北京周口店岩株侵位和成分分带的岩浆动力学机理

北京周口店岩株是一个二次侵入的同心带状复式岩体。第一次侵入的石英闪长岩零星分布于岩体边缘;第二次侵入的花岗闪长岩为岩株主体。宏观上具明显的岩相分带,化学成分上显示边部富高温组份(Mg,Ca,Sc,Ti,Mn,Fe和Co等),而中央仅轻微富集某些低温组份(Na,Si等)。     

江西岩背火山-侵入杂岩的微量元素协变关系及其岩浆房成分分带形成机制的探讨

以根据岩背斑岩锡矿区火山－侵入杂岩的微量元素Ｓｒ、Ｒｂ、Ｅｒ、Ｈｆ、Ｎｂ等协交关系,探讨了岩浆房成分分带的形成机理。认为初始岩浆的形成主要是经过两次聚集熔融作用（第一次熔出酸性岩浆,第二次熔出中酸性岩浆）。酸性岩浆未喷出地表的部分在中深部位经过平衡结晶作用（非理想）,使Ｆ、Ｈ２Ｏ和成矿元素明显集中于晚期岩浆中。     

江西岩背火山-侵入杂岩的微量元素协变关系及其岩浆房成分分带形成机制的探讨

以根据岩背斑岩锡矿区火山－侵入杂的微量元素Ｓｒ,Ｒｂ,Ｅｒ,Ｈｆ,Ｎｂ等协变关系,探讨了岩浆房成分分带的形成机理,认为初始岩浆的形成主要是经过两次聚集熔融作用（第一次熔出酸性岩浆,第二次熔出中酸性岩浆）。酸性岩浆未喷邮地表的部分在中溶部位经过平衡结晶作用（非理想）,使Ｆ,Ｈ２Ｏ和成矿元素明显集中于晚期岩浆中。     

新疆坡北基性-超基性岩带1号岩体地质特征及其含矿性研究

坡北1号岩体是幔源基性岩浆以深部分异多次侵入和结晶分异两种方式形成的基性-超基性复式岩体。该岩体属于橄榄辉长岩—橄榄单辉岩—单辉橄榄岩型,规模较大,分异良好,地表发现铜镍硫化物矿化带。与国内已知含矿岩体对比,1号岩体的类型、岩石化学特征、有用组分含量和地表矿化特征都在含铜镍硫化物矿体的变化范围之内。物探测量结果显示深部存在低阻高激化体。因此,1号岩体是坡北岩带中寻找铜镍硫化物矿床远景很好的岩体。     

东昆仑夏日哈木超大型岩浆镍钴硫化物矿床成矿特征

超大型岩浆镍钴硫化物矿床的形成多与大陆裂谷或地幔柱活动密切相关,是何种机制促使深部幔源金属元素超常富集于东昆仑造山带而形成超大型岩浆镍钴硫化物矿床呢?文章通过剖析夏日哈木岩体及矿体基本特征,发现赋矿岩体整体呈东宽西窄的楔状体,以富集轻稀土元素、贫重稀土元素以及Nb、Ta、Zr、Hf等高场强元素的亏损为特征,镍钴矿体主要富集于辉石岩和橄榄岩中,西段矿石富,东段矿石贫,矿石品位与橄榄石含量呈正相关关系.精细矿物学研究发现,寄主矿物"巨型"斜方辉石所包裹的橄榄石Fo值及Ni含量从核部到边部均增高,揭示含矿岩相侵入过程中可能存在至少2次岩浆活动.由橄榄石和铬尖晶石成分分析,推测夏日哈木母岩浆为低Ti、高Mg的拉斑玄武质岩浆,可能起源于软流圈地幔.结合区域构造演化和岩体形成时代,认为东昆仑夏日哈木镁铁-超镁铁质岩体形成于伸展环境,深部部分熔融形成的岩浆多次脉冲上涌叠加,地壳混染对硫化物达到饱和具有关键作用,于柴达木盆地南缘东昆仑造山带中构造薄弱部位成岩成矿,可能是伴随古特提斯洋演化开始大陆裂解岩浆镍钴成矿响应的表现.该认识对丰富造山带中的岩浆镍钴硫化物矿床成矿理论研究、拓宽岩浆镍钴矿床找矿空间与潜力、支撑并指导区域找矿新突破,具有重要作用.     

