铜陵地区中酸性侵入岩及其包体的成因和矿物温压计的应用

铜陵地区中酸性侵入岩可划分为橄榄安粗岩系列和高钾钙碱性系列。前者岩石组合为辉石二长闪长岩+二长岩+石英二长岩,后者为辉长闪长岩+石英二长闪长岩+花岗闪长岩。两个系列岩石的组成矿物种类相似,但在不同岩石中的含量不同,主要造岩矿物为斜长石、辉石、角闪石、黑云母、钾长石、石英。橄榄安粗岩系列岩石中含有大量的深源包体,包括辉石堆积岩包体、角闪石堆积岩包体和角闪石辉长质堆积岩包体,主要矿物为辉石、角闪石,其次为尖晶石、斜长石、磷灰石、金云母;高钾钙碱性系列岩石中含大量的微粒闪长质包体、镁铁质石英二长闪长质包体和富云母包体,主要矿物为斜长石、角闪石、黑云母。在考虑温压计使用条件的前提下,选择合适的温压计计算了两个系列侵入岩及包体形成的温压条件。结果表明,橄榄安粗岩系列侵入岩侵位深度(4～6km)略小于高钾钙碱性系列侵入岩(6～7km),各种堆积包体形成于45～65km的深位岩浆房,微粒闪长质包体形成于12～15km的浅位岩浆房,镁铁质石英二长闪长质包体是早期侵入岩的边缘相,而富云母包体可能为地壳部分熔融的残余相。     

Melt Inclusions of Sulfide in Mantle-Driven Amphibole Megacrysts

硫化物熔融包裹体研究是认识硫化物矿床成矿元素来源和演化的重要手段,由于硫化物熔融包裹体的体积较小(粒径仅为10～20 μm),其详细化学元素组分的难以获得一直是制约进一步研究的瓶颈.笔者在前人研究的基础上,借助于扫描电镜、电镜能谱和二次飞行时间离子探针(Tof-SIMS)对产于铜陵地区角闪石巨晶中的硫化物熔融包裹体进行了详细的研究,首次获得了一套精确的矿物化学资料和元素分布图.矿物学研究表明,角闪石巨晶在上地幔和下地壳均有结晶,温压区间分别为T:850～900℃(温度),P:0.70×109～0.82×109 Pa(压力),对应深度D:23.10～27.06 km;和T:900～950℃,P:1.09×109～1.17×109 Pa,D:35.97～38.61 km.元素分布图显示,硫化物熔融包裹体主要有两种元素组成体系:S-Fe-Mn-Ni-Rb-Sr-Ba和S-Fe-Cu-Sr,幔源硫化物体系中Mn、Ni、Rb、Ba等元素具有相似的性质特征可共溶,与Cu则表现出不混溶.在铜陵地区,上地幔的部分熔融形成了一套碱性玄武岩浆,后受岩浆底侵作用和壳幔相互作用影响,底侵进入下地壳深位岩浆房,发生结晶分异和同化混染作用,形成一套轻度演化的玄武岩浆,可能为辉长质.上地幔和下地壳的角闪石巨晶分别是由上地幔碱性玄武岩浆和下地壳轻度演化的玄武岩浆(辉长质)高压下结晶的产物.当上地幔碱性玄武岩浆上侵到下地壳深位岩浆房以后,发生结晶分异作用,又由于地壳硅镁层的混染作用,使得玄武岩浆中硫溶解度降低,促其熔离,从而释放大量的硫(S,以及Ni、Cu、Cr).角闪石巨晶中的硫化物熔融包裹体正是在下地壳深位岩浆房中,由正在结晶的角闪石巨晶在结晶分异和轻度演化的玄武质岩浆中捕获的不混溶硫化物熔融液滴形成的.铜陵地区在中生代经历了一个长期的大规模的岩浆底侵作用和壳幔相互作用过程,由于下地壳硅镁层混染作用使得轻度演化的玄武岩浆释放大量硫,必然会在莫霍面附近形成大规模高浓度的硫富集区,这些组分在岩浆上侵作用、地壳减薄作用或者裂谷作用的影响下很容易再活化,进入区域岩浆-热液流体系统,最终参与形成区域大规模的硫化物矿床.     

幔源角闪石巨晶中硫化物熔融包裹体研究

硫化物熔融包裹体研究是认识硫化物矿床成矿元素来源和演化的重要手段,由于硫化物熔融包裹体的体积较小(粒径仅为10～20μm),其详细化学元素组分的难以获得一直是制约进一步研究的瓶颈。笔者在前人研究的基础上,借助于扫描电镜、电镜能谱和二次飞行时间离子探针(Tof-SIMS)对产于铜陵地区角闪石巨晶中的硫化物熔融包裹体进行了详细的研究,首次获得了一套精确的矿物化学资料和元素分布图。矿物学研究表明,角闪石巨晶在上地幔和下地壳均有结晶,温压区间分别为T:850～900℃(温度),P:0.70×109～0.82×109Pa(压力),对应深度D:23.10～27.06km;和T:900～950℃,P:1.09×109～1.17×109Pa,D:35.97～38.61km。元素分布图显示,硫化物熔融包裹体主要有两种元素组成体系:S-Fe-Mn-Ni-Rb-Sr-Ba和S-Fe-Cu-Sr,幔源硫化物体系中Mn、Ni、Rb、Ba等元素具有相似的性质特征可共溶,与Cu则表现出不混溶。在铜陵地区,上地幔的部分熔融形成了一套碱性玄武岩浆,后受岩浆底侵作用和壳幔相互作用影响,底侵进入下地壳深位岩浆房,发生结晶分异和同化混染作用,形成一套轻度演化的玄武岩浆,可能为辉长质。上地幔和下地壳的角闪石巨晶分别是由上地幔碱性玄武岩浆和下地壳轻度演化的玄武岩浆(辉长质)高压下结晶的产物。当上地幔碱性玄武岩浆上侵到下地壳深位岩浆房以后,发生结晶分异作用,又由于地壳硅镁层的混染作用,使得玄武岩浆中硫溶解度降低,促其熔离,从而释放大量的硫(S,以及Ni、Cu、Cr)。角闪石巨晶中的硫化物熔融包裹体正是在下地壳深位岩浆房中,由正在结晶的角闪石巨晶在结晶分异和轻度演化的玄武质岩浆中捕获的不混溶硫化物熔融液滴形成的。铜陵地区在中生代经历了一个长期的大规模的岩浆底侵作用和壳幔相互作用过程,由于下地壳硅镁层混染作用使得轻度演化的玄武岩浆释放大量硫,必然会在莫霍面附近形成大规模高浓度的硫富集区,这些组分在岩浆上侵作用、地壳减薄作用或者裂谷作用的影响下很容易再活化,进入区域岩浆-热液流体系统,最终参与形成区域大规模的硫化物矿床。     

