南秦岭西坝花岗质岩体矿物学特征及成岩意义

西坝花岗质岩体位于南秦岭构造-岩浆带中部,为南秦岭印支期花岗岩带五龙岩体群的重要组成部分,与双王金矿有密切的空间关系。该岩体主要由石英二长闪长岩和花岗闪长岩组成,岩体中发育较多的镁铁质包体。通过对岩体及镁铁质包体的系统的矿物学特征研究发现,本区花岗质岩体属于I型花岗岩类,成岩物质主要来源于地壳,并且有地幔物质的加入。岩体及镁铁质包体显示有多种壳-幔岩浆混合的岩相学证据:如包体的冷凝边、斜长石环带成分显示核部和边缘偏基性,而幔部偏酸性,包体中见大量的长针状磷灰石及角闪石,包体中有两种产状的角闪石等。根据矿物温度压力计计算,西坝岩体的结晶温度为646.72~703.84℃,压力为1.67×108~3.66×108Pa,平均为3.12×108Pa。岩体形成于相对高氧逸度(lgfO2为-16.16×105~-17.06×105Pa)、中等水逸度(fH2O为46.82×105~136.85×105Pa)和氢逸度(fH2为0.32×105~0.91×105Pa)环境。岩体的这种高氧逸度条件有利于金进入熔体相或流体相,是金矿形成的有利条件。     

四川康滇地轴地区钒钛磁铁矿区域成矿规律探讨

四川康滇地轴钒钛磁铁矿以大、中型为主,均分布在层状基性、超基性岩体中,该类型铁矿分为基性岩浆分异型和基性一超基性岩浆分异型2个亚类。对区域矿产三大成矿系列时空演化规律和钒钛磁铁矿含矿岩体的成矿系列进行了阐述,并从地质构造条件、含矿层状岩体的侵住、岩体生成时代及形成深度、围岩性质对成岩成矿的影响、岩浆来源、岩浆演化特征、岩体和矿床的成因等方面对钒钛磁铁矿成矿规律进行了探讨。     

攀西层状岩体及钒钛磁铁矿床成因模式

元古代晋宁期本区发生了一次裂谷-大洋过程,形成扬子板块西部的被动大陆边缘。古生代扬子板块由南向北漂移,寒武纪末—奥陶纪初本区到达南纬9°左右。这时古边界断层重新活动,分异地幔发生2—5%部分熔融所产生并聚集在莫霍面附近的碱性橄榄玄武岩浆沿断裂带上升,形成上部岩浆房。随后岩浆在不同压力下结晶,分别形成基性岩体和基性-超基性岩体;同时由于氧逸度高,铁钛氧化物早期晶出并堆积在岩浆房底部形成早期岩浆矿床。岩浆多次脉动贯入曾使正常的结晶作用多次中断和反复,形成两个以上的Ⅱ级韵律层和相应的钒钛磁铁矿层。由于双扩散作用,结晶锋面以上的岩浆发生对流和分层又使正常的结晶层序复杂化。     

四川杨柳坪Cu—Ni—PGE富矿体的成因及意义

Cu-Ni-PGE矿床绝大多数赋存在基性超基性岩岩体内部,在成因上主要与岩浆结晶分异熔离作用有关,岩浆期后或者独立的热液对于矿床的形成往往起叠加富集的作用。但在四川杨柳坪矿区,除了一般岩浆结晶分异熔离作用形成的Cu-Ni-PGE矿体之外,新近还发现存在独立的完全由热液形成的Cu-Ni-PGE矿体,矿体赋存在基性超基性岩体之外的大理岩片岩中,与基性超基性岩没有直接的关系,矿石品位很高,而且已经成为首要的开采对象。考虑到这样的富矿体在国外文献中鲜有报道,本文介绍其地质概况及初步的研究结果。     

