湘西黔东地区铅锌矿床C、O同位素地球化学特征及其对成矿过程的指示

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。     

黔西南灰家堡金矿田热液方解石稀土元素与C-O-Sr同位素地球化学特征

为探讨灰家堡金矿田矿化剂和成矿物质来源,系统开展了热液方解石的稀土元素和C-O-Sr同位素研究。结果表明,热液方解石的稀土元素具有"上凸型"配分模式,低的(La/Sm)N值(0.003~0.580),较高的(Gd/Yb)_N值(1.21~15.73),Eu正异常,显示成矿流体的壳源特征;产于龙潭组(P3l)的矿体中的方解石δ13CPDB为-9.3‰~1.7‰(均值为-3.93‰);产于构造蚀变体(SBT)的矿体中的方解石δ¹³CPDB为-7.8‰~3.3‰(均值为1.04‰),C-O同位素组成介于地幔碳酸岩与海相碳酸盐岩之间,在δ¹³CPDB-δ¹⁸OSMOW图解上呈近水平分布,与矿体全岩及围岩碳同位素组成相似,表明成矿流体的C可能具有多来源特征。成矿流体与围岩之间的水-岩反应并未改变矿石的碳、氧同位素组成,流体-岩石相互作用不是导致热液方解石沉淀的主要机制,而更可能与CO₂的脱气作用有关;方解石的⁸⁷Sr/⁸⁶Sr值接近碳酸盐岩围岩、明显高于幔源物质的平均值,表明成矿热液中的Sr可能主要来自碳酸盐岩围岩。     

湖南香花岭锡多金属矿床C、O、Sr同位素地球化学

对湖南香花岭锡多金属矿床成矿早、晚两期方解石进行了系统的C、O、Sr同位素研究。结果表明,成矿早期方解石具有相对较低的δ13CPDB（-5.4‰ ~ -1.4‰）、δ18OSMOW（+6.1‰ ~ +13.9‰）和较高的87Sr/86Sr值（0.7101 ~ 0.7230）;而成矿晚期方解石则具有相对较高的δ13CPDB（+0.2‰ ~ +0.6‰）、δ18OSMOW（+19.4‰ ~ +21.5‰）和较低的87Sr/86Sr值（0.7101）。成矿早期方解石为岩浆热液与海相碳酸盐岩相互作用的产物,成矿流体中的碳源于岩浆碳和海相碳酸盐岩;模拟计算结果显示,成矿早期方解石为成矿溶液发生0.05-0.1摩尔分数的 CO2去气作用的产物。而成矿晚期方解石主要为矿区碳酸盐岩围岩低温淋滤的产物,流体中的碳主要源于矿区碳酸盐岩围岩。成矿流体中Sr源于矿区花岗岩和碳酸盐岩,从成矿早期到晚期,岩浆来源的Sr逐渐减少,而碳酸盐岩围岩提供的Sr比例不断增大。     

遵义黄家湾Ni-Mo多金属矿床成矿流体特征:来自方解石流体包裹体、REE和C、O同位素证据

黄家湾矿床是近几年在贵州遵义地区寒武系底部黑色页岩中新发现的以Ni-Mo为主的多元素矿床,本文首次对该矿床成矿阶段方解石的流体包裹体、REE和C、O同位素组成特征进行了系统研究.研究结果显示:(1)该矿床成矿阶段方解石中含有3种类型的流体包裹体:富液相气液两相水溶液包裹体;富气相气液两相水溶液包裹体;纯液相包裹体.它们的气相分数变化较大,显示成矿过程中可能发生过沸腾作用.流体包裹体的显微测温结果显示,成矿流体的冰点温度为-11.6～-5.5℃,流体盐度变化范围为8.55％ ～ 15.57％ NaCleqv,均一温度为109.0 ～ 181.8℃,对应流体密度为0.97 ～ 1.44g·cm-3;(2)遵义黄家湾钼-镍多金属矿床中与成矿期有关的方解石的稀土总量高且变化范围宽(39.9×10-6～ 275×10-6),配分曲线为轻稀土富集((La/Yb)N=29.6 ～63.3)的右倾型,且铕正异常明显(Eu/Eu*为2.14～14.8),与现代海底热液矿床中方解石的稀土特征类似;(3)同位素测定显示成矿流体的碳氧同位素组成分别为δ13C V-PDB=-6.3‰～-5.7‰,δ18OV-SMOW=15.6‰ ～16.0‰,计算得到流体水的δ18OV-SMOW-H2O‰平均值变化于-0.97‰～ +5.16‰之间.上述综合研究表明:黄家湾Ni-Mo多金属矿床成矿流体主要为海水和地层中的建造水(盆地热卤水),同时由海水演化来的海底热液也参与了成矿过程.成矿流体中的碳可能由深源碳与海相碳酸盐岩共同提供.     

