新疆西准噶尔地区两类蛇绿岩的地质特征及其成因研究

本文将西准噶尔地区蛇绿岩分为两类:一类是变质橄榄岩 橄长岩 辉长岩岩石组合(简称PTG系列);另一类则是变质橄榄岩 辉石岩 辉长岩岩石组合(简称PPG系列)。前者以达拉布特、和布克赛尔蛇绿岩带为代表,后者以唐巴勒、玛依勒山蛇绿岩带为代表。PTG系列遵循富Al的演化趋势,而PPG系列则遵循富Ca的演化趋势;从而造成两类蛇绿岩之间在岩石组合、矿物学、岩石化学、稀土元素等地球化学以及所含铬铁矿床的种属上均有明显的差异。 两类蛇绿岩中变质橄榄岩的成因机制是上地幔岩部分熔融,两者之间的差异则是由部分熔融程度决定的。而壳层岩石(指堆积杂岩、岩墙杂岩、熔岩)则是由岩浆结晶作用形成的;堆积杂岩中出现辉石岩 辉长岩和橄长岩 辉长岩的不同岩石组合则与堆积岩岩浆房出露的深度和氧化状态有关。     

Timing of Magma Mixing in the Gangdisě Magmatic Belt during the India-Asia Collision： Zircon SHRIMP U-Pb Dating

Abstract  Abundant mafic microgranular enclaves (MMEs) extensively distribute in granitoids in the Gangdisê giant magmatic belt, within which the Qüxü batholith is the most typical MME‐bearing pluton. Systematic sampling for granodioritic host rock, mafic microgranular enclaves and gabbro nearby at two locations in the Qüxü batholith, and subsequent zircon SHRIMP II U‐Pb dating have been conducted. Two sets of isotopic ages for granodioritic host rock, mafic microgranular enclaves and gabbro are 50.4±1.3 Ma, 51.2±1.1 Ma, 47.0±1 Ma and 49.3±1.7 Ma, 48.9±1.1 Ma, 49.9±1.7 Ma, respectively. It thus rules out the possibilities of mafic microgranular enclaves being refractory residues after partial melting of magma source region, or being xenoliths of country rocks or later intrusions. Therefore, it is believed that the three types of rocks mentioned above likely formed in the same magmatic event, i.e., they formed by magma mixing in the Eocene (c. 50 Ma). Compositionally, granitoid host rocks incline towards acidic end member involved in magma mixing, gabbros are akin to basic end member and mafic microgranular enclaves are the incompletely mixed basic magma clots trapped in acidic magma. The isotopic dating also suggested that huge‐scale magma mixing in the Gangdisê belt took place 15–20 million years after the initiation of the India‐Asia continental collision, genetically related to the underplating of subduction‐collision‐induced basic magma at the base of the continental crust. Underplating and magma mixing were likely the main process of mass‐energy exchange between the mantle and the crust during the continental collision, and greatly contributed to the accretion of the continental crust, the evolution of the lithosphere and related mineralization beneath the portion of the Tibetan Plateau to the north of the collision zone.     

http://www.sciencedirect.com/science/article/pii/S1674987113000881

Granitod batholiths of I-type features(mostly granodiorites and tonalites),and particularly those forming the large plutonic associations of active continental margins and intracontinental collisional belts,represent the most outstanding magmatic episodes occurred in the continental crust.The origin of magmas,however,remains controversial.The application of principles from phase equilibria is crucial to understand the problem of granitoid magma generation.An adequate comparison between rock compositions and experimental liquids has been addressed by using a projected compositional space in the plane F(Fe t Mg)eAnorthiteeOrthoclase.Many calc-alkaline granitoid trends can be considered cotectic liquids.Assimilation of country rocks and other not-cotectic processes are identifed in the projected diagram.The identifcation of cotectic patterns in batholith implies high temperatures of magma segregation and fractionation(or partial melting)from an intermediate(andesitic)source.The comparison of batholiths with lower crust granulites,in terms of major-element geochemistry,yields that both represent liquids and solid residues respectively from a common andesitic system.This is compatible with magmas being formed by melting,and eventual reaction with the peridotite mantle,of subducted mélanges that are fnally relaminated as magmas to the lower crust.Thus,the off-crust generation of granitoids batholiths constitutes a new paradigm in which important geological implications can be satisfactorily explained.Geochemical features of Cordilleran-type batholiths are totally compatible with this new conception.     

