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1.
黑马河岩体位于西秦岭北缘青海南山构造带内,岩体中发育大量闪长质包体,但对其成因却有一定的争议.从岩石学、矿物学、地球化学和年代学等方面对黑马河岩体花岗闪长岩及其中的闪长质包体进行了详细研究.包体的野外产出状态、形态、结构构造和矿物学特征均显示出,它们是基性岩浆注入到中酸性岩浆中快速冷凝结晶的产物.在主量元素协变图解中,花岗闪长岩和闪长质包体显示出壳幔岩浆混合作用的趋势.另外,两者稀土总量和相似的稀土元素配分模式及Eu负异常程度,也显示二者具有岩浆混合的特征.LA-ICPMS锆石U-Pb定年结果显示,花岗闪长岩形成于246 Ma,闪长质包体形成于245 Ma,两者具有几乎一致的结晶年龄,排除了包体为源区难熔残余或围岩捕掳体的可能性,也排除了基性岩浆在花岗质岩浆固结后再侵入的可能性.结合区域地质资料,认为黑马河岩体形成于西秦岭北缘有限小洋盆向南的俯冲阶段,青海南山构造带与天峻南山一带具有相同的构造岩浆演化历史. 相似文献
2.
新疆东准噶尔二台北花岗岩体和包体的SHRIMP锆石U-Pb年龄及其地质意义 总被引:7,自引:7,他引:7
高精度SHRIMP锆石U-Pb定年结果表明,二台北花岗闪长岩的形成时代为299.3±8.7Ma,代表了岩浆侵入到上地壳的年龄;其中所含的暗色微粒包体形成时代为301.5±6.6Ma,与寄主岩石的时代在误差范围内完全相同。结合野外、岩相学和主量、微量元素地球化学特征分析,偏基性的暗色微粒闪长质包体与寄主花岗闪长质岩浆并非有直接成因联系,包体可能是由过冷的镁铁质岩浆混入到花岗闪长质岩浆中发生快速冷凝,然后被花岗闪长质岩浆携带、侵入到上地壳中形成的。因此,花岗闪长岩及其包体才能够具有相同的SHRIMP锆石U-Pb年龄。二台北岩体与东准噶尔广泛分布的以碱性花岗岩为代表的后碰撞花岗岩具有相同的形成时代,乌伦古-斋桑泊断裂北侧的花岗闪长岩、石英闪长岩等和断裂南侧的碱性花岗岩、钾长花岗岩等的形成时代非常相近,应该是同一期岩浆活动的产物,无法区分出先后顺序。而这些岩体普遍具有低的~(87)Sr/~(86)Sr初始比值和正的ε_(Nd)(t)值,表明它们都是新疆北部晚古生代幔源岩浆活动的产物,它们的形成和演化提供了准噶尔地区后碰撞幔源岩浆底侵作用导致大陆地壳垂向生长过程的信息。 相似文献
3.
安徽高家塝钨钼矿床花岗闪长质侵入岩岩浆起源和演化及其对成矿能力的约束 总被引:1,自引:0,他引:1
安徽高家塝钨钼矿床位于江南过渡带,为一大型斑岩-矽卡岩型矿床,矿体赋存于小型花岗闪长斑岩体及其内外接触带中,紧邻的大型花岗闪长岩体中未见矿化。为查明制约两者成矿能力差异的原因,本文从岩石学、锆石U-Pb年代学、黑云母矿物化学、岩石地球化学等方面分别对矿区两个花岗闪长质侵入岩体开展了系统的对比研究。结果表明,花岗闪长斑岩成岩年龄为145. 1±2. 1Ma~144. 9±2. 2Ma,花岗闪长岩为142. 5±1. 8Ma~141. 8±1. 6Ma,前者侵位结晶稍早于后者。两者具有近于一致的主量、微量、稀土和Sr-Nd同位素组成特征,显示矿区两个花岗闪长质侵入岩体是由同一岩浆活动先后侵位到相近空间所形成,其原始岩浆具有相同的壳幔混合来源,即上涌的幔源玄武质岩浆与由其底侵引起挤压加厚的扬子下地壳部分熔融岩浆的混合,与长江中下游成矿带铜陵矿集区中酸性侵入岩不同的是,岩浆在上升过程中或滞留于浅位岩浆房中时明显地同化混染了扬子上地壳物质。然而,起源相同的花岗闪长质岩浆历经演化并先后侵位结晶时,其岩浆特征和结晶条件发生了显著变化,表现为:花岗闪长斑岩结晶时继承大量元古代锆石,花岗闪长岩则较少见有继承锆石,综合两者岩体特征和侵位结晶条件,显示前者岩浆熔体规模小、岩浆温度低、冷却结晶较快,岩体形成于富含F、Cl和相对还原的环境;而后者岩浆熔体规模巨大,岩浆温度相对较高,冷却结晶慢,岩体形成于贫F、Cl和相对氧化的环境。这在一定程度上影响了矿区两个花岗闪长质侵入岩体的成矿能力,演化早期偏还原性的花岗闪长斑岩岩浆以及其中较高的F、Cl含量更有利于钨富集于岩浆期后热液流体中,进而形成大型钨(钼)矿床。此外,相较于大型花岗闪长岩体而言,浅成侵位的小型花岗闪长斑岩体具有更为发育的裂隙系统以及受围岩更大影响而发生强烈矽卡岩化,也为矿质富集和沉淀提供了有利条件。本文研究为皖南地区钨(钼)矿床的找矿勘探及成矿模式的建立提供了新依据。 相似文献
4.