湘西花垣地区铅锌矿床C、H、O同位素特征及其对成矿流体来源的指示

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。     

黔西北典型铅锌矿床碳-氧同位素地球化学研究

黔西北铅锌成矿区内广泛发育中-小型铅锌矿床,这些矿床的分布严格受到区域性构造的控制,特别是北西向构造。本文以产于不同构造中典型矿床为代表,在分析和收集热液方解石、蚀变围岩和远矿围岩C-O同位素组成基础上,探讨成矿流体中CO2可能的来源。结果显示,热液方解石C-O同位素组成介于海相碳酸盐岩和地幔C-O同位素组成之间,更靠近海相碳酸盐岩,同时热液方解石C和O同位素组成间略呈负相关关系,表明成矿流体中的CO2来源比较复杂,可能地幔、沉积物有机质和海相碳酸盐岩都有贡献。不同矿床间热液方解石C-O同位素组成略有差别,可能与热液流体与不同矿床围岩间C-O同位素交换程度不同或各端元参与程度不同有关。本文分析显示系统的C-O同位素地球化学研究有望揭示成矿流体演化过程或约束不同端元贡献比例。     

云南会泽超大型铅锌矿床C、O同位素地球化学

云南会泽超大型铅锌矿床规模大、品位富、伴生有用元素多,预示其成矿环境较为特殊。本文分析该矿床矿石中脉石矿物方解石和赋矿碳酸盐地层的C、O同位素组成,结果表明矿石中脉石矿物方解石的C、O同位素组成相对均一,不同矿体(不同标高)、不同产状以及相同矿体不同产状方解石的C、O同位素组成不具明显差别,其δ13CPDB值和δ18OSMOW值分别为-2.1‰～-3.5‰(均值-2.8‰)和16.7‰～18.6‰(均值17.7‰),在δ13CPDB-δ18OSMOW图上集中于岩浆碳酸岩与海相碳酸盐岩之间的狭小范围内。多方面的证据表明:矿床成矿流体为壳-幔混合流体,其中壳源组分可能主要由矿区(或区域)碳酸盐地层提供,而幔源组分则可能与区域大面积峨眉山玄武岩岩浆活动过程中的去气作用有关。     

湖北徐家山锑矿床方解石C、O、Sr同位素地球化学

湖北通山的徐家山锑矿床产在上震旦统陡山沱组和灯影组的海相碳酸盐岩中.对该矿床中成矿前和成矿期方解石进行了较系统的C、O、Sr同位素地球化学研究,结果表明,成矿前方解石具相对较高的δ13CPDB(-0.7‰～ 2.0‰)、δ18OSMOW( 18.6‰～ 19.6‰)和Sr含量(2645-8174 μg/g,平均5656μg/g),及较低的87Sr/86Sr比值(0.7096～0.7097);而成矿期方解石具相对较低的δ13CPDB(-3.9‰～-2.1‰)、δ18OSMOW( 11.5‰～ 15.3‰)、Sr含量(785～2563μg/g,平均1571μg/g),和较高的87Sr/86Sr比值(O.7109～0.7154,平均0.7141).分析认为,成矿前方解石的C、O和绝大部分Sr来源于赋矿围岩--震旦系海相碳酸盐岩;而成矿流体为富H2CO3的溶液,它来自或流经富放射成因87Sr的下伏基底碎屑岩--中元古界冷家溪群浅变质岩;该流体与围岩发生水.岩反应导致成矿期方解石和辉锑矿的沉淀.     