北祁连山元古宙末－寒武纪主动大陆裂谷火山作用

北祁连山元古宙末－寒武纪大陆裂谷火山岩系为双峰式火山岩套，主要由基性与酸性火山岩组成。基性火山岩有磁性玄武岩与拉斑玄武岩两个岩浆系列，且富集ＬＲＥＥ与ＬＩＬ，其岩浆源区为与洋岛玄武岩源相似的富集地幔柱源。软流圈地幔柱上涌导致岩石圈地慢部分熔融，其熔体与地幔柱衍生熔浆混合，形成本区具有中等钕，锶同位素比值特点的基性岩浆。基性岩浆上侵至陆壳，引起下部陆壳深熔，产生长英质岩浆。地幔柱上隆促使大陆扩张，及至形成北祁连山元古宙末－寒武纪大陆裂谷。     

THE EVOLUTION OF LANPING RIFT BASIN FROM LADINIAN IN MIDDLE TRIASSIC EPOCH TO EARLY JURASSIC EPOCH

THE EVOLUTION OF LANPING RIFT BASIN FROM LADINIAN IN MIDDLE TRIASSIC EPOCH TO EARLY JURASSIC EPOCH     

埃达克岩成因研究进展概述

埃达克岩提出之初是指那些源于俯冲带环境下,玄武质洋壳部分熔融形成的火山岩或者侵入岩.随后的研究发现,埃达克岩不仅仅只形成于岛弧环境,而具有多种成因模型：俯冲洋壳熔融、增厚下地壳熔融、拆沉下地壳熔融、玄武质岩浆的地壳混染和低压分离结晶（AFC）、高压分离结晶、岩浆混合作用以及地幔橄榄岩的直接熔融都可以形成与埃达克岩地球化学特征相同的岩石.这些研究成果丰富了我们对岛弧及下地壳岩浆活动的认识.     

冈底斯中段林子宗火山岩岩石地球化学特征

广泛发育在冈底斯岩浆岩带中的林子宗火山岩及其与下伏地层间的区域不整合提供了印度-亚洲大陆碰撞的重要证据.谢通门地区的林子宗火山岩早期以中基性-中性岩为主,夹少量流纹质凝灰岩,晚期以流纹质火山岩为主.岩石学和地球化学研究表明,这套火山岩早期以钙碱性为主,带有较多陆缘火山岩特征,中期开始出现标志陆内活动的钾玄岩,晚期更多地显示了加厚陆壳条件下火山岩的特点,记录了由新特提斯俯冲消减末期过渡到印度-亚洲大陆碰撞的信息.中基性岩浆来源于俯冲带的地幔源区,长英质岩浆形成于加厚地壳的部分熔融.结合区域同位素年龄资料,可以认为林子宗火山岩中高钾流纹质火山岩是印度-亚洲大陆碰撞阶段陆壳缩短加压升温引起部分熔融的产物.     

安徽董岭花岗岩类的构造特征及侵位机制

安徽怀宁董岭花岗岩类底辟滑覆构造体系是长江中下游地域独特的构造形式。花岗岩底辟构造是在中生代华北地块与扬子地块碰撞背景下通过气球膨胀机制侵位至盖层内(燕山期),形成了围绕董岭几何中心的环状或半环状接触变质和韧性变形岩块。该花岗岩类其内部变形明显,岩相分带、分期清晰,围岩顶盖保存完好,围岩变质均匀,变形强烈,滑覆断层发育,糜棱岩典型等为特征,是一个罕见的盖层中花岗岩类底辟构造。后期在其北侧和东侧被月山—白子山冲断岩块所超覆。     