太行山南段平顺杂岩体成因:岩石学、年代学和地球化学证据 总被引:3,自引:0,他引:3
太行山南段平顺杂岩体主要由橄榄角闪辉长岩,角闪辉长-闪长岩和闪长岩组成,锆石SHRIMP U-Pb测年显示,橄榄角闪辉长岩体和闪长岩体年龄分别为123.4±1.7 Ma和125.3±2.3 Ma,说明岩体形成于早白垩世。平顺杂岩体SiO2含量介于42.82%~63.54%之间,以高Mg#,富Na,高Sr、Cr、Ni,以及富集LILE、LREE,亏损HFSE、HREE为特点,并具有相对低的87Sr/86Sr初始比值和明显偏低的εNd(125 Ma)值,表明岩浆具有壳幔双重属性。结合辉长岩中地幔包体已有的研究成果,认为辉长岩是由富硅流体交代的亏损地幔橄榄岩经低程度部分熔融形成;高Mg闪长岩起源于下地壳部分熔融,并与一定规模的幔源岩浆发生混合;角闪辉长-闪长岩形成于辉长质岩浆与高Mg闪长质岩浆的混合作用。 相似文献
5.
冈底斯岩浆带位于拉萨地体南缘,其形成过程主要受中生代新特提斯洋板片俯冲和新生代印度-亚洲陆-陆碰撞控制,是揭示青藏高原形成过程和深化大陆动力学研究的天然实验室。曲水岩基位于冈底斯岩浆带中段,介于拉萨和曲水之间,主要由花岗闪长岩、花岗岩、闪长岩和辉长岩组成。岩基花岗质岩体中包含大量暗色岩浆包体,包体产出状态有同侵位岩墙、包体墙、包体群等,表明岩浆混杂与混合现象。前人关于曲水岩基做了大量研究工作,取得很多进展,比如,发现这些暗色岩浆包体与寄主岩具有相同的结晶时代,主要集中在55~45Ma。但是,关于曲水岩基形成在俯冲背景还是碰撞背景还存在着争论。这些广泛分布的暗色岩浆包体和寄主岩的关系,及其所代表的岩浆混合过程还需要精细的矿物学工作。因此,本文在综合分析野外岩性分布、暗色岩浆包体出露形态的基础上,重点选择花岗闪长质寄主岩和其中的暗色岩浆包体中的角闪石进行矿物显微结构和构造的分析,并结合电子探针数据,以探求曲水岩基的岩浆混合过程。我们初步认为曲水岩基的形成经历两期混合过程:早期的基性岩浆和酸性岩浆端元在深部的混合;晚期基性、酸性岩浆混合后的中性岩浆爆破、上升,并继续与酸性岩浆混合。此外,曲水岩基形成于俯冲到碰撞的转换过程,受控于俯冲板片作用所产生的弧型岩浆和板片回旋及稍后的断离所产生的地幔岩浆双重作用。 相似文献
6.