Cumulatic Diorites Related to Post-Collisional,Brasiliano/Pan-African Mafic Magmatism in the Vila Nova Belt,Southern Brazil

The Capivaras Diorite, in the Vila Nova region, NW of the Sul-rio-grandense Shield, is composed of six NE- to NNE-oriented rock bodies of late-tectonic emplacement relative to the D3 deformation phase which forms subvertical high-strain zones in basement gneiss sequences. Within these intrusive bodies, a shape foliation is present, generally parallel to contacts and displaying a local solid-state deformational component. The internal structure of the Capivaras Diorite main intrusion is marked by a zone of intense flow and mingling, characterized by strong shape foliation and layers of variable texture and composition, which result from cumulative processes, heterogeneous flow and interaction of coeval, compositionally contrasting magmas. The central part of this intrusion is texturally homogeneous and slightly foliated, even though cumulative processes have remained important during its formation. Along the contact with basement gneisses, fine-grained diorites are found, which are considered to be compositionally close to the parental magma of the Capivaras Diorite. This magma has a mildly alkaline affinity and shows moderate to high contents of Zr, Ti and P. Highly-fractionated REE patterns, low Nb contents, as well as high contents of K, Sr, Ba, and Rb, are suggestive of its provenance from mantle sources which have been previously affected by subduction processes, such as those of mature magmatic arcs or post-collisional settings. Magmatic evolution was controlled by cumulative processes and gave origin to pyroxene orthocumulates, plagioclase-pyroxene orthocumulates, pyroxene adcumulates, and more rarely plagioclase adcumulates. The cumulative origin of these rocks is indicated by field, textural and geochemical features, which are distinct from those of crystallized liquids. The compositional diversity of cumulates has led to the generation of compositionally different melts. The early-formed pyroxene cumulates have caused Ca, Al, Na, Ba, and Sr enrichment in the magmatic liquid, leading to plagioclase crystallization and accumulation. Coarse-grained mafelsic cumulates were formed during the late stages of magmatic crystallization, due to volatile enrichment of the intercumulus liquid. Considering geological relations, as well as tectonic and compositional features of the Capivaras Diorite, it is interpreted as part of Neoproterozoic magmatism related to the post-collisional stage of Brasiliano/Pan-African Orogenic Cycle in southern Brazil.     

Pyroxenes of the Dufek Intrusion, Antarctica

The Dufek intrusion is a stratiform mafic body, 24,000 to 34,000km² in area and 8 to 9 km thick, in the Pensacola Mountainsof Antarctica. Textures, structures, magmatic stratigraphy,and chemical variation indicate that layered gabbros and relatedrocks of this body developed by accumulation of crystals thatsettled on the floor of a magma chamber. The major cumulus phasesin the exposed part of the intrusion are plagioclase, pyroxene,and iron-titanium oxides. The base of the Dufek intrusion is not exposed, and both Ca-richand Ca-poor pyroxene coexist as cumulus phases in the lowerexposed rocks. The Ca-rich pyroxenes belong to an augite-ferroaugiteseries (Ca_36.4Mg_48.7Fe_14.9-Ca_30.0Mg_23.5Fe_46.5) that extendsup through the 300 m thick capping granophyre. The Ca-poor pyroxenesbelong to a bronzite-inverted pigeonite series (Ca_3.5Mg_69.1Fe_27.4-Ca_11.4Mg_34.0Fe_54.6)that extends only to about 200 m below the granophyre layer.In addition to the cumulus pyroxenes some rocks contain post-cumulusgreen calcic augite and ferrohypersthene. The compositional change of the cumulus pyroxenes with stratigraphicheight is one of general iron enrichment. Superimposed on thistrend are (1) a 1 km thick section in the lower part of thebody that shows slight to no iron enrichment and (2) a markedreversal in the Fe/(Fe+Mg) ratio about 1 km below the top ofthe body. The variations from the general trend are associatedwith cyclic units and are best explained by convective overturnof the magma. In general, the pyroxene compositional trends are similar tothose of the Skaergaard and Bushveld intrusions. One significantdifference in the Dufek intrusion is the limited iron enrichmentof its Ca-rich pyroxenes, that may relate to a slower decreaseof P_O2 during crystallization of the Dufek magma.     

