红旗岭1号岩体铜镍硫化物型矿床成因研究

红旗岭硫化铜镍矿床是一组矿床,产于吉林省中南部,典型矿床有红旗岭1号矿床。辉发河大断裂是穿壳岩石圈深断裂,是镁铁超镁铁质岩浆上升的通道。硫化铜镍矿床产于燕山期镁铁超镁铁质岩体中。对含矿岩体的岩石化学和地球化学研究表明,形成含矿岩体的岩浆为钙碱性玄武岩岩浆,并后期混染了壳源物质。矿床主要形成于岩浆熔离作用,伴有接触交代及热液成矿的叠加,矿床成因类型为岩浆深部熔离贯入型。     

新疆库鲁克塔格兴地Ⅱ号存体铜镍含矿性评价

新疆库鲁克塔格兴地Ⅱ号岩体是一个深源岩浆经多次分异，多期侵入形成的基性－超基性杂岩体，岩体成矿背景条件，岩石化学及岩体矿化特征均显示，该杂岩体内可能赋存有大中型铜镍硫化物矿床，章通过对成矿背景条件，岩石特征及矿化特征的分析，对该杂岩体的铜镍含矿性做出初步评价。     

新疆北部岩浆型铜镍硫化物矿床控矿因素的研究

含矿铜镍岩体多产于岛弧和弧后盆地中，属造山带型岩体，严格地受深大断裂及其次一级断裂构造的控制；最有工业意义的岩浆型铜镍矿床均形成于准噶尔型铁镁质地壳内；含铜镍基性－起基性杂岩体的岩石化学特征对成矿存在着控制作用，多数含矿岩体属于偏镁系岩石和铁质基性杂岩或铁质基性－超基性杂岩；含矿岩休出露面积小于１０ｋｍ￣２，分异良好，相带清楚，多为复合岩体；具有重要工业意义的岩浆型铜镍矿床的成矿时代集中在海西中期至晚期．     

含矿岩体的评价标志：以太行山北段四个岩体为例

本文以太行山北段四个花岗岩岩体为例，探讨了含矿岩体的评价标志。指出，含矿岩体评价的岩石学、矿物学及地球化学标志。认为，热液脉型矿床的成矿作用直接与岩浆活动密切相关。因此，找矿与岩体的含矿性评价是不可分割的整体。     

江南造山带东段含钨岩体地球化学特征

江南造山带东段燕山晚期含钨的东源岩体与非含钨的旌德岩体、桃岭岩体,其地球化学特征具有埃达克质岩的亲缘性,是先前(新元古代)交代的岩石圈地幔发生部分熔融底侵到壳幔过渡带附近,导致加厚下地壳发生部分熔融的产物,可能与少量的幔源岩浆发生岩浆混合作用。含矿岩体与非含矿岩体存在不同的Sr-Nd同位素组成,表明含矿与非含矿岩体具有不同的源区。锆石LA-ICPMS定年显示含矿的东源岩体侵位时间147 Ma,非含矿岩体侵位时间140 Ma。含矿岩体的副矿物组合以独居石+辉钼矿+白钨矿+白钨矿+电气石为特征。岩体中富含成矿元素、富挥发分、富钾,黑云母中富F、低Fe和fO2,斜长石以钠长石为主,均可作为含矿花岗(斑)岩体的重要地球化学参数。     

光石沟铀矿床含矿与非含矿伟晶岩差异性研究

通过对光石沟铀矿床含矿与非含矿伟晶岩地质、岩石、地球化学特征研究，指出了二者存在的差异。认为光石沟铀矿区伟晶岩是灰池子岩体多期分异后残余岩浆不同演化阶段的产物，导致差异的主要原因是残余岩浆同化混染作用的结果。初步建立了光石沟铀矿区含矿伟晶岩的宏观和微观标志，对今后该区找矿和科研有指导意义。     