东昆仑造山带花岗岩及地壳生长

东昆仑造山带是青藏高原内可与冈底斯相媲美的又一条巨型构造岩浆岩带。该带内的花岗岩形成可以划分为4个时段,分别与4个造山旋回相对应：前寒武纪（元古宙）;早古生代;晚古生代—早中生代;晚中生代—新生代。其中,以晚古生代—早中生代（或称华力西—印支旋回）、特别是三叠纪的花岗岩最为发育。东昆仑造山带基底主要形成于古元古代晚期。其早古生代构造-岩浆事件序列与北祁连造山带可以对比,属祁连—东昆仑加里东造山系统的一部分。到晚古生代—早中生代时东昆仑卷入古特提斯构造体制,属于古特提斯造山系统的北缘。华力西—印支是一个完整的造山旋回,与西南“三江”古特提斯的演化历史相似。昆南缝合带是当时中国南北大陆的主要构造分界线。新生代印度—欧亚大陆的碰撞,使东昆仑造山带又卷入了青藏大陆碰撞造山系统,但对东昆仑的影响是一种远程效应。 　　东昆仑造山带大陆地壳主要形成于古元古代晚期,但在显生宙还有新生地壳 （juvenile crust） 产生,与兴蒙、冈底斯、安第斯等造山带相似。东昆仑花岗岩带中丰富的幔源岩浆底侵作用与壳-幔源岩浆混合作用的证据,以及花岗岩类的Nd、Sr同位素成份（87Sr/ 86Sr初始值多数小于0.710;εNd（t ）值变化于－9.2和＋3.6之间）,说明 地幔物质的注入及其与地壳物质的混合,对显生宙地壳的形成演化起着重要作用,是显生宙东昆仑地壳生长的重要方式。根据花岗质寄主岩、镁铁质暗色微粒包体（MME）及底侵辉长岩的锆石SHRIMP U-Pb定年,东昆仑造山带在显生宙发生过两次大规模的底侵作用与岩浆混合作用,一次在早-中泥盆世（394~403 Ma）,另一次在中三叠世（239～242 Ma）,分别相当于加里东旋回、华力西-印支旋回的俯冲结束/碰撞开始阶段。     

内蒙古正镶白旗碎斑熔岩岩石学特征及其岩相划分

白旗碎斑熔岩为不规则穹状体,可分为边缘玻质碎斑熔岩、过渡霏细碎斑熔岩、中心粒状碎斑熔岩和根部花岗斑岩四个岩性带。从玻质碎斑熔岩到粒状碎斑熔岩,斑晶碎裂度逐渐减弱,珠边结构在粒状碎斑熔岩中最发育,根部花岗斑岩与正常次火山岩相近。碎斑熔岩中钾长石有序度低,指示了岩石高温成因特征。白旌碎斑熔岩属太平洋岩系钙碱质系列,原始岩浆由来源于上地幔和下地壳熔体的混熔作用形成。     

东秦岭丹凤群火山岩系及其包体地球化学研究

本文对东秦岭褶皱带中古生界丹凤群火山岩系及其包体进行了研究。从火山岩浆演化角度,指出丹凤群不是一套蛇绿混杂岩体,其主体火山岩为岛弧地幔在洋壳俯冲诱导下重熔形成A类岩浆演变所形成,并含有少量的洋壳物质在俯冲带中发生熔融形成B类岩浆的衍生产物。岛弧的地壳结构控制着两类岩浆的演化,它是造成丹凤群火山岩岩石系列、岩石组合、元素地球化学分布及分异在空间上差异的原因。     