周口店岩体热动力构造及定位机制研究

周口店岩体是一个具有两次侵入活动的复式岩株。根据与侵入体协调一致的围岩构造、岩体的流动构造、捕虏体应变测量、岩体西北缘强变形带特征及小型韧性剪切带研究,表明周口店岩体是一个典型的斜向底辟侵入、类热气球膨胀模式的岩体。岩体西北缘强变形区的“片麻状构造”是岩桨脉动形成的挤压片理（S）,不是原生流动构造;岩体西北部小型韧性剪切带的剪切片理（C）晚于挤压片理（S）。它们都是岩桨脉动底辟侵入的产物。这一结论由韧性剪切带中石英组构分析得到验证。     

Petrology of the Marginal Border Series of the Skaergaard Intrusion

The Marginal Border Series (MBS) of the Skaergaard intrusionconsists of rocks formed by in situ crystallization againstthe walls of the intrusion. Most of these rocks are productsof fractional crystallization, though samples believed to representchilled liquid occur locally at the intrusive contact. The MBScomprises only 5% of the exposed volume of the intrusion, butwithin its thickness, the order of crystallization and the compositionsof fractionated rocks and minerals vary systematically withdistance inward from the intrusive contact in largely the samemanner as rocks and minerals upward through the Layered Series(LS). Earliest differentiates are cumulates of olivine and plagioclase.The most basic compositions of cumulus plagioclase (An₇₂) andolivine (Fo₈₄) in these rocks indicate that the amount of fractionationpreceding formation of the exposed LS was substantially lessthat previously believed. Field and compositional data indicatethat picritic blocks are xenoliths rather than cumulates ofthe Skaergaard magma. Xenoliths of gneiss in all stages of reactionare locally abundant; however, there is no evidence that uppercrustal material contaminated the magma from which the MBS cumulatesformed. Compositions of cumulus minerals in the MBS differ fromthose in comparable LS rocks. Cumulates in the lower marginscontain more calcic plagioclase, more magnesian augite in allbut the late differentiates, and more iron-rich olivine. Thecompositions of cumulus olivine and to a lesser degree thoseof other mafic silicates, were modified to more iron-rich compositionsby re-equilibration with relatively large amounts of interstitialliquid. The lower MBS and LS crystallized from the same magma, but fractionationoccurred at different rates on the walls and floor of the intrusion.The upper margin may have crystallized from a magma of modifiedcomposition and fractionated at rates different from that inthe lower margin and Upper Border Series (UBS). Crystals onthe floor and roof of the intrusion accumulated faster or moreefficiently than on the walls. At any given stage of fractionation,crystals also accumulated against all sides of the magma chamberat about the same rate. Either the rates of cooling, crystallization,and crystal retention affected accumulation rates locally asfunctions of rock type and geometry of the walls, or these rateswere largely independent of wall rock owing to buffering ofconductive heat loss possibly to an envelope of hydrothermalfluid circulating around the crystallizing magma. The appearanceor disappearance of cumulus minerals in the lower MBS occursat higher structural levels than in the LS and at lower structurallevels than in the UBS. These relationships together with cumulusmineral compositions indicate that magma at the margins wasalways somewhat less fractionated than that at the floor androof of the chamber. It is proposed that these relationshipsreflect the combined effects of liquid and crystal fractionationof the magma within largely independent convection systems inthe lower and upper parts of the chamber.     