寄主岩浆硫化物和氧化物矿床的镁铁质-超镁铁质岩体对比分析与成矿过程评述

镁铁质-超镁铁质岩体是世界上岩浆硫化物(Ni-Cu-PGE)和氧化物(Fe-Ti-V-P)矿床的主要载体.全球主要岩浆硫化物和氧化物矿床均可以产于大火成岩省、克拉通区的裂谷带或伸展环境、褶皱带内的后碰撞伸展环境.寄主岩浆硫化物矿床的岩体规模相差甚大(从6×104km2到＜0.1km2),既有超镁铁质岩石组合也有镁铁质岩石组合,但其原生岩浆主要为拉斑玄武质岩浆.含镍铜的铂族元素矿床主要赋存于规模很大的层状岩体中,而镍铜硫化物矿床主要赋存于小岩体中.寄主钒钛磁铁矿或磁铁矿矿床的岩体主要是以辉长岩为主的层状杂岩体.寄主钛铁矿-磷灰石矿床的岩体均为层状的斜长岩-纹长二长岩-紫苏花岗岩岩体.尽管其岩石组合相差很大,但其原生岩浆均属拉斑玄武质.寄主硫化物矿床的岩体相对富Si、Mg、Cr、Ni,而寄主氧化物矿床的岩体相对富Fe-Ti-P-V,造岩矿物晶体化学也反映了这种差异.对全球主要含矿岩体的对比分析表明,导致这种反差的主要控制因素应该是岩浆生成时的压力状态,源区性质和熔融程度的差异可能只在局部范围内起作用.对岩浆硫化物矿床成矿过程的认识集中体现在金川模式和岩浆通道模式上,对岩浆氧化物矿床成矿过程的认识体现在氧化物和磷灰石是堆晶相还是从不混溶的矿浆中结晶的.对比分析表明,成矿过程具有多样性,试图用一种模式概括所有同类矿床成矿过程的想法未必可取.毫无疑问,适宜的氧化还原环境是形成岩浆矿床的必要务件,伴随岩浆演化及成矿过程的氧速度变化及其诱因问题尚待进一步探索.     

西藏雄梅铜矿区含矿斑岩与非含矿斑岩成因对比研究

西藏雄梅铜矿床是近年来在班公湖_怒江成矿带中段新发现的一处斑岩铜矿床,该矿床的发现使得班公湖_怒江成矿带真正具备了"带"的概念,大大地拓宽了找矿远景。文章通过对雄梅铜矿区斑岩体的LA_ICP_MS锆石U_Pb定年,发现矿区存在2套斑岩:一套是前人测定的年龄为106.7 Ma的含矿斑岩;另一套是本文测定的非含矿斑岩,3个年龄分别是(121.8±2.3)Ma(MSWD=0.32)、(122.8±2.1)Ma(MSWD=1.16)、(121.5±2.5)Ma(MSWD=0.54)。两套斑岩的岩性虽然都是花岗闪长斑岩,但非含矿斑岩比含矿斑岩含有更多的钾长石,矿化强度大大减弱。岩石地球化学分析结果表明,两套斑岩虽然都富集大离子亲石元素(LILE)Rb、Ba、Th、U、K、Pb,亏损高场强元素(HFSE)Nb、Ta、Ti,具有碰撞后岩浆作用的共同特征,但在岩浆源区和成因上显示出明显的差异。含矿斑岩和非含矿斑岩均属于强过铝质S型花岗岩,然而前者源区组成为杂砂岩,后者源区则以泥质岩为主。岩浆分异过程中,含矿斑岩受斜长石和钾长石的分离结晶控制,非含矿斑岩则受钾长石和黑云母的分离结晶控制。     

吉林红旗岭地区含矿与不含矿岩体的地质地球化学对比

吉林红旗岭地区是我国岩浆型铜镍硫化物矿床的主要矿化集中区之一。在区内已发现的镁铁质一超镁铁质岩体中，有的含有铜镍矿床或铜镍矿化，有的则不含矿。通过本区含矿与不含矿岩体的形成时代、岩石组合、橄榄石矿物成分、岩石化学成分和微量元素组合特征的对比，建立起镁铁质-超镁铁质岩体含镍性的评价标志，为隐伏岩体和新发现岩体含矿性的评价提供了理论依据。     