塔里木板块东北边缘弧后裂谷系统基性、超基性岩特征

伸展系统中的基性、超基性岩与铜镍硫化物矿床密切相关。本文研究了塔里木板块东北边缘(可追溯到中元古代)的基性、超基性岩的岩石学、地球化学特征及其形成构造环境,认为该区的基性、超基性杂岩可分为两类:一类形成于裂谷作用早期(中元古代),另一类形成于裂谷作用鼎盛时期或弧后盆地阶段(早古生代)。后者可归入蛇绿杂岩中;前者与镍铜成矿系统密切相关,但很难完全归入已有的基性、超基性岩分类之中,属于一种新类型,建议将其命名为大陆边缘裂谷型基性超基性岩。研究区大陆边缘裂谷型基性超基性岩Sm-Nd模式年龄为1026~1749Ma,其深成岩(黑山岩体)岩石组合为:石英正长岩-辉长岩-角闪辉长岩-含云母斜长角闪辉橄岩-含云母角闪辉橄岩-含云母斜长角闪橄榄岩-辉石岩,超基性岩m/f平均值为5.5,∑REE为20.9×10-6～64.71×10-6,平均29.91,LREE略富集,辉长岩TiO2为0.92%;浅成岩(黑山北岩体)岩石组合为:灰黑色细粒角闪辉长(玢)岩-暗绿黑色细粒绿泥石化辉长苏长岩-深黑色中粒橄榄二辉岩,TiO2强烈富集,其中辉长(玢)岩TiO2为1.32%～3.32%,MgO、CaO亏损,Rb、Sr、Y、Zr、Nb、Ba、Cs、Hf、Ta、Th、U强烈富集,Sc、V、Cu较富集,Cr、Co、Zn亏损,LREE略富集。表明中元古代塔里木板块东北边缘已经出现活动大陆边缘后方伸展体制,在     

东天山香山铜镍矿区构造特征与成岩成矿

香山铜镍矿床属典型的岩浆型铜镍硫化物矿床，产于东天山东段黄山-镜儿泉铜镍成矿带中，矿床形成主要受岩浆作用和构造作用控制．岩浆作用为矿床的形成提供了物质来源及成矿元素的熔离富集，构造作用为成矿物质提供了上侵通道和容矿空间．矿区断裂构造以韧性剪切带为主，具多级构造组合特点，共划分出4级构造层次，各级构造与成岩成矿有密切关系．I级构造控制基性。超基性岩带的分布；Ⅱ级构造控制基性—超基性岩体群的分布；Ⅲ级构造控制基性—超基性岩体或矿体的形态、产状；Ⅳ级构造控制岩相带或矿体的产出．     

内蒙温根南基性-超基性岩体岩石学、地球化学特征及其形成构造背景

内蒙古温根南岩体位于内蒙古中部,属于华北克拉通北缘中段,主要火成岩组合为纯橄岩-橄长岩-辉长岩,平面上呈NNE向延伸。元素地球化学分析结果显示,岩体富Mg、低碱和Ti O2,全岩氧化物含量主要受控于橄榄石、单斜辉石和斜长石的相对分配比例,微量元素含量总体较低,具Nb、Ta和Hf轻微亏损,Pb、Sr显著富集的特征。其中辉长岩表现出显著的Nb、Ta负异常和Pb、Sr正异常。辉长岩微量元素相对纯橄岩和橄长岩明显富集。辉长岩相-纯橄岩相中总稀土含量变化较大(1.41×10-6~111.6×10-6),稀土元素配分曲线表现为轻微右倾型与平坦型,岩体深部超基性岩类总稀土含量极低,随着其结晶分异程度的增大和堆晶作用的加强,岩石中稀土元素含量迅速升高,反映晶间残余熔体的比重不断升高。运用橄榄石与残余熔浆平衡方法制约母岩浆性质,结果表明温根南岩体初始岩浆MgO=11.73%,FeO=11.38%,属于高镁玄武质岩浆。温根南岩体基性-超基性岩中Sr-Nd同位素投点主要靠近EM I型富集地幔端元,推测幔源岩浆在源区或上升过程中受到了地壳物质的混染。运用Zr、Y、Th、Ta等不相容元素的比值(判别岩浆演化过程,基于Th/Nb比值(1)和低Nb/La比值(1)表明温根南岩体初始岩浆侵位过程中遭受到了地壳物质的混染。温根南岩体Ta/Th-Zr/Nb、Th/Yb-Th/Nb、Ta/Th-Th/Yb、Nb/Th-Nb构造环境判别图中主要落入板内玄武岩(WPB)范围,推测温根南基性-超基性岩体在早石炭纪形成于板内伸展构造环境。     

峨山玉河寨杂岩体的反序岩浆演化及成因探讨

玉河寨基性－超基性环状杂岩体的岩相学及地球化学资料表明，属同源岩浆演经的产物，岩浆演化为基性→超基性的反序岩浆演化。这种反序岩浆演化的机制主要是由于斜长石在高位岩浆房中的分离结晶所致。对流分离作用可能是斜长石晶体从熔融体中分离的方式。在此基础上，笔者提出了该岩体的成因模式。     