滇东北茂租大型铅锌矿床成矿物质来源及成矿机制

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.     

贵州紫云方解石矿床地球化学特征及成因研究

贵州紫云方解石矿床是在贵州西南部新发现的非金属矿床,方解石矿体呈脉状、透镜状和似层状产出。对紫云火山关、达则等方解石矿床开展同位素地球化学及微量元素、稀土元素研究,结果表明碳、氧同位素显示成矿物质来源于海相碳酸盐岩,成矿流体以富含HCO3-为主,大气水参与成矿,与岩浆作用关系不大。其中达则矿段相对于围岩,成矿物质具有较高的Sr、Zn和Ni含量,稀土元素配分曲线明显区别于围岩,δEu显示正异常等特征,暗示可能有深部流体参与成矿。火山关、打劳等其他矿段,矿体和围岩具有相似的稀土配分模式和∑REE变化规律,表明成矿物质来源于碳酸盐岩围岩。通过区域成矿作用比较,认为成矿时代可能属于印支—燕山期。     

REE, Mn, Fe, Mg and C, O Isotopic Geochemistry of Calcites from Furong Tin Deposit, South China: Evidence for the Genesis of the Hydrothermal Ore-forming Fluids

The Furong tin deposit in the central Nanling region, South China, consists of three main types of mineralization ores, i.e. skarn-, altered granite- and greisen-type ores, hosted in Carboniferous and Permian strata and Mesozoic granitic intrusions. Calcite is the dominant gangue mineral intergrown with ore bodies in the orefield. We have carried out REE, Mn, Fe, and Mg geochemical and C, and O isotopic studies on calcites to constrain the source and evolution of the ore-forming fluids. The calcites from the Furong deposit exhibit middle negative Eu anomaly (Eu/Eu*= 0.311–0.921), except for one which has an Eu/Eu* of 1.10, with the total REE content of 5.49–133 ppm. The results show that the calcites are characterized by two types of REE distribution patterns: a LREE-enriched pattern and a flat REE pattern. The LREE-enriched pattern of calcites accompanying greisen-type ore and skarn-type ore are similar to those of Qitianling granite. The REE, Mn, Fe, and Mg abundances of calcites exhibit a decreasing tendency from granite rock mass to wall rock, i.e. these abundances of calcites associated with altered granite-type and greisen-type ores are higher than those associated with skarn-type ores. The calcites from primary ores in the Furong deposit show large variation in carbon and oxygen isotopic compositions. The δ¹³C and δ¹⁸O of calcites are −0.4 to −12.7‰ and 2.8 to 16.4‰, respectively, and mainly fall within the range between mantle or magmatic carbon and marine carbonate. The calcites from greisen and altered granite ores in the Furong deposit display a negative correlation in the diagram of δ¹³C versus δ¹⁸O, probably owing to the CO₂-degassing of the ore-forming fluids. From the intrusion to wall-rock, the calcites display an increasing tendency with respect to δ¹³C values. This implies that the carbon isotopic compositions of the ore-bearing fluids have progressively changed from domination by magmatic carbon to sedimentary carbonate carbon. In combination with other geological and geochemical data, we suggest that the ore-forming fluids represent magmatic origin. We believe that the fluids exsolved from fractionation of the granitic magma, accompanying magmatism of the Qitianling granite complex, were involved in the mineralization of the Furong tin polymetallic deposit.     