含矿岩体和成矿母岩问题

学术界通常认为,岩体有含矿与不含矿之分。含矿岩体与矿床在时间上、空间上和成因上密切相关,是成矿的母岩。认为含矿的热液和成矿金属元素来自岩浆,是岩浆演化分离的晚期从岩浆中分异出来的,属于岩浆期后矿床。笔者的研究表明,花岗质成分的含矿岩体与成矿在时间上和空间上可能有关,但是,不可能成因上有关,含矿岩体也不是成矿的母岩。含矿岩体本质上是一个二元概念,是岩体+蚀变的产物。叠加了蚀变和矿化的岩体就是含矿岩体,没有叠加蚀变和矿化的岩体就是不含矿岩体。花岗质岩浆与热液是两个体系,不是一个体系。成矿所需要的大量的水和金属元素不是来自含矿岩体,而是来自下地壳深部;含矿岩体本身的水和矿化元素也不是来自岩浆,也是来自深部。含矿岩体大体上相当于成矿围岩,不过这个围岩不是沉积岩和变质岩而是花岗岩。实践表明,区分含矿岩体和不含矿岩体从理论上说是不科学的,从方法上说是非常困难的,从找矿实践上说是无益的。笔者指出,虽然含矿岩体存在上述诟病,但是,含矿岩体毕竟是事实,含矿岩体的术语仍然是可以用的,不过,应当重新认识含矿岩体问题,并赋予含矿岩体以新意。     

Late Paleozoic mafic–ultramafic intrusions in southern Central Asian Orogenic Belt (NW China): Insight into magmatic Ni–Cu sulfide mineralization in orogenic setting

The mafic–ultramafic intrusions hosting magmatic Ni–Cu sulfide ore deposits, usually present within the Precambrian cratons and on their margin, have been extensively studied, whereas those occurring within the Phanerozoic orogenic belts have received little attention. The southern margin of the Central Asian Orogenic Belt is a region of late Paleozoic mafic–ultramafic intrusions emplaced during post-orogenic stage. In order to recognize the mineralization features, this study compares barren or weakly mineralized mafic–ultramafic intrusions in the Beishan with those hosting Ni–Cu sulfide ore deposit in the Altay and Eastern Tianshan in petrology, mineralogy and geochemistry aspects. Several mineralization features can be recognized with respects to petrology, mineralogy and geochemistry from comprehensive comparisons. Among the mineralization indicators, we highlight strong alteration accompanying sulfide emplacement, post-erosion exposure of magma conduit, abundant primary hydrous minerals and potential transportation mechanism of ore-forming elements. Other indicators are the presence of orthopyroxene and pyroxenite for potential sulfide formation through crystal fractionation, restricted Fo and Ni ranges in olivines for sulfide segregation, and some other special geochemical characteristics related to crustal contamination. The variation in mineralization could be ascribed to different degrees of partial melting, crustal assimilation and subduction-related modification of a mantle source. We suggest that the Ni–Cu sulfide mineralization of mafic–ultramafic intrusions within orogenic belts is remarkably different from that of cratonic and continental marginal settings in respects of petrogenesis and mineralizing mechanism. Magmatic conduit-type Ni–Cu sulfide ore deposit is a target for future prospecting and exploration for mafic–ultramafic intrusions in the orogenic belts.     

红旗岭矿床茶尖矿区铂族元素地球化学特征及其意义

以红旗岭铜镍硫化物矿床茶尖矿区1号和9号岩体为研究对象,进行了岩石化学特征分析、微量元素分析和稀土元素（REE）分析,重点研究了其铂族元素（PGE）地球化学特征。REE分析结果表明,岩石富集轻稀土元素,且有微弱的铕负异常。PGE富集在硫化物含量高的岩石中,与硫化物含量呈正相关关系。岩石中PGE分异明显,富集Rh、Pt和Pd。推测该区的基性-超基性岩形成于硫不饱和玄武质岩浆的演化,岩浆有地壳物质混染的特征,其成矿物质来源于上地幔,主要成矿机制为深部熔离-贯入作用。     

Geochemical Constraints on the Origin of the Ni–Cu Sulfide Ores in the Tejadillas Prospect (Cortegana Igneous Complex,SW Spain)