青海南山沟后岩浆杂岩体锆石U-Pb年代学、岩石成因及其地质意义 总被引:1,自引:0,他引:1
青海南山构造带是衔接宗务隆构造带、南祁连构造带和西秦岭造山带的重要结合带。沟后岩浆杂岩体位于青海南山构造带东段,主要由辉长岩、辉长闪长岩、石英闪长岩、花岗闪长岩组成。本文对沟后岩浆杂岩体进行了详细的岩石学、岩石地球化学和LA-ICP-MS锆石U-Pb同位素年代学研究。结果表明,辉长岩、辉长闪长岩、石英闪长岩、花岗闪长岩及暗色微粒包体的结晶年龄分别为248.8±2.6 Ma、243.2±2.1 Ma、243.1±0.9 Ma、244.0±2.1 Ma和249±3 Ma。辉长岩富铁、镁,贫碱;辉长闪长岩高铝、富钙和钠,二者均为钙碱性岩类。石英闪长岩和花岗闪长岩为准铝-弱过铝质高钾钙碱性岩,暗色微粒包体属钙碱性-碱性岩系列。不同岩石类型均表现为富集大离子亲石元素(Cs、Rb、K)和Pb,亏损高场强元素(Nb、Ta、Ti)和P、Ba负异常;稀土元素配分曲线均具有轻重稀土分异的右倾特征,具弱-中等负Eu异常。岩相学和岩石地球化学特征表明沟后岩浆杂岩体具壳幔岩浆混合特征,暗示其可能形成于由俯冲流体交代地幔楔部分熔融的幔源岩浆底侵作用下的构造环境。辉长岩为幔源岩浆经分离结晶的产物,辉长闪长岩为幔源岩浆经分异演化并混染少量壳源岩浆的产物;中基性岩浆与壳源中酸性岩浆发生混合并经历一定的分异演化过程形成了石英闪长岩和花岗闪长岩。结合区域地质资料分析认为,沟后岩浆杂岩体可能代表了研究区早三叠世晚期-中三叠世早期宗务隆洋向南消减作用相关的构造岩浆事件。 相似文献
7.
藏南冈底斯岩浆带经历了中生代俯冲-增生造山作用和新生代碰撞造山作用,是研究大陆地壳生长与演化的理想场所。位于冈底斯岩浆带中段的早始新世曲水岩基,主要由花岗岩、花岗闪长岩、闪长岩及辉长岩等组成。前人已经在年代学、地球化学等方面对曲水岩基进行了大量研究。然而,对于岩基的形成是否由岩浆补给控制及其详细过程的研究还较为薄弱。花岗闪长质岩体中暗色岩浆包体特殊的产出状态,如包体墙和弥散状分布的包体等,显示岩浆补给在岩基形成过程中发挥了重要作用。包体中发育斜长石主晶包裹角闪石等客晶的嵌晶结构。本文聚焦包体斜长石的嵌晶结构及客晶矿物(如角闪石),结合背散射图像、矿物能谱扫描与矿物电子探针分析,以追踪曲水岩基形成期间的岩浆补给过程。计算结果显示客晶角闪石的结晶温度与压力最高(783~853℃、0.23~0.45GPa),包体基质角闪石次之(781~808℃、0.21~0.31GPa),花岗闪长质寄主岩中角闪石最低(769~802℃、0.18~0.26GPa)。此外,发育嵌晶结构的斜长石具有明显的成分环带,其偏钠质的核部指示了晶粥体的存在。本研究初步构建了岩浆补给模型与嵌晶结构的形成模型。镁铁质岩浆沿长英... 相似文献
8.
东昆仑造山带东部哈拉尕吐花岗闪长岩体中发育了较多的暗色闪长质微粒包体。通过详细的野外地质调查和岩石学研究及LAICPMS锆石 UPb定年,得到寄主岩形成年龄为(255.3±3.6)Ma,暗色包体形成时代为(252.9±2.5)Ma,二者年龄基本一致,从而排除了暗色微粒包体为捕虏体或源区难熔残余物质的可能性,也排除了花岗质岩浆固结后基性岩浆侵入的可能性。这一结果从年代学的角度证明了哈拉尕吐花岗闪长岩体是晚二叠世岩浆混合作用的产物。寄主岩石花岗闪长岩是混合时的酸性端员,而暗色闪长质微粒包体则是岩浆混合时未混合完全的残余基性部分。晚二叠世时,阿尼玛卿洋向北俯冲,在区域挤压应力环境下发生幔源岩浆底侵作用,壳幔物质相互混合,形成岩浆混合花岗质的岩浆房并向上侵入形成哈拉尕吐岩体。 相似文献
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新疆希勒库都克铜钼矿区岩浆混合作用: 来自锆石U-Pb年代学的证据 总被引:7,自引:6,他引:1
新疆北部富蕴县内希勒库都克铜钼矿区的花岗闪长岩及其包体岩相学、矿物化学和岩石地球化学特征及野外地质特征显示其为岩浆混合作用的结果。本文获得花岗闪长岩及其中暗色微粒包体玄武安山玢岩、细粒辉长闪长岩锆石U-Pb年龄为326.8±2.1Ma、327.6±2.4Ma、329.3±2.3Ma,年龄值基本一致,这一结果从年代学角度为花岗闪长岩及其中暗色微粒包体的岩浆混合作用成因提供证据。偏酸性的花岗闪长质与偏基性玄武安山质岩浆混合作用形成了331.9±2.1Ma的安山玢岩脉。 相似文献
10.