西秦岭金龙山卡林型金矿床地质-地球化学及矿床成因研究

金龙山金矿床位于南秦岭造山带的复理石褶冲带中,赋矿围岩为碎屑岩-碳酸盐建造,矿化明显受地层岩性与韧-脆性构造发育程度的控制。矿床稀土元素地球化学研究表明,地层岩石、矿石和热液矿物的轻重稀土分异程度和特征参数基本一致,表明成矿流体应主要来自于赋矿地层。铅同位素研究表明,地层岩石、矿石和热液矿物均具有较高的放射性成因的铅同位素组成,且均落入南秦岭造山带的泥盆系范围内,暗示铅也主要来自赋矿地层。对前人已有的碳-氧-硫-氢同位素组成和流体包裹体数据综合分析表明,碳和氧应主要来自海相碳酸盐的溶解作用,硫主要来自海相硫酸盐的热化学还原反应;从成矿早阶段到晚阶段,成矿流体的δ18O及δD值向大气降水线＂漂移＂,指示成矿流体以盆地建造水和变质水为主,在晚阶段有大气降水加入。金龙山金矿床与卡林型金矿床的矿床地质-地球化学特征相似,应属于卡林型金矿床,其形成于秦岭造山带陆内造山作用过程中,多层次陆壳叠置加厚的地球动力学背景,是陆内碰撞造山作用的产物。     

云南华昌山Pb-Zn矿床热液流体演化：方解石REE及C-O同位素证据

云南华昌山Pb-Zn矿床是发育在典型褶皱逆冲带内的密西西比河谷型(MVT)铅锌矿床,矿体多沿断裂及断裂两侧分布。本次工作通过对华昌山矿区内关键平硐的编录,识别出4套不同属性的断裂,其中3套对应发育了三种不同期次的热液流体：无矿流体、含铜银流体、含铅锌流体。三期流体均发育热液矿物方解石,通过对三期方解石的原位稀土元素分析发现,这三期流体均是与岩浆作用无关的热液流体,且三期热液流体存在不同的稀土元素配分模式曲线图、不同的lg(Y/Ho)-lg(La/Ho)分布特征和不同的Yb/Ca(原子比)-Yb/La(原子比)分布特征,说明三期热液流体的来源属性不同或者同源但受不同作用的改造。三期方解石的碳、氧同位素值表明热液流体中的碳来自盆地海相碳酸盐岩的溶解作用,方解石的氧同位素特征表明三期流体均为盆地卤水,且铅锌成矿期的流体中混入大气降水。分析华昌山矿床的构造断裂活动和热液流体特征,本文认为区域逆冲断裂之后的张性断裂是控制华昌山铅锌矿床的控矿断裂。     

REE and C-O Isotopic Geochemistry of Calcites from the World-class Huize Pb-Zn Deposits, Yunnan, China: Implications for the Ore Genesis

<正>The world-class Huize Pb-Zn deposits of Yunnan province,in southwestern China,located in the center of the Sichuan-Yunnan-Guizhou Pb-Zn polymetallic metallogenic province,has Pb+Zn reserves of more than 5 million tons at Pb+Zn grade of higher than 25%and contains abundant associated metals,such as Ag,Ge,Cd,and Ga.The deposits are hosted in the Lower Carboniferous carbonate strata and the Permian Emeishan basalts which distributed in the northern and southwestern parts of the orefield.Calcite is the only gangue mineral in the primary ores of the deposits and can be classified into three types,namely lumpy,patch and vein calcites in accordance with their occurrence.There is not intercalated contact between calcite and ore minerals and among the three types of calcite,indicating that they are the same ore-forming age with different stages and its forming sequence is from lumpy to patch to vein calcites. This paper presents the rare earth element(REE) and C-O isotopic compositions of calcites in the Huize Pb-Zn deposits.From lumpy to patch to vein calcites,REE contents decrease as LREE/ HREE ratios increase.The chondrite-normalized REE patterns of the three types of calcites are characterized by LREE-rich shaped,in which the lumpy calcite shows(La)_N(Ce)_N(Pr)_N≈(Nd)_N with Eu/Eu~*1,the patch calcite has(La)_N(Ce)_N(Pr)_N≈(Nd)_N with Eu/Eu~*1,and the vein calcite displays(La)_N(Ce)_N(Pr)_N(Nd)_N with Eu/Eu~*1.The REE geochemistry of the three types of calcite is different from those of the strata of various age and Permian Emeishan basalt exposed in the orefield.Theδ~(13) C_(PDb) andδ~(18)O_(Smow) values of the three types of calcites vary from-3.5‰to-2.1‰and 16.7‰to 18.6‰,respectively,falling within a small field between primary mantle and marine carbonate in theδ~(13)C_(PDb) vsδ~(18)O_(Smow) diagram. Various lines of evidence demonstrate that the three types of calcites in the deposits are produced from the same source with different stages.The ore-forming fluids of the deposits resulted from crustal -mantle mixing processes,in which the mantle-derived fluid components might be formed from degassing of mantle or/and magmatism of the Permian Emeishan basalts,and the crustal fluid was mainly provided by carbonate strata in the orefield.The ore-forming fluids in the deposits were homogenized before mineralization,and the ore-forming environment varied from relatively reducing to oxidizing.     