After the discovery of the Aguablanca ore deposit (the unique Ni–Cu mine operating in SW Europe), a number of mafic‐ultramafic intrusions bearing Ni–Cu magmatic sulfides have been found in the Ossa–Morena Zone of the Iberian Massif (SW Iberian Peninsula). The Tejadillas prospect is one of these intrusions, situated close to the border between the Ossa–Morena Zone and the South Portuguese Zone of the Iberian Massif. This prospect contains an average grade of 0.16 wt % Ni and 0.08 wt % Cu with peaks of 1.2 wt % Ni and 0.2 wt % Cu. It forms part of the Cortegana Igneous Complex, a group of small mafic‐ultramafic igneous bodies located 65 km west of the Aguablanca deposit. In spite of good initial results, exploration work has revealed that sulfide mineralization is much less abundant than in Aguablanca. A comparative study using whole‐rock geochemical data between Aguablanca and Tejadillas shows that the Tejadillas igneous rocks present a lower degree of crustal contamination than those of Aguablanca. The low crustal contamination of the Tejadillas magmas inhibited the assimilation of significant amounts of crustal sulfur to the silicate magmas, resulting in the sparse formation of sulfides. In addition, Tejadillas sulfides are strongly depleted in PGE, with total PGE contents ranging from 14 to 81 ppb, the sum of Pd and Pt, since Os, Ir, Ru and Rh are usually below or close to the detection limit (2 ppb). High Cu/Pd ratios (9700–146,000) and depleted mantle‐normalized PGE patterns suggest that the Tejadillas sulfides formed from PGE‐depleted silicate magmas. Modeling has led us to establish that these sulfides segregated under R‐factors between 1000 and 10,000 from a silicate melt that previously experienced 0.015% of sulfide extraction. All these results highlight the importance of contamination processes with S‐rich crustal rocks and multiple episodes of sulfide segregations in the genesis of high‐tenor Ni–Cu–PGE ore deposits in mafic‐ultramafic intrusions of the region.     

东昆仑石头坑德镁铁-超镁铁质岩体矿物学特征及成矿指示

石头坑德镁铁-超镁铁质岩体位于东昆仑造山带东段五龙沟地区,邻近昆中大断裂,主要岩性为辉石岩、橄辉岩、橄榄岩、辉长岩等,铜镍矿体主要赋存于Ⅰ号岩体的辉石岩、橄辉岩和橄榄岩中。岩石地球化学特征表明,其镁铁比值(m/f)变化范围在2.77~6.01之间,属铁质系列的镁铁-超镁铁岩,有利于成铜镍矿。稀土总量总体较低,轻稀土元素之间分馏强,重稀土元素之间分馏弱。岩石总体富集LILE(Rb、Ba、Th、U),贫HFSE(Nb、Ta、Zr、Y),具有明显的Rb、U正异常及Nb、Ta的负异常。超镁铁岩类橄榄石中的Ni普遍亏损,指示深部存在硫化物的熔离作用,在橄榄石结晶之前,大量的Ni进入到硫化物中,极有利于形成富矿岩浆或矿浆。可见,伴随同化混染作用的发生,岩浆中S达到过饱和,进而硫化物发生不混溶作用,富含硫化物的岩浆运移至东昆仑造山带邻近昆中断裂构造薄弱的部位成岩成矿。铜镍矿体多赋存在含橄榄石的超镁铁质岩体内,指示石头坑德岩体深部存在高度富集铜镍的部位,是下一步的找矿方向。     

吉林通化赤柏松铜镍硫化物矿床Re-Os同位素研究及其地质意义

赤柏松岩浆型铜镍硫化物矿床位于华北克拉通胶辽吉带,含矿镁铁质—超镁铁质岩侵入到鞍山群最下部的四道砬子河组变质岩中;该矿床硫化物矿样品的Os和Re浓度分别为19×10^-3~490×10^-3和0.47×10^-3~13.97×10^-3,对这些数据分析得出了一条6点Re-Os等时线年龄为1 885±94 Ma,矿石的初始(187)^Os/(188)^Os 比值为0.80±0.16 (MSWD=0.17),表明矿石为岩浆源,熔体主要由地幔贡献,但在成矿过程及岩浆侵位期间有不少地壳物质混入成岩成矿系统。新的Re-Os年代学结果表明,赤柏松镁铁质—超镁铁质侵入体与铜镍矿床形成于古元古代,而不是前人认为的早白垩世。     