福建政和东际金(银)矿床矿浆隐爆角砾岩成矿模型及其动力学研究

本文描述政和东际金(银)矿床地质特征,建立矿床成矿模型,论证矿床物质运移动力学过程,探讨成矿物质来源。矿山经过系统的勘探和开采,将暴露于地表580~620 m的矿体直至延深到地下-200 m,均得到钻探和探硐的完整揭露。采用常规、可靠的地质论证法全面收集了第一手资料以及宏微观的岩矿鉴定及部分电子探针分析,对研究标的进行综合论述。政和东际金(银)矿床矿化角砾岩筒自上而下可分为5个相带:震裂相、震碎相、隐爆相、上部通道相及下部通道相。从矿石结构构造特征、矿体侵入围岩接触关系、角砾特征、胶结物成分等一系列现象判断,矿床为矿浆隐爆成因。源于壳幔过渡带深部中酸性岩浆熔离分异的富硅、富铁熔浆,富硅熔浆先一步上侵形成大规模的火山喷发及潜火山岩的侵入,富铁熔浆滞留于"源地",俘获硫化物液滴,储集形成混合矿浆。物理性状及运移动力学特征表明,在外驱动力作用下,矿浆沿着石英斑岩"岩浆热场通道"上侵,在古地表之下2.0~2.5 km处,石英斑岩硅帽隔挡层下聚集、隐爆、定位成矿。石英斑岩为容矿围岩,与矿床有密切的时空关系但与成因无关。深部钻探验证表明隐爆角砾岩筒尾部在石英斑岩中收敛,矿化随之结束。"矿浆隐爆"作为"隐爆角砾岩型金矿"大家族中新成员,目前尚未见报道。该新类型的发现,为中酸性岩浆熔离分异成矿理论提供了难得的实例,也将有助于中国东南沿海中生代陆相火山岩区同类型金矿的找矿工作。     

Relative contributions of crust and mantle to generation of Oligo-Miocene medium-K calc-alkaline I-type granitoids in a subduction setting—a case study from the Nabar Pluton,central Iran

The Nabar pluton with the age of Oligo-Miocene located northwest of Isfahan, the Urumieh-Dokhtar magmatic belt, is composed of gabbro, gabbro diorite, diorite, quartz diorite, tonalite, and quartz monzonite. These rocks contain plagioclase, quartz, alkali-feldspar, magnesiohornblende, actinolite, tremolite-hornblende, actinolite-hornblende, anthophyllite, biotite, and Na-poor pyroxene. Application of the Al-in-hornblende barometry indicates pressures of 2–2.15 kbar, whereas the clinopyroxene barometry shows a pressure of 5 kbar. The temperature (i.e., 750–800°C) is estimated using the amphibole-clinopyroxene thermometry in a dioritic sample. Magmatic water content was greater than 10% at the time of formation of dioritic rocks in the Nabar pluton. Based on chemistry of mafic minerals and geochemical data, the Nabar plutonic complex comprises medium-K, calc-alkaline, and I-type granitoid. The rocks are characterized by enrichment of lithophile elements (LILEs) and depletion of high-field-strength elements (HFSEs). The Nabar rocks have weak concave-upward rare earth element (REE) patterns, suggesting that amphibole played a significant role in their generation during magma segregation. Low (Al₂O₃/(FeO + MgO + TiO₂) and (Na₂O + K₂O)/(FeO + MgO + TiO₂) ratios, and the patterns of trace and rare earth elements suggest that these rocks formed along a destructive plate margin and were derived from a lower crustal source. The magma probably formed by partial melting of lower crustal protoliths (amphibolites). Lower crust contamination with magma derived from partial melting of the upper mantle has an important role in the formation of this intrusive body, and a fractional crystallization of melts in higher crustal levels generated this spectrum of rock types. Mantle-derived gabbroic magmas emplaced into the lower crust are the most likely heat sources for partial melting.     