Characteristics of rare-earth elements （REE）, strontium and neodymium isotopes in hydrothermal fluorites from the Bailashui tin deposit in the Furong ore field,southern Hunan Province,China

In this paper the authors present the REE concentrations and Sr and Nd isotopic compositions of fluorites from the Bailashui tin deposit of the Furong ore field, southern Hunan Province. The results showed that the total amount of REE in fluorites is usually low, ranging from 0.705 to 8.785 μg/g with the chondrite-normalized REE distribution patterns similar to those of the Qitianling granites in the study area, characterized by LREE-enrichment patterns with pronounced negative Eu anomalies. The fluorites vary in Sr isotopic composition within the range of 0.7083-0.7091, the values are lower than those of the granites and higher than those of the host carbonate rocks in this area. The εNd（t） values of fluorites vary between -9.4 and ＋10.3, revealing that both the crust- and mantle-source materials were involved in the ore-forming hydrothermal fluids. Combined with previous studies on this ore deposit, the Bailashui tin deposit is temporally and spatially closely related with granitic magmatism in this area. The hydrothermal fluorites are the product of fluid/rock interactions between granitic magmatic hydrothermal fluid and marine carbonate rocks. The REE and F in the ore-forming fluid were derived from the granites, whereas Sr in the ore-forming fluid came mainly from the granitic magmatic hydrothermal fluid and marine carbonate rocks, although variations in Sr isotopic composition cannot be explained by a simple mixture of these two end-members. Evidence demonstrated that the ore-forming fluids are of crustal-mantle mixing origin, but that the fluids were probably incompletely homogenized and this may be caused by inhomogeneous mixing of the fluids of different sources.     

中国辽东地区超大型菱镁矿矿床的地球化学特征和成因模式

我国辽东地区早元古代大石桥组镁质碳酸盐-泥质岩建造中赋存有多个超大型菱镁矿矿床。在这些矿床中,菱铁矿矿体均只限定在大石桥组三段岩层中。该层岩石主要由白云质大理岩、菱镁质大理岩、菱镁矿和少量泥质板岩薄层组成。赋矿层位之下地层为大石桥组二段的云母片岩;其下为大石桥组一段的白云质大理岩与云母片岩夹层。在大石桥组一段中未见菱铁矿体产出。研究表明,菱铁矿的δ18O值为5.2‰~13.8‰,低于围岩大理岩的δ18O值(11.2‰~22.8‰)。但两音的δ13C值大多接近零值,其中菱镁矿δ13C值变化为-1.4‰~1.2‰,大理岩δ13C值变化为-4.5‰~4 4‰。在菱镁矿层位中发现有石膏成层和脉状产出,其δ34S值为23.9‰~26.5‰,显示海相蒸发沉积特征。菱镁矿的稀土元素分析表明存在三种不同页岩标准化配分模式。类型Ⅰ显示中稀土富集特征,类型Ⅲ显示重稀土富集和正铕异常特征,它们可能反映了不同时期成矿热液的特征。而类型Ⅱ显示与围岩大理岩相同的平坦型,反映继承了原岩沉积碳酸盐岩的特征。本文认为,辽东地区的镁质碳酸盐岩(镁方解石和白云石)可能是从蒸发的泻湖盆地中沉积的,而菱镁矿石则主要是沉积后富镁卤水下渗交代原岩碳酸盐岩形成的。由于大石桥组二段云母片岩渗透率低隔水性强,因此菱铁矿的矿化交代作用只发     