Petrology of the Treknattan intrusion in the Fongen-Hyllingen complex, Trondheim region, Norway: a late intrusion into an evolved layered complex

The basic-ultrabasic Treknattan intrusion is an important example of a late intrusion in a solidified, evolved, layered complex and sheds light on possible mechanisms by which such associations may develop. The Treknattan intrusion, emplaced into the basic Fongen-Hyllingen intrusion shortly after the latter had solidified, consists mainly of massive or weakly layered peridotite (olivine ± Cr-spinel cumulate) and troctolite (plagioclase + olivine ± Cr-spinel cumulate). The mineral compositional range partially overlaps the most primitive end of the much larger variation-interval in the Fongen-Hyllingen intrusion. The margin of the Treknattan intrusion is sometimes outlined by massive feldspathic websterite which appears to have formed by reaction between magma and melts of gabbroic country rock. The parental magma appears to have been a relatively water-rich picritic basalt with a possible genetic relationship to the magma parental to the enveloping Fongen-Hyllingen intrusion, both displaying tholeiitic relationship between olivine and Ca-poor pyroxene, and having crystallized from relatively water-rich magmas with an early crystallization order of olivine ± Cr-spinel-plagioclase-Ca-rich pyroxene. The recognition of the Treknattan intrusion as a separate body suggests that the bulk composition of the Fongen-Hyllingen intrusion is dioritic rather than gabbroic as previously thought.     

鲁西中生代高Mg闪长岩的成因:年代学与岩石地球化学证据

鲁西高Mg闪长岩分布较为广泛, 莱芜铁铜沟岩体和淄博金岭岩体是其典型代表.铁铜沟岩体早期苏长辉长岩和晚期辉石闪长岩、金岭黑云母闪长岩的LA-ICPMS U-Pb谐和加权平均年龄分别为(131.4±4.9)Ma(n=15)、(134.5±2.3) Ma(n=13)和(132.8±4.2)Ma(n=12), 它们代表了岩体的侵位结晶年龄——早白垩世.铁铜沟岩体晚期辉石闪长岩中浑圆状锆石的LA-ICPMS U-Pb谐和年龄为(2 513±54)Ma(n=8), 代表了华北克拉通基底的存在.该类岩石以高Mg# (> 60)、富钠、富含轻稀土元素、贫重稀土元素以及高场强元素(Nb、Ta、Zr、Hf)的明显亏损为特征, 显示埃达克岩(adakite) 的特征.该类岩石中地幔橄榄岩包体的广泛存在以及高Mg的特征表明原始岩浆的地幔成因, 而Sr-Nd同位素组成(I_sr为0.704 75-0.707 72和ε_Nd(t)值为-3.95--13.30)和高场强元素(Nb、Ta、Zr、Hf)的亏损以及太古代继承锆石的存在均暗示岩浆源区应有陆壳物质的涉入.铁铜沟岩体和金岭岩体闪长岩成分的差异应归因于岩浆源区性质的差异和部分熔融程度的不同.基于该类岩石的地球化学和所含包体, 同时结合华北克拉通东部中生代早期岩石圈演化历史, 可以认为鲁西中生代早白垩世高Mg闪长岩的形成应为拆沉的岩石圈(地幔+下地壳)与软流圈混熔的产物.      

冀西北姚家庄超镁铁岩-正长岩杂岩体中辉石的环带特征及意义

冀西北姚家庄存在一套晚三叠世的超镁铁岩-正长岩杂岩体,岩体内发育具有环带特征的单斜辉石。辉石的环带有两种:简单环带和复杂环带。简单环带一般为正环带,辉石核部的MgO和Cr2O3含量高,Si O2、Fe O和Na2O含量低;边部的主要氧化物含量与核部刚好相反。简单正环带可以分为两类,其中核边接触带平滑、由核到边化学成分具有渐变特征的正环带辉石可能是岩浆在分离结晶或地壳混染过程中形成。而核边接触带有熔蚀结构、由核到边化学成分突变的正环带辉石可能是早期结晶的辉石颗粒受到晚期低镁岩浆的溶蚀改造而成的。复杂环带具有核-幔-边结构,其中,核部低镁高铁、幔部高镁低铁、边部与核部相似,但其Mg#更低,这些特征暗示了岩浆混合作用的存在,形成辉石核部的母岩浆可能来自富集的岩石圈地幔,幔部高Mg#的特征指示了软流圈地幔物质的贡献,其边部低Mg#的特征则指示了地壳物质的加入。具有韵律环带的复杂辉石是在岩浆多期侵入的过程中形成的。辉石环带的组成特征表明,姚家庄杂岩体是由岩浆多期侵位形成的,后期侵入的岩浆与前期就位的岩浆不断反应,形成了具有多种不同环带特征的辉石,并最终形成了空间上由外到内依次为辉石岩、辉石正长岩和正长岩的环状杂岩体。结合前人的研究成果,推测形成姚家庄岩体的岩浆主要来源于富集的岩石圈地幔,并由少量地壳组分和软流圈物质的贡献。     