全吉地块金泉山—化石沟一带古生代 花岗质岩体地球化学及其构造意义

柴达木盆地北缘之全吉地块花岗质岩体大量发育,具多期次多阶段特征。通过对全吉地块金泉山—化石沟一带古生代花岗质岩体岩石学、岩石化学特征及单颗粒锆石U-Pb同位素定年,发现该区花岗岩有4次侵入,侵入时代分别为早奥陶世(471~476Ma)、中奥陶世(459±5Ma)、早志留世(423±4Ma)和中泥盆世(366±2Ma)。岩石地球化学研究显示,该4期花岗岩均具典型的钙碱性特征,轻稀土富集、重稀土轻度亏损、Eu轻微负异常—正异常,大离子亲石元素K2O、Rb、Ba、Th等相对强烈富集,高场强元素Nb、Ta、Hf、Zr及Yb明显亏损,除第4期岩体即具I型,又具S花岗岩特征外,其它各期次均属I型花岗岩,总体显示岩体具壳源特征,为板块碰撞前消减地区花岗岩,研究推测,金泉山—化石沟一带古生代花岗质岩体第1、2组年龄为全吉地块与柴达木陆块碰撞的时代,第3组年龄反映了深俯冲地下的板块由于拆沉而折返的时代,第4组年龄为碰撞隆起后造山带伸展、滑塌的时代。     

Petrogenesis of the Kaikomagatake granitoid pluton in the Izu Collision Zone, central Japan: implications for transformation of juvenile oceanic arc into mature continental crust

The Miocene Kaikomagatake pluton is one of the Neogene granitoid plutons exposed in the Izu Collision Zone, which is where the juvenile Izu-Bonin oceanic arc is colliding against the mature Honshu arc. The pluton intrudes into the Cretaceous to Paleogene Shimanto accretionary complex of the Honshu arc along the Itoigawa-Shizuoka Tectonic Line, which is the collisional boundary between the two arcs. The pluton consists of hornblende–biotite granodiorite and biotite monzogranite, and has SiO₂ contents of 68–75 wt%. It has high-K series compositions, and its incompatible element abundances are comparable to the average upper continental crust. Major and trace element compositions of the pluton show well-defined chemical trends. The trends can be interpreted with a crystal fractionation model involving the removal of plagioclase, biotite, hornblende, quartz, apatite, and zircon from a potential parent magma with a composition of ~68 wt% SiO₂. The Sr isotopic compositions, together with the partial melting modeling results, suggest that the parent magma is derived by ~53% melting of a hybrid lower crustal source comprising ~30% Shimanto metasedimentary rocks of the Honshu arc and ~70% K-enriched basaltic rocks of the Izu-Bonin rear-arc region. Together with previous studies on the Izu Collision Zone granitoid plutons, the results of this study suggest that the chemical diversity within the parental magmas of the granitoid plutons reflects the chemical variation of basaltic sources (i.e., across-arc chemical variation in the Izu-Bonin arc), as well as a variable contribution of the metasedimentary component in the lower crustal source regions. In addition, the petrogenetic models of the Izu Collision Zone granitoid plutons collectively suggest that the contribution of the metasedimentary component is required to produce granitoid magma with compositions comparable to the average upper continental crust. The Izu Collision Zone plutons provide an exceptional example of the transformation of a juvenile oceanic arc into mature continental crust.     

中祁连党河南山碱性系列岩浆岩-埃达克岩成因及其对俯冲带壳幔相互作用的启示

碱性系列岩浆岩和埃达克岩是通常产生于汇聚板块边缘的特殊岩石类型,记录了俯冲物质与地幔橄榄岩相互作用的过程.笔者对中祁连南缘党河南山地区贾公台杂岩体和鸡叫沟岩体进行了岩石学、地球化学和锆石U-Pb年代学研究.LA-ICP-MS锆石U-Pb定年表明,鸡叫沟岩体中的二长闪长岩形成于(467±4.7)Ma,贾公台岩体花岗闪长岩...     