REE Geochemistry of Sulfides from the Huize Zn-Pb Ore Field, Yunnan Province： Implication for the Sources of Ore-forming Metals

REE abundances in sulfides from the Huize Zn-Pb ore field were determined with the ICPMS after preconcentration. The REE abundances in 26 sulfide samples （including pyrite, galena and sphalerite） are very low, with the ~REE ranging from 1.6×10^-9 to 166.8×10^-9. Their LREE/HREE ratios range from 7.6 to 98, showing LREE enrichment relatively. The JEu values are below 1, indicating that they were deposited from an Eu-depleted and reducing fluid-system. Similar to the ore-hosting carbonate strata, calcite separates from carbonate veinlets filling in the fractures or faults crosscutting the carbonate strata also show clear Eu-depletion. This indicates that the carbonate veinlets and their parent fluid was possibly sourced from the strata and inherited the REE geochemical features of the strata. Therefore, REE-geochemical characteristics of both the sulfides and calcites, which were deposited from an ore-forming hydrothermal system, are similar to those of carbonate strata, and strongly suggest that the ore metals were mainly sourced from carbonate strata.     

若尔盖铀矿田方解石稀土元素与碳氧同位素地球化学特征及其意义

方解石是若尔盖铀矿田与成矿最为密切的脉石矿物之一。方解石的REE地球化学特征研究表明,产于地层中的方解石、矿区中的方解石和含矿方解石具有明显不同的稀土元素组成特征,分别具有轻稀土富集右倾型、重稀土富集左倾型和相对平坦型的3种稀土配分模式。其中产于地层中的方解石明显继承了地层中岩石的稀土元素特征,而含矿方解石表现出与矿石稀土元素相似的特征。碳氧同位素显示地层中的方解石为海洋沉积碳酸盐岩的碳氧同位素组成特征;矿区方解石脉、含矿方解石脉的碳同位素组成明显表现为地幔来源的特点;而矿区方解石脉的氧同位素组成具明显的深部来源特征,含矿方解石脉的氧同位素组成表明在成矿过程中有大气降水的混入。若尔盖铀矿田的方解石主要为热液成因,其矿床成因类型属于典型的热液矿床,成矿流体主要来源于地幔。     

黔西南紫木凼金矿床成矿物质来源:S⁃C⁃O⁃Pb⁃Sr同位素制约

紫木凼金矿床是黔西南卡林型金矿区一个重要的大型金矿床,其成矿物质来源尚不明确.对紫木凼金矿床不同类型矿石和赋矿围岩进行了S、C、O、Pb和Sr同位素组成对比研究.矿石中硫化物的δ34S值为-13.49‰~17.91‰（主要为-0.99‰~3.58‰）,赋矿围岩的δ34S值为-26.23‰~-19.63‰,矿床成矿期硫主要来源于岩浆,部分来源于赋矿地层中成矿前黄铁矿.热液期方解石的δ13C和δ18O分别为-9.10‰~0.59‰和15.65‰~23.82‰,与赋矿围岩、区域地层的碳、氧同位素组成差别较大,成矿流体的碳、氧部分来源于碳酸盐岩溶解,部分可能来源于岩浆.矿石中硫化物的206Pb/204Pb、207Pb/204Pb和208Pb/204Pb比值分别为18.064~18.973、15.585~15.670和38.219~39.054,赋矿围岩的206Pb/204Pb、207Pb/204Pb和208Pb/204Pb比值分别为18.136~18.650、15.574~15.656和38.423~38.812,矿石铅的来源较复杂,赋矿地层和岩浆可能都为其提供了部分铅.矿石中石英和方解石（87Sr/86Sr）_i比值为0.707 26~0.708 11,赋矿围岩的（87Sr/86Sr）_i比值为0.707 28~0.707 31,成矿流体中的锶主要来源于赋矿地层.紫木凼金矿床成矿物质具壳幔混合来源特征,成矿物质主要来自矿床深部隐伏岩浆岩,部分来自二叠系-三叠系赋矿地层.