The relationship between Archaean gold mineralization and spatially associated minor intrusions at the Kambalda and Norseman gold camps,western Australia: Lead isotope evidence

Many Archaean mesothermal gold deposits are spatially associated with felsic to lamprophyric minor intrusions and it has been suggested that magmatic processes related to such intrusions may be important in the genesis of these deposits. A comparison of the Pb-isotopic signature of gold-related galenas from Kambalda and Norseman with that of spatially associated minor intrusions (at the time of mineralization) indicates that the ore-fluid Pb cannot have been derived solely from the intrusions or their source regions. For both study areas, the galena Pb-isotopic compositions are bracketed by those of local volcanic (mafic) and intrusive (largely felsic) rock types. This is consistent with the ore fluid having derived metallic components from the crust (or crustally derived granitic rocks) and the mantle (or mantle-derived rocks of the greenstone succession) via metamorphic dewatering or mantle/crustal degassing. Interaction of granite-derived magmatic fluids with greenstone lithologies could plausibly produce a similar array of Pb-isotopic signatures. The Norseman data, as a whole, are more radiogenic than the Kambalda data for broadly synchronous mineralization, reflecting the greater abundance of older granitic rocks with respect to mafic/ultramafic rocks in the Norseman district. The provinciality exhibited by the Pb-isotopic composition of the ore fluid indicates that the gold-mineralizing process formed galena whose Pb-isotopic composition was very sensitive to local variations in crustal Pb-isotopic composition, either within the source region of the fluid or along fluid conduits.     

新疆哈密玉西银矿床特征及成因

玉西银矿床产在中元古界长城系星星峡群黑云斜长片麻岩和藓县系卡瓦布拉克群大理岩间的韧性剪切带、韧脆性破碎带中;矿体呈脉状、透镜状和似层状;矿石由辉银矿、方铅矿、闪锌矿、黄铜矿、石英和黄铁矿等４０余种矿物组成;围岩蚀变有硅化、内铁矿化和碳酸盐化;经历热液成矿期、叠加成矿期和表生成矿期。矿质源自地壳浅部和深部岩石,介质来自地壳封存水、变质水和雨水的混合水,热源主要来自地壳圈层剪切热。在同构造、中低温、中     

芬兰北部克维特斯塔镍-铜-铂族元素矿床地质特征及矿床成因

位于芬兰北部中拉普兰绿岩带的克维特斯塔(Kevitsa)镍-铜-铂族元素矿床是世界上主要的岩浆镍-铜硫化物矿床之一。该矿床储量大,含丰富的镍-铜硫化物和铂族元素。对矿床产出环境、地质特征、矿床成因等进行了总结,结果表明:矿体主要赋存于克维特斯塔基性—超基性层状侵入体的超基性单元中。主要矿石类型为普通型和镍-铂族元素型2种,其中镍-铂族元素型矿石内橄榄石具极高的Ni含量。主要矿石矿物为磁黄铁矿、镍黄铁矿、黄铜矿、黄铁矿、针硫镍矿、红砷镍矿、砷镍矿、辉砷镍矿等,绝大部分铂族矿物包含在硅酸盐中和附着在硫化物颗粒边界。Re-Os、Sm-Nd、Sr及S同位素特征显示成矿岩浆为幔源,但受到地壳物质的混染作用。Pb同位素年代学结果表明克维特斯塔侵入体形成于古元古代。     

Intrusion-Related Gold Deposits of North China Craton, People's Republic of China