新疆牛毛泉磁铁矿含矿岩体岩浆演化过程及源区特征

牛毛泉基性杂岩体位于准噶尔古板块博格达-哈尔里克晚古生代岛弧东段,赋存磁铁矿。研究表明,该岩体具有明显成层性和韵律构造特征,主要岩石类型有橄榄辉长岩、含橄榄辉长岩、辉长岩和角闪辉长岩。岩石地球化学特征表明,该套岩石属拉斑玄武岩系列,m/f值介于0.65~1.44之间,属铁质基性-超基性岩。岩石稀土元素总量相对较低,稀土元素配分曲线为轻稀土元素略富集的右倾型;岩石富集大离子亲石元素(Rb、Ba、Sr、U),相对亏损高场强元素(Zr、Hf),具有明显的Nb、Ta负异常和弱的Ti正异常。岩石εNd(t)=-3.4~-0.50,εSr(t)=-3.4~8.5,具有向EMⅠ方向演化的趋势,表明岩浆源区可能为受俯冲流体交代改造的富集岩石圈地幔,是新疆北部早二叠世时期后碰撞伸展阶段的产物,由拆沉的富集岩石圈地幔被软流圈加热后发生部分熔融并上侵形成。     

塔里木板块东北部笔架山东基性-超基性岩体地球化学特征与岩石成因

笔架山东基性—超基性岩体位于塔里木板块东北部的新疆北山地区,是笔架山岩带中最东边的一个岩体,岩体形态为椭圆状,出露面积约5 km2.由含长单辉橄榄岩、橄榄辉长岩、含橄辉长岩、辉长岩以及辉绿岩组成.含橄榄石较多的岩石属拉斑玄武岩系列,而辉长岩属钙碱性系列.岩相学、岩石化学和微量元素地球化学特征表明岩浆演化过程中经历了橄榄石、辉石、斜长石的分离结晶作用.Nd、Sr、Pb同位素组成和岩石地球化学特征反映出岩浆与围岩之间存在物质交换.笔架山东岩体的岩浆源区为OIB型地幔源区,原生岩浆为高镁拉斑玄武岩浆[w(MgO)=11.2％],这些性质与塔里木板块东北部其他基性-超基性岩体的特征相似,表明塔里木板块东北部二叠纪基性—超基性岩体的源区主要为OIB型地幔,可能与地幔柱有关.     

Magma type and genesis of the basic-ultrabasic layered intrusions in Panzhihua-Xichang area,Southwest China

The layered intrusions in the Panzhihua-Xichang area may be grouped into two types: basic rock masses represented by the Panzhihua rockbody and basic-ultrabasic rock masses represented by the Hongge rockbody. Their major difference lies in that the former has poorly developed ultramafic facies, while the latter is characterized by well developed mafic facies and ultramafic facies. There exists apparent rhythmic stratification in the rock masses, which can be basically divided into four grades in terms of superimposition relationship and multicycle characters. Both direct and indirect evidence suggest that the magma responsible for the layered intrusions in this area should be a transition-type alkaline olivine basalt magma derived directly from partial melting of the upper mantle. In rhythmic cycles of various grades, the magmatic evolution is characterized obviously by periodicity and early enrichment of Fe and Ti, which is evidently different from the evolution of the Skaergaard magma in which Fe and Ti are enriched at the late stage. The FCA diagram can be used to describe the unique evolutionary trend of magma in this area. It is demonstrated in this diagram that the enrichment of Fe and Ti is consistent with the increase of basicity. In the upper magmatic chamber, the evolutionary trend of magma is conditioned by the difference in pressure, and this enables magma to form different types of rock assemblage. In the Fo-Di-An system, when the pressure exceeds 5 x 18⁸ Pa, forsterite is incompatible with anorthite, and the rock facies sequence of Hongge type might form; when the pressure is lower than 5 x 10⁸ Pa, forsterite can coexist with anorthite, and the rock facies sequence of Panzhihua type is likely to form if the magma is relatively rich in Mg and Fe components.     

