据存在测试误差。基于此,笔者在金顶矿床选择了7个代表性硫化物样品,再次进行了铅同位素分析。结果显示,矿床铅同位素组成为~(206)Pb/~(204)Pb=18.3945~18.4429、~(207)Pb/~(204)Pb=15.6412~15.6583、~(208)Pb/~(204)Pb=38.6266~38.6772,在铅同位素演化模式图解(Zartman et al.,1979)中数据点分布集中,处于"造山带"和"上地壳"演化曲线之间,未显示出明显的线性分布特点,表明金顶矿床成矿金属来源主要为壳源;区域对比表明,金顶矿床明显比白秧坪矿带铅锌矿床贫放射性成因铅,而与区域VMS型矿床铅同位素组成更为接近,这表明金顶矿床与白秧坪矿带矿床有着不同的金属物源区,其金属可能来自盆地底部晚三叠世火山岩或其内早期的VMS矿化。     

Lead sources in Mesozoic and Cenozoic Andean ore deposits,north-central Chile (30–34°S)

Mesozoic and Cenozoic ore deposits in the Chilean Andes between La Serena (~30°S) and Santiago (~34°S) include polymetallic vein, low- and high-sulfidation epithermal vein, skarn, porphyry copper-molybdenum and porphyry copper-gold. These deposits are associated with volcanic and plutonic complexes emplaced in eastward-migrating longitudinal arcs which formed during subduction along the continental margin of South America since the Middle Jurassic. Stratabound, but epigenetic, volcanic rock- and sedimentary rock-hosted manto deposits contain additional copper resources. Lead isotopic compositions in ore minerals from 29 deposits vary with age and geographic location, and hence with basement and host rocks. Lead in most ore deposits is derived from temporally related igneous rocks, except for the manto deposits whose lead is derived from host volcanic and sedimentary rock sequences. Lead in the ore deposits is dominated by two crustal sources. Low ²⁰⁷Pb/²⁰⁴Pb characterizes one source whereas high ²⁰⁷Pb/²⁰⁴Pb characterizes the second source. Lead isotopic compositions of Jurassic and Miocene ore minerals (²⁰⁶Pb/²⁰⁴Pb>18.50; ²⁰⁷Pb/²⁰⁴Pb>15.61) lie along the average crustal growth curve. By contrast, most Cretaceous deposits have ore minerals with lower ²⁰⁶Pb/²⁰⁴Pb (<18.39) and ²⁰⁷Pb/²⁰⁴Pb (<15.58) than Jurassic ore minerals. The shift in lead isotopic composition to lower lead isotopic values precludes derivation of lead from a source of similar composition to those in the Jurassic or Tertiary deposits. For Cretaceous deposits, polymetallic and low-sulfidation epithermal veins and a skarn have lower ²⁰⁶Pb/²⁰⁴Pb than a porphyry copper-gold system and peripheral gold veins at Andacollo (18.43-18.50). Late Cretaceous veins from the Bellavista deposit have the lowest ²⁰⁶Pb/²⁰⁴Pb (18.33) of all deposits. Ore minerals in Miocene and Pliocene porphyry copper-molybdenum deposits have higher ²⁰⁶Pb/²⁰⁴Pb (18.58-18.67) than Cretaceous deposits, consistent with their age being younger. The Miocene and Pliocene ore minerals also have higher ²⁰⁷Pb/²⁰⁴Pb (15.58-15.66) than Cretaceous ore minerals, thereby requiring an additional input from the high-²⁰⁷Pb/²⁰⁴Pb source into the younger deposits. Miocene auriferous deposits in the north have similar ²⁰⁶Pb/²⁰⁴Pb values as the Miocene and Pliocene porphyry copper-molybdenum deposits in the south, but they are distinguished by higher and variable ²⁰⁷Pb/²⁰⁴Pb (15.61-15.66) and ²⁰⁸Pb/²⁰⁴Pb (38.54-39.01), which are arrayed along steep mixing trends. These ore minerals have the largest input of high-²⁰⁷Pb/²⁰⁴Pb material in the deposits studied. By contrast, lead in the epigenetic manto deposits appears to be derived from the host volcanic or sedimentary rock-dominated sequences, and locally exhibits large-scale isotopic heterogeneity within a deposit. Overall, the lead isotopic compositions of ore minerals mimic the values and variations established in age-equivalent rock sequences. The low-²⁰⁷Pb/²⁰⁴Pb material in the deposits is derived from Cretaceous igneous rocks or their sources as they evolved with time; low ²⁰⁷Pb/²⁰⁴Pb characterizes these rocks. By contrast, high-²⁰⁷Pb/²⁰⁴Pb material is likely derived from Carboniferous to Triassic igneous rocks or their sources, as this lead isotopic characteristic dominates these rocks.     

A study on Pb isotopic characteristics of raw bauxite in western Guangxi, China

The Pb isotopic composition of ores is one of the important approaches to trace the ore sources.It has not yet been applied to research on bauxite ore so far.The current research on bauxite deposits in western Guangxi,China,seldom focuses on raw bauxite and studies on raw bauxite are mostly at macro-level.This study is the first to apply Pb isotope data to tracing bauxite ore sources.The Pb isotopic compositions of ore and rock samples from the Nadou and Taiping mining districts are projected on the Doe and Zartman plumbotectonic models and the results showed that the ore resources are different for the two mines.