从藏南陆-陆碰撞带深部结构构造演化探讨斑岩铜矿的成岩成矿问题

本文以INDEPTH项目对印度大陆与欧亚大陆碰撞带深部成像结果为基础,从构造演化角度探讨藏南陆-陆碰撞带冈底斯斑岩铜矿带的成矿作用问题。深部探测给出的碰撞带深部结构与侯增谦等地质学家提出的深部结构有较大的异同,如何协调起来以深化对藏南陆-陆碰撞条件下成矿作用的认识,这是本文讨论的中心。藏南碰撞带成矿实际上是在新特提斯大洋岩石圈俯冲形成的冈底斯岩浆弧成矿作用的基础上,再经过陆-陆碰撞挤压强烈改造后的再成矿。碰撞带的深部结构构造演化的特点是:(1)新特提斯大洋岩石圈板块向北连续俯冲了约120 Ma,形成的冈底斯陆缘火山岩浆弧带,这导致了陆缘带地壳增厚并含有大量的地幔岩浆流体物质(如南美安第斯成矿带那样);(2)在印度大陆与冈底斯陆缘弧接近碰撞时,在对挤中新特提斯大洋洋壳与大洋岩石圈地幔发生向上挤出与向下拆沉,并使部分洋壳残片和大洋岩石圈物质保存在中上地壳内;(3)两大陆岩石圈碰撞对接后,印度岩石圈地幔加深达70~80 km并沿地壳底部向北推进,并将加厚地壳内大量的成矿物质、钙碱性岩浆,洋壳及新生的下地壳,以及部分地幔物质从地壳底部将其围限起来,成为后期再成矿的物质基础;(4)查明了碰撞带深部壳/幔间产生了一层中间速度层(相当于MASH层),在中上地壳部位出现一层巨大的部分熔融层;(5)在碰撞挤压下冈底斯带内产生多组断裂构造,大型逆冲断裂系与背冲断裂,并引发了含矿岩浆的再活动,并在浮力(下地壳内)和挤压力作用下多次活动上升生成斑岩型铜矿床;(6)成矿后地表遭受过强烈的风化剥蚀作用,使矿床出露地表。     

关于岩浆型被动陆缘

在中国阿尔泰山南缘造山带的地质研究工作中发现，在这里存在一套有成生联系的花岗深成岩和火山岩系，它们不是板块汇聚阶段的产物，而是地壳拉张作用阶段的产物，它们形成于被动大陆边缘演化阶段。我们把这种大陆边缘称之为岩浆型波动陆缘，以便与无岩浆活动的大西洋型大陆边缘相区别。     

内蒙古浩尧尔忽洞金矿区岩体地球化学特征及成矿意义

内蒙古浩尧尔忽洞金矿位于华北地台北缘西段中元古代白云鄂博台缘凹陷带西部,矿区内有大面积花岗质岩体和岩脉出露,其岩性主要包括石英二长闪长岩、二长花岗岩和碱长花岗岩。通过岩相学特征和岩石地球化学特征分析,结合区域上同类型岩体的侵入时代,认为浩尧尔忽洞岩体形成于华北板块与西伯利亚板块同碰撞-后碰撞环境。其中二长花岗岩形成于同碰撞环境,该环境下由于板片持续俯冲,引起俯冲板片及地幔楔发生熔融,其上侵带来的热量致使下地壳物质部分熔融而形成该类型岩石的母岩浆;石英二长闪长岩形成于碰撞后隆起环境,是加厚下地壳熔融的产物;碱长花岗岩属于晚造山期A型花岗岩系列,该阶段地幔玄武质岩浆底侵,导致下地壳物质熔融,部分与其发生混染。结合浩尧尔忽洞金矿的成矿年龄、成矿流体特征及赋矿岩石有机地球化学特征,认为岩体的侵位提供了矿床形成必不可少的热量及部分成矿流体来源。     

山西青尖坡石英二长岩锆石U-Pb年龄及其地质意义

通过对华北克拉通北缘青尖坡石英二长岩锆石U-Pb同位素年龄分析,并结合相关主量和稀土元素数据探讨其地质意义。研究表明,石英二长岩LA-ICP-MS锆石U-Pb同位素年龄为241.1±1.7Ma,为早中三叠世岩浆活动的产物。岩石具有富K、Na、Si、Al,贫Mg、Ca、Ti等特征,为高钾碱性钾玄岩系列,属于过铝质花岗岩类;轻稀土元素相对富集,重稀土元素相对亏损,具有稳定的弱负Eu异常。总体为I型花岗岩成因,但兼具S型花岗岩的特征。青尖坡石英二长岩为中下地壳部分熔融成因,有地幔物质参与,为华北克拉通北缘三叠纪碱性岩带的组成部分,形成于晚造山-造山后的伸展构造环境。