西秦岭糜署岭岩浆带成因及构造意义 总被引:6,自引:0,他引:6
糜暑岭岩浆带分布于西秦岭黄渚关EW向深大断裂带中,由2类岩石组成,酸性端元以草关、董河岩体为代表,岩性为中粗粒似斑状石英闪长岩-辉长闪长岩组合;基性端元以挖泉山岩体为代表,岩性为细粒辉长岩,而糜暑岭、黄渚关岩体则是2类岩浆的强烈混合产物,不仅大量的岩石学资料佐证了岩浆混合作用的存在,而且主岩与其混合作用形成的包体具有一致的同位素年龄,主岩中钾长石中的Pb同位素具有明显的幔源性质,因而是一个与幔源岩浆作用有关的构造岩浆带,这为确定区域性构造边界和大地构造单元划分提供了重要证据。同时,也为探讨本区中生代壳幔混合作用和地壳增生提供了新的信息。 相似文献
11.
Dioritic and granodioritic rocks coexist in the Gęsiniec Intrusion in SW Poland showing typical relationships in many mafic–felsic
mingling zones worldwide, such as dioritic syn-putonic dykes and microgranular enclaves within granodioritic host. Plagioclase
zonation from granodioritic rocks suggests late stage mixing probably with dioritic magma, whereas no magma mixing is recorded
in plagioclase from dioritic rocks. The diorites seem to show effects of interaction with evolved, leucocratic melts derived
from granodiorite, not with the granodioritic melt itself. We conclude that the diorites’ compositions were modified after
their emplacement within the granodioritic host, when the diorites were essentially solidified and injection of evolved melt
from granodiorite did not involve marked modification of plagioclase composition. Compositional zoning patterns of plagioclase
in diorites can be modeled by closed system fractional crystallization interrupted by resorption induced probably by decompression.
Granodioritic plagioclase seems to be affected by the same resorption event. Plagioclase that crystallized in dioritic magma
before the resorption does not record interaction between dioritic and granodioritic magmas, suggesting that both magmas evolved
separately.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
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13.
安徽铜陵典型矿区岩石包体研究及其岩浆——成矿作用过程探讨 总被引:25,自引:2,他引:25
铜陵地区岩浆岩中产有两类石包体,一类为属高于高角闪岩相的变质岩(残余)包体;另一类为属于二长岩-闪长岩类的岩浆岩包体,对这两类岩石包体进行了详细的岩石学和矿物学研究,并计算了了各类岩石包体的形成条件,在此基础上探讨了岩石包体与寄主岩浆岩之间的关系,分析了岩浆岩和有关矿床的物质来源和成岩成矿作用机制,提出了深部古老变质基底部分融-岩浆积聚,分异,并在不同层位就形,形成深位和浅位岩浆房-不同成分的岩浆混合-气液隐爆迁移沉淀这样一种与同熔型岩浆岩有关的新的层控矽卡岩矿床成矿模式。 相似文献
14.
The Nimchak granite pluton (NGP) of Chotanagpur Granite Gneiss Complex (CGGC), Eastern India, provides ample evidence of magma interaction in a plutonic regime for the first time in this part of the Indian shield. A number of outcrop level magmatic structures reported from many mafic-felsic mixing and mingling zones worldwide, such as synplutonic dykes, mafic magmatic enclaves and hybrid rocks extensively occur in our study domain. From field observations it appears that the Nimchak pluton was a vertically zoned magma chamber that was intruded by a number of mafic dykes during the whole crystallization history of the magma chamber leading to magma mixing and mingling scenario. The lower part of the pluton is occupied by coarse-grained granodiorite (64.84–66.61?wt.% SiO2), while the upper part is occupied by fine-grained granite (69.80–70.57?wt.% SiO2). Field relationships along with textural and geochemical signatures of the pluton suggest that it is a well-exposed felsic magma chamber that was zoned due to fractional crystallization. The intruding mafic magma interacted differently with the upper and lower granitoids. The lower granodiorite is characterized by mafic feeder dykes and larger mafic magmatic enclaves, whereas the enclaves occurring in the upper granite are comparatively smaller and the feeder dykes could not be traced here, except two late-stage mafic dykes. The mafic enclaves occurring in the upper granite show higher degrees of hybridization with respect to those occurring in the lower granite. Furthermore, enclaves are widely distributed in the upper granite, whereas enclaves in the lower granite occur adjacent to the main feeder dykes.Geochemical signatures confirm that the intermediate rocks occurring in the Nimchak pluton are mixing products formed due to the mixing of mafic and felsic magmas. A number of important physical properties of magmas like temperature, viscosity, glass transition temperature and fragility have been used in magma mixing models to evaluate the process of magma mixing. A geodynamic model of pluton construction and evolution is presented that shows episodic replenishments of mafic magma into the crystallizing felsic magma chamber from below. Data are consistent with a model whereby mafic magma ponded at the crust-mantle boundary and melted the overlying crust to form felsic (granitic) magma. The mafic magma episodically rose, injected and interacted with an overlying felsic magma chamber that was undergoing fractional crystallization forming hybrid intermediate rocks. The intrusion of mafic magma continued after complete solidification of the magma chamber as indicated by the presence of two late-stage mafic dykes. 相似文献
15.