In-situ LA-ICP-MS trace elemental analyses of magnetite: Fe–Ti–(V) oxide-bearing mafic–ultramafic layered intrusions of the Emeishan Large Igneous Province,SW China

The Taihe, Baima, Hongge, Panzhihua and Anyi intrusions of the Emeishan Large Igneous Province (ELIP), SW China, contain large magmatic Fe–Ti–(V) oxide ore deposits. Magnetites from these intrusions have extensive trellis or sandwich exsolution lamellae of ilmenite and spinel. Regular electron microprobe analyses are insufficient to obtain the primary compositions of such magnetites. Instead, laser ablation ICP-MS uses large spot sizes (~ 40 μm) and can produce reliable data for magnetites with exsolution lamellae. Although magnetites from these deposits have variable trace element contents, they have similar multi-element variation patterns. Primary controls of trace element variations of magnetite in these deposits include crystallography in terms of the affinity of the ionic radius and the overall charge balance, oxygen fugacity, magma composition and coexisting minerals. Early deposition of chromite or Cr-magnetite can greatly deplete magmas in Cr and thus Cr-poor magnetite crystallized from such magmas. Co-crystallizing minerals, olivine, pyroxenes, plagioclase and apatite, have little influence on trace element contents of magnetite because elements compatible in magnetite are incompatible in these silicate and phosphate minerals. Low contents and bi-modal distribution of the highly compatible trace elements such as V and Cr in magnetite from Fe–Ti oxide ores of the ELIP suggest that magnetite may not form from fractional crystallization, but from relatively homogeneous Fe-rich melts. QUILF equilibrium modeling further indicates that the parental magmas of the Panzhihua and Baima intrusions had high oxygen fugacities and thus crystallized massive and/or net-textured Fe–Ti oxide ores at the bottom of the intrusive bodies. Magnetite of the Taihe, Hongge and Anyi intrusions, on the other hand, crystallized under relatively low oxygen fugacities and, therefore, formed net-textured and/or disseminated Fe–Ti oxides after a lengthy period of silicate fractionation. Plots of Ge vs. Ga + Co can be used as a discrimination diagram to differentiate magnetite of Fe–Ti–(V) oxide-bearing layered intrusions in the ELIP from that of massif anorthosites and magmatic Cu–Ni sulfide deposits. Variable amounts of trace elements of magmatic magnetites from Fe–Ti–(P) oxide ores of the Damiao anorthosite massif (North China) and from Cu–Ni sulfide deposits of Sudbury (Canada) and Huangshandong (northwest China) demonstrate the primary control of magma compositions on major and trace element contents of magnetite.     

Study of oxygen fugacity during magma evolution and ore genesis in the Hongge mafic–ultramafic intrusion,the Panxi region,SW China

Economic concentrations of Fe–Ti oxides occurring as massive layers in the middle and upper parts of the Hongge intrusion are different from other layered intrusions (Panzhihua and Baima) in the Emeishan large igneous province, SW China. This paper reports on the new mineral compositions of magnetite and ilmenite for selected cumulate rocks and clinopyroxene and plagioclase for basalts. We use these data to estimate the oxidation state of parental magmas and during ore formation to constrain the factors leading to the abundant accumulation of Fe–Ti oxides involved with the Hongge layered intrusion. The results show that the oxygen fugacities of parental magma are in the range of FMQ?1.56 to FMQ+0.14, and the oxygen fugacities during the ore formation of the Fe–Ti oxides located in the lower olivine clinopyroxenite zone (LOZ) and the middle clinopyroxenite zone (MCZ) of the Hongge intrusion are in the range of FMQ?1.29 to FMQ?0.2 and FMQ?0.49 to FMQ+0.82, respectively. The MELTS model demonstrates that, as the oxygen fugacity increases from the FMQ?1 to FMQ+1, the proportion of crystallization magnetite increases from 11 % to 16 % and the crystallization temperature of the Fe–Ti oxides advances from 1134 to 1164 °C. The moderate oxygen fugacities for the Hongge MCZ indicate that the oxygen fugacity was not the only factor affecting the crystallization of Fe–Ti oxides. We speculated that the initial anhydrous magma that arrived at the Hongge shallow magma chamber became hydrous by attracting the H₂O of the strata. In combination with increasing oxygen fugacities from the LOZ (FMQ?1.29 to FMQ?0.2) to the MCZ (FMQ?0.49 to FMQ+0.82), these two factors probably account for the large-scale Fe–Ti oxide ore layers in the MCZ of the Hongge intrusion.     

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.     