Abstract. Intrusion‐related gold deposits are widely distributed within the North China craton or along its marginal fold belts. Presently, about 200 individual intrusion‐related gold deposits (prospects) have been discovered, among which Yuerya, Anjia‐yingzi, Linglong, Jiaojia, Chenjiazhangzi, Qiyugou, Jinjiazhuang, Dongping, Hougou, Huangtuliang, Guilaizhuang, Wulashan and Donghuofang are the most important ones. In general, the intrusion‐related gold deposits can be classified into three major groups according to their host rocks: (1) hosted by or related to felsic intrusions, including (la) calc‐alkaline granitoid intrusions and (lb) cryptoexplosion breccia pipes; (2) related to ultramafic intrusions, and (3) hosted by or related to alkaline intrusions. The first group contains the Yuerya, Anjiayingzi, Linglong, Jiaojia, Chenjiazhangzi and Qiyugou gold deposits. Gold mineralization at these deposits occurs within Mesozoic Yanshanian calc‐alkaline granitoid intrusions or cryptoexplosion breccia pipes as gold‐bearing quartz veins and replacement bodies. Pyrite, galena, sphalerite, chalcopyrite, native gold and electrum are major metallic minerals. The Jinjiazhuang deposit belongs to the second group, and occurs within Hercynian diopsidite and peridotite as quartz veins and replacement bodies. Pyrite, marcasite, arsenopyrite, native gold and electrum are identified. The third group includes the Dongping, Hougou, Huangtuliang, Guilaizhuang, Wulashan and Donghuofang deposits. Gold mineralization at these deposits occurs predominantly within the Hercynian alkaline intrusive complexes as K‐feldspar‐quartz veins and replacement bodies. Major metal minerals are pyrite, galena, chalcopyrite, tellurides, native gold and electrum. All these pyrite separates from Hercynian and Yanshanian intrusions or cryptoexplosion pipes associated with the gold deposits show a broad range in δ³⁴S value, which is overall higher than those Precambrian rocks and their hosted gold deposits. For the alkaline intrusion‐related gold deposits, the δ³⁴S values of the sulfides (pyrite, galena and chalcopyrite) from the deposits increase systematically from orebodies to the alkaline intrusions. All of these intrusion‐related gold deposits show relatively radiogenic lead isotopic compositions compared to mantle or lower crust curves. Most lead isotope data of sulfides from the gold ores plot in between the fields of the intrusions and Precambrian metamorphic rocks. Data are interpreted as indicative of a mixing of sulfur and lead from magma with those from Precambrian metamorphic rocks. Isotopic age data, geological and geochemical evidences suggest that the ore‐forming materials for the intrusion‐related gold deposits were generated during the emplacement of the Hercynian or Yanshanian intrusion. The calc‐alkaline or alkaline magma may provide heat, volatiles and metals for the intrusion‐related gold deposits. Evolved meteoric water, which circulated the wall rocks, was also progressively involved in the magmatic hydrothermal system, and may have dominated the ore fluids during late stage of ore‐forming processes. Therefore, the ore fluid may have resulted from the mixing of calc‐alkaline or alkaline magmatic fluids and evolved meteoric water. All these intrusion‐related gold deposits are believed to be products of Hercynian or Yanshanian calc‐alkaline and alkaline igneous processes along deep‐seated fault zones within the North China craton or along its marginal belts.     

胶东地区破碎带蚀变岩型金矿时代的测定及其地质意义

通过对胶东半岛西北部超大型破碎带蚀变岩型金矿 -新城金矿的强烈热液交代成因黄铁绢英岩 Rb- Sr等时线法测年 ,获得 116 .6± 5 .3Ma成矿年龄。结合本区焦家、仓上等大型 -超大型金矿蚀变矿物、石英流体包裹体的 Rb- Sr等时线年龄、K- Ar年龄 (10 5± 7Ma;10 6± 2 Ma;113.5± 0 .6 Ma)等前人成果 ,确定胶东半岛西北部破碎带蚀变岩型金矿成矿时代主要集中在 10 0～ 117Ma。与围岩花岗岩、花岗闪长岩的成岩年龄 (16 0～ 15 0 Ma;130～ 12 6 Ma)存在着近 10 Ma的时差 ,并根据(87Sr/ 86 Sr) i比值以及已有的 C、H、O稳定同位素资料表明 ,即使成矿物质部分来源于围岩花岗岩类 ,但成矿作用与岩浆活动无明显的成因关系 ,而是深部循环的大气降水或幔源 C- H - O流体参与成矿作用的结果