Numerous batches of initially heterogeneous magma aggregated to form the I-type Lysterfield Granodiorite, with four geochemically distinct series of granodioritic rocks, emplaced in the shallow crust. The compositional heterogeneities originated through variations in the stoichiometries of melting reactions in the protolith terrane and variable degrees of peritectic assemblage entrainment. The high-K series contains igneous, microgranular enclaves that most probably formed through deep-level hybridisation of enriched mantle magmas with crustal melts. In the model presented here, this heterogeneous collection of magmas ascended to form a thin, sheet-like intrusion, quenched against cold wall rocks. Later, laccolithic inflation, through ingress of voluminous more felsic magmas, arched the pluton roof and fragmented the initial sheet, pieces of which fell back into the Granodiorite to become enclaves, some of which were further hybridised by plastic deformation and mechanical incorporation of host-derived crystals. This may be a common mechanism for the formation of such enclave suites. 相似文献
16.
文章以西昆仑山3个花岗质深成侵入体的研究为例,认为岩浆混合形成的深成岩特征取决于发生混合作用(hybridization)的岩浆的性质,如温度、黏度、成分等物理与化学条件。岩浆的大多数性质都与温度有关,因此可以以温度为主要指标将岩浆混合作用划分为混合、混杂和注入3种类型,分别对应于高、中、低温度条件。库地北岩体具有均一的外貌特征,岩石学和地球化学特征显示其产生具有幔源与壳源岩浆的贡献,是高温岩浆混合作用(mixing)的产物;胜利桥岩体含有大量镁铁质微粒包体,注入的基性岩浆团与其寄主岩浆作用不完全,是中温岩浆混杂作用(mingling)的典型代表,也是造山带出露最广的岩浆混合成因深成岩类;赛图拉岩体形成"双峰式"岩石组合,同时侵位的镁铁质岩浆和长英质岩浆之间基本上不发生物质交换,是两种低温岩浆相互注入的结果。由于岩浆混合作用是壳幔物质与能量交换的集中体现,混合作用的类型体现了区域地热梯度及其地质过程的强度。因此,区分不同的岩浆混合作用类型对了解岩浆混合作用过程、大地构造背景和壳幔相互作用具有重要意义。 相似文献
17.
MO Xuanxue DONG Guochen ZHAO Zhidan GUO Tieying WANG Liangliang CHEN Tao 《《地质学报》英文版》2005,79(1):66-76
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. 相似文献
18.
在小兴安岭东南端的鹤岗—伊春市交界处大岭一带的晚石炭世弱片麻状中粒似斑状二长花岗岩中发育环斑结构长石,多以呈自形宽板状或宽板柱状的碱性长石内核和斜长石外薄壳组成,少量为不发育斜长石外壳的卵球状、球状,大小为1.5 ̄3.5cm,其特征与典型的环斑结构在岩相学上是相同的。另外岩体中普遍发育暗色微细粒闪长质包体,与环斑钾长石在时空上紧密相伴;包体具典型的岩浆结构及针状磷灰石,含寄主岩的钾长石、石英巨晶;包体形态多呈浑圆的外形,显示出明显的塑性流变特点,与寄主岩常呈明显的接触关系,有时呈过渡状、雾迷状;以上充分说明了包体为岩浆混合成因(MME)。通过对岩体地质、环斑结构钾长石似斑晶、暗色微细粒闪长质包体等特征及岩体的岩石化学、地球化学研究表明大岭环斑花岗岩岩体为岩浆混合成因,产于造山环境,其形成时代、产出构造背景均不同于典型环斑花岗岩。 相似文献