岩浆Cu-Ni-PGE矿床和Fe-Ti-V矿床的关键控矿因素评述:兼论与峨眉山玄武岩的关系

峨眉山大火成岩省中广泛分布着赋存Fe-Ti-V氧化物矿的层状辉长岩体和赋存Cu-Ni-PGE硫化物矿的镁铁超镁铁岩体,系统归纳并分析了这两类成矿岩浆在控矿因素、岩浆性质、岩浆过程等方面存在的差异.对比Cu-Ni-PGE硫化物矿床和Fe-Ti-V氧化物矿床差异,认为岩浆分异程度、部分熔融程度、挥发分(S和P)以及是否存在地壳混染是造成这两类矿床成矿差异的原因.一系列的矿床实例分析表明高Ti或低Ti性质并不是玄武质岩浆成矿专属性的决定性因素,Fe-Ti-V氧化物矿床和Cu-Ni-PGE硫化物矿床的形成与各自的控矿因素有关.      

Fractional crystallization and the formation of thick Fe–Ti–V oxide layers in the Baima layered intrusion,SW China

The Baima layered intrusion is located in the central part of the Emeishan Large Igneous Province (ELIP). The N–S striking intrusion is ~ 24 km long and ~ 2 km thick and dips to the west. Based on variations in modal proportions and cumulus mineral assemblages, the intrusion from the base to the top is simply subdivided into a lower zone (LZ) with most of the economic magnetite layers, and an upper zone (UZ) with apatite-bearing troctolite and gabbro. The rock textures suggest crystallization of the Fe–Ti oxide slightly later than plagioclase (An_67-54) but relatively earlier than olivine (Fo_74-55), followed by clinopyroxene and finally apatite.Relatively low olivine forsterite content and abundant ilmenite exsolution lamellae in clinopyroxene indicate that the Baima parental magma is a highly evolved Fe–Ti-rich magma. Via MELTS model, it demonstrates that under a closed oxygen system, extensive silicate mineral fractionation of a picritic magma might lead to Fe and Ti enrichment and oxygen fugacity elevation in the residual magma. When such Fe–Ti-rich magma ascends to the shallower Baima intrusion, the Fe–Ti oxides may become an early liquidus phase. Well-matched olivine and plagioclase microprobe data with the results of MELTS calculation, combined with relatively low CaO content in olivine (0.02–0.08 wt.%) indicate that wall-rock contamination probably plays a weak role on oxygen fugacity elevation and the early crystallization of Fe–Ti oxides. Several reversals in whole-rock chromium and plagioclase anorthite contents illustrate that multiple recharges of such Fe–Ti-rich magma mainly occurred along the lower part of the Baima magma chamber. Frequent Fe–Ti-rich magma replenishment and gravitational sorting and settling are crucial for the development of thick Fe–Ti oxide layers at the base of the Baima layered intrusion.     

宕昌好梯第三纪超镁铁质岩中巨晶及其形成条件

分布于好梯第三纪陆相地层中的超镁铁质岩属碱性超基性岩，为超镁铁煌斑岩。该岩石系中心式超基性火山爆发—喷溢产物。其产出与南北向幔型断裂活动和地幔部分熔融岩浆贯入密切相关。根据岩石组合及产状，好梯陆相超基性火山岩可分为火山颈相、喷发相和次火山岩相。其中火山颈相和喷发相内的碎屑熔岩含有大量的二辉橄榄岩包体，并与单斜辉石和橄榄石巨晶共生。研究结果表明，巨晶系岩浆在上地幔条件下结晶的高压产物     

塔里木板块东北部坡一镁铁质-超镁铁质层状侵入体岩石成因

坡一侵入体位于塔里木板块东北部坡北岩体内,是该岩体第三阶段岩浆活动形成的十几个小侵入体中的一个,锆石U-Pb年龄为278±2Ma。该侵入体属于以超镁铁质岩石为主的层状岩系,堆晶结构与韵律性堆晶层理非常发育。岩浆分异充分,形成了从纯橄岩到石英闪长岩的多种岩石类型。在超镁铁质岩石中,所有的橄榄石和大部分斜方辉石是堆晶相,少量斜方辉石是填隙相,大部分单斜辉石、褐色普通角闪石和黑云母是填隙相。在镁铁质岩石中,橄榄石和斜方辉石全部是堆晶相,单斜辉石与斜长石既可以是堆晶相,也可以是填隙相;褐色普通角闪石、黑云母和石英均为填隙相。超镁铁质岩石属拉斑玄武岩系列,镁铁质岩石属钙碱性系列。侵入体中大量存在的捕掳体、微量元素地球化学、Nd-Sr同位素组成的EMⅡ型演化趋势,充分证明了同化混染作用伴随岩浆演化过程而逐渐增强,并不断促进了岩浆的分异,而且导致了岩石化学系列的转化。PGE和亲硫元素地球化学以及硫同位素组成证明,硫主要来自于岩浆,硫化物形成于岩浆阶段,岩浆未经历过早期硫化物熔离作用,硫化物熔离起始于橄榄岩相结晶的晚期阶段,并伴随着此后的岩浆演化过程而继续熔离。硫化物熔离是岩浆自身演化和同化混染共同作用的结果。橄榄石Fo分子含量和全岩FeO含量显示,原生岩浆是苦橄质岩浆;源区物质应该是石榴石辉石岩;岩浆生成于地幔柱轴部。在塔里木板块东北部还存在分别来自于软流圈和亏损型大陆岩石圈地幔的二叠纪岩浆岩,它们都应该是塔里木大火成岩省的组成部分。     