河北兴隆M111稀有金属花岗岩体地质和岩石学特征

本文报道了河北燕山地区一个稀有金属花岗岩体的地质特征、岩石学、矿物学和岩石化学特征.这个两次侵入形成的复式岩体,Rb-Sr同位素年龄171Ma。造岩矿物为石英、钠长石、微斜长石、含锂云母。化学成分铝过饱和富钠偏碱性.发育良好的岩性垂直分带,岩石结构、矿物和化学成分均呈规律性的变化.岩浆成分向富钠富稀碱富挥发分的方向分异演化导至Nb、Ta、Li、Be、Rb、Cs等稀有金属矿化。     

冀西北水泉沟—后沟偏碱性正长杂岩体岩石学,岩石化学特征

水泉沟－后沟正生杂岩体是冀西北规模最大偏碱性岩体之一。岩体为５次侵入，８种岩石类型，主要造岩矿物是钾长石和钠长石，少量霓辉石，透辉石。岩石化学与世界偏碱性正长岩相似。     

Relationship between the Layered Series and the overlying evolved rocks in the Bjerkreim-Sokndal Intrusion, southern Norway

The Bjerkreim-Sokndal layered intrusion (BKSK) consists of a > 7000-m-thick Layered Series comprising anorthosites, leuconorites, troctolites, norites, gabbronorites and jotunites (hypersthene monzodiorites), overlain by an unknown thickness of massive, evolved rocks: mangerites (hypersthene monzonites; MG), quartz mangerites (QMG) and charnockites (CH). The Layered Series is subdivided into six megacyclic units that represent the crystallisation products of successive major influxes of magma. We have studied a ca. 2000-m-thick section that straddles the sequence from the uppermost part of the Layered Series to the QMG in the northern part of the intrusion. Mineral compositions in 37 samples change continuously in the lower part of the sequence up to the middle of the MG-unit (plagioclase An37-18; olivine Fo40-7; Ca-poor pyroxene Mg#57-15; Ca-rich pyroxene Mg#65-21). Above this compositions are essentially constant in the upper part of the MG-unit and in the QMG (An21-13; Fo6-4; Mg#opx17-13; Mg#cpx25-20). The amount of interstitial quartz and the amount of normative orthoclase, however, both increase systematically upwards through the QMG-unit, implying that these rocks are cumulates. There is no evidence of a compositional break in the MG-QMG sequence that could reflect influx of relatively primitive magma.

Two types of QMG/CH are known in the uppermost part of BKSK. Olivine-bearing types are comagmatic with the underlying Layered Series; the studied stratigraphic sequence belongs to this suite. Two-pyroxene QMG and amphibole CH define a separate compositional lineage related to jotunites. An intrusive unit of dominantly two-pyroxene QMG is discordant to the olivine-bearing jotunite-MG-QMG sequence near Rapstad, confirming the presence of two compositionally distinct suites of QMG and related lithologies in the upper part of BKSK.

A xenolith-rich unit near the olivine-bearing MG-QMG boundary represents a major collapse of the roof of the magma chamber during the final stages of crystallisation.     

Magnetic and structural study of the Eaux-Chaudes intrusion: understanding the Variscan deformation in the Western Axial Zone (Pyrenees)