Crustal Contamination of Picritic Magmas During Transport Through Dikes: the Expo Intrusive Suite, Cape Smith Fold Belt, New Quebec

The Proterozoic Expo Intrusive Suite comprises a series of maficto ultramafic intrusions crosscutting the Povungnituk Groupof the Cape Smith Fold Belt in New Quebec. The intrusions aremainly in the form of blade-shaped dikes that penetrate a sediment-richhorizon in the middle of the Beauparlant Formation and terminatedownward against massive basalts of the lower Beauparlant Formation.Significant accumulations of magmatic sulfide occur at the basalterminations of the dikes. At stratigraphic levels above theBeauparlant Formation the intrusions appear as broad dikes orsills within the Nuvilik Formation, below the mineralized lavaflows and subvolcanic intrusions of the Raglan Formation. TheExpo Intrusive Suite and the mineralized bodies of the RaglanFormation are probably coeval and comagmatic with the overlyingChukotat Group. Post-emplacement folding has exposed the ExpoIntrusive Suite over about 5 km of structural relief, revealingthe basal sulfide concentrations where dike segments terminateon the flanks of anticlines. The parent magma as preserved inchilled margins and narrow dikes was a picrite containing 17wt % MgO (i.e. komatiitic basalt) and slightly depleted in Th,U and Nb relative to middle and heavy rare earth elements. Thecompositions of ultramafic cumulate rocks within the intrusionsare strongly enriched in Th, U and Nb relative to heavy rareearth elements, reflecting assimilation of the enclosing basaltsand metasediments. Modeling of the assimilation process suggeststhat the picritic magma was capable of assimilating masses ofbasalt or sediment up to 50% of the original mass of magma.Assimilation of 10% of a mixture of basalt and sediment causedthe magma to become sulfide-saturated, and was accompanied bythe crystallization of masses of ultramafic cumulates approximatelyequal to the mass of rock assimilated. The presence of dikeswhose chilled margins resemble uncontaminated primary magmasbut that contain abundant cumulates recording wholesale assimilationof host-rocks indicates that the process of assimilation andfractional crystallization required to produce continental tholeiitesfrom picritic parent magmas may not require the presence oflong-lived magma chambers, but can occur during transport alongdikes and reaction with wall-rocks. KEY WORDS: komatiite; Expo Intrusive Suite; assimilation; fractional crystallization; sulfide mineralization     

新疆坡北杂岩体西端镁铁-超镁铁质岩体成因的稀有气体同位素制约

新疆坡北镁铁-超镁铁质杂岩体由一个辉长岩体以及二十多个超镁铁质侵入体组成,其中坡一超镁铁质岩体稀有气体同位素组成揭示存在地幔柱的贡献。坡北杂岩体西端的坡一、坡四、坡十和坡十四等几个超镁铁质岩体的稀有气体同位素对比分析结果表明,岩浆矿物的³He/⁴He值（0.26~2.79Ra）分布于地壳与地幔值之间,较高的²⁰Ne/²²Ne和较低的²¹Ne/²²Ne值分布于Ne质量分馏线（MFL）和L-K线之间,⁴⁰Ar/³⁶Ar=295~598。³He/⁴He与⁴⁰Ar/³⁶Ar比值揭示坡北杂岩体西端不同超镁铁质岩体形成过程中地幔（柱）、地壳和大气组分的贡献不同,岩体成因也可能不同。其中,坡一岩体具有地幔柱作用的贡献,其他三个岩体的岩石圈地幔及地壳流体组分的贡献较大。岩浆地幔源区由深部地幔柱物质叠加俯冲流体交代的岩石圈地幔物质所组成,大气与地壳物质组分可能由俯冲再循环洋壳带入到岩浆地幔源区以及围岩物质的混入。