The present study provides new magnetic and microstructural data for the Eaux-Chaudes granodioritic massif (Western Axial Zone, Pyrenees) and contributes to the understanding of its geometry, internal structure and emplacement mechanism. Moreover, the geological cross-sections and field data allow to reconstruct the evolution of the whole area from Variscan to Alpine times and to integrate the emplacement of the igneous body in the context of the Variscan orogeny. The Eaux-Chaudes pluton (301?±?9?Ma) is mainly composed by granodiorite, describing a normal compositional zoning and an approximately concentric arrangement that is consistent with the zonation of the low-field magnetic susceptibility. Magnetic foliation is subhorizontal in the inner part of the intrusion and becomes parallel to the petrographical contacts along pluton margins, roughly describing the geometry of the intrusion. Magnetic lineations are dominantly subhorizontal, with E–W to ENE–WSW directional maximum. The general parallelism between Variscan structures of the host rock and the geometry and magmatic fabric of the intrusion reveals a late syn-Variscan emplacement. The tectonic regime registered during magma emplacement is in agreement with an N–S shortening and an E–W stretching direction, consistent with the transpressive regime deduced for other Pyrenean intrusions. Alpine overprint produced a slight tilting in the southern part of the intrusion, but it can be considered that the original Variscan structure is basically unchanged.     

Petrogenesis of Mesozoic High-Mg Diorites in Western Shandong: Evidence from Chronology and Petro-geochemistry

TheeasternNorthChinacraton(NCC)isanat urallaboratoryforthestudyoftheformationandev olutionaryhistoryoftheMesozoiccontinentallitho sphereduetoitsparticulartectonicpositionandthe Mesozoicigneousrockswidelyoccurringonit(Wangetal.,2005;Gaoetal.,2004;Peietal.,2004;Xu etal.,2004a,b,c,2003a,b,2000,1999;Zhanget al.,2002;Griffinetal.,1998;MenziesandXu,1998).However,thehigh Mgdioritesinwestern Shandonghaveimportantimplicationsinthestudyof therelationshipbetweenMesozoicmagmatismand thenatureoftheli…     

Origin of Fe–Ti Oxide Mineralization in the Middle Paleoproterozoic Elet’ozero Syenite–Gabbro Intrusive Complex (Northern Karelia,Russia)

Magmatic oxide mineralization widely developed in syenite–gabbro intrusive complexes is an important Fe and Ti resource. However, its origin is hotly debatable. Some researchers believe that the oxide ores were formed through precipitation of dense Ti-magnetite in an initial ferrogabbroic magma (Bai et al., 2012), whereas others consider them as a product of immiscible splitting of Fe-rich liquid during crystallization of Fe–Ti basaltic magma (Zhou et al., 2013). We consider this problem with a study of the Middle Paleoproterozoic (2086 ± 30 Ma) Elet’ozero Ti-bearing layered intrusive complex in northern Karelia (Baltic Shield). The first ore-bearing phase of the complex is mainly made up of diverse ferrogabbros, with subordinate clinopyroxenites and peridotites. Fe–Ti oxides (magnetite, Ti-magnetite, and ilmenite) usually account for 10–15 vol %, reaching 30–70% in ore varieties. The second intrusive phase is formed by alkaline and nepheline syenites. Petrographical, mineralogical, and geochemical data indicate that the first phase of the intrusion was derived from a moderately alkaline Fe–Ti basaltic melt, while the parental melt of the second phase was close in composition to alkaline trachyte. The orebodies comprise disseminated and massive ores. The disseminated Fe–Ti oxide ores make up lenses and layers conformable to general layering. Massive ores occur in subordinate amounts as layers and lenses, as well as cross-cutting veins. Elevated Nb and Ta contents in Fe–Ti oxides makes it possible to consider them complex ores. It is shown that the Fe–Ti oxide mineralization is related to the formation of a residual (Fe,Ti)-rich liquid, which lasted for the entire solidification history of the first intrusive phase. The liquid originated through multiple enrichment of Fe and Ti in the crystallization zone of the intrusion owing to the following processes: (1) precipitation of silicate minerals in the crystallization zone with a corresponding increase in the Fe and Ti contents in an interstitial melt; and (2) periodic accumulation of the residual melt in front of this zone. Unlike liquid immiscibility leading to melt splitting into two phases, this liquid dissolved the residual components of the melt. Correspondingly, such an Fe-rich liquid has unusual properties and requires further study.     

峨眉山玄武岩和白马层状岩体的铬镍地球化学

文章讨论了峨眉山玄武岩及白马基性、超基性岩体的微量元素地球化学特征。对Cr、Ni富集的地球化学条件进行了探讨,认为在母岩浆分离结晶早期形成的堆积层,即结晶度很小的橄榄岩有利于寻找富Cr、Ni层位。