东准噶尔库布苏南岩体中闪长质包体特征及地质意义

新疆东准噶尔卡拉麦里地区库布苏南晚古生代后碰撞准铝质过铝质花岗闪长岩体中广泛发育大量的暗色微粒闪长质包体.岩石学、矿物学、主量元素和微量元素地球化学研究表明,包体在地球化学特征上表现为与寄主花岗岩既相互联系又受其制约.库布苏南花岗闪长岩体具有低锶初始比值I(Sr)和正εNd(t)值,表明花岗岩的来源有地幔物质参与,而大量发育的暗色微粒闪长质包体是壳幔岩浆混合作用最直接的证据,微粒包体是基性源岩部分熔融作用形成的残余体.与准噶尔碱性花岗岩一样,载荷包体的准铝质过铝质花岗岩是晚古生代后碰撞阶段构造岩浆活动的岩石类型之一,其形成和演化标志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的过程.     

西准玛依勒地区哈吉岩体和包体LA-ICP-MS锆石U-Pb测年及地质意义

LA-ICP-MS锆石U-Pb测年结果显示,哈吉岩体形成时代为278±3Ma,MSWD=0.43,包体年龄为291±4Ma,MSWD=0.32,在误差范围内完全一致,表明岩体和暗色微粒包体是同时代形成的。包体是岩浆混合作用的产物,是过冷的镁铁质岩浆混入到中酸性岩浆中经快速冷凝的结果。在岩浆混合过程中,基性的包体岩浆和中酸性的寄主岩浆通过化学扩散发生成分交换,使包体受到了花岗闪长质岩浆的改造和同化。这可能就是哈吉岩体及其包体LA-ICPMS锆石U-Pb年龄相同的原因所在。哈吉岩体形成的时代属于西准噶尔后碰撞深成岩浆活动的范围330~265Ma之间,其形成和演化代表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的过程。     

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

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。     

普朗斑岩铜矿岩浆混合作用：岩石学及元素地球化学证据

普朗斑岩铜矿花岗闪长斑岩中存在大量的随机分布的镁铁质微粒包体,包体与寄主岩存在渐变接触关系。包体成分为闪长质,具有岩浆结构,存在针状磷灰石,显示了快速冷却结晶的特征。包体内可见具有暗色矿物镶边的眼球状石英,表明存在岩浆混合作用。寄主岩岩体规模较小,呈岩枝状产出,包体和寄主岩均为似斑状结构,说明两种岩浆侵位和发生岩浆混合作用的深度较浅。元素地球化学特征显示包体与寄主岩的之间有成分交换。包体和寄主岩强不相容元素均富集,高场强元素Nb、Ta、Ti均表现出显著的负异常,具有典型的岛弧岩浆岩的微量元素特征,包体和寄主岩Mg＃较高,在同等Si条件下比玄武岩部分熔融体富K2O和MgO,意味着源区必须有幔源岩浆的贡献。普朗斑岩铜矿蚀变矿化模式反映了其成矿环境偏基性,暗示镁铁质岩浆的加入对成矿具有贡献。     

东昆仑香加花岗质岩体中镁铁质包体成因:岩相学及地球化学证据

东昆仑造山带以广泛发育富含镁铁质包体的早-中三叠世花岗岩为主要特征,但目前尚缺乏对不同类型镁铁质包体系统的岩相学和矿物学研究.在本文中,我们选择了极具代表性的香加花岗岩体及其中包体为研究对象,从岩相学和矿物化学角度揭示了东昆仑地区壳幔岩浆相互作用的详细过程.研究表明包体发育眼球状石英、韵律环带斜长石和针状磷灰石等不平衡结构和快速结晶现象,指示存在岩浆混合作用,而似辉绿辉长结构包体代表了岩浆混合的基性端元.此外,长石的多阶段生长证明可能存在多次的岩浆混合过程.镁铁质包体相对寄主岩（Mg#值为0.39~0.56,Fe#值为0.44~0.62）具高Mg#和低Fe#特征.包体具有两类角闪石:一类结晶源自早期深部幔源岩浆（TiO₂=2.1%~2.9%,SiO₂=41.75%~44.49%）,另一类则起源于浅部壳幔混合作用（TiO₂=1.0%~1.8%,SiO₂=42.49%~48.10%）.部分黑云母具有高镁特征（MgO=9.78%~11.53%,Mg#=0.462~0.541）,与幔源成因黑云母成分相当.斜长石的韵律环带及化学组成指示其岩浆混合成因.幔源基性岩浆在5×108 bar（约18 km）左右深度结晶并形成高钛角闪石,玄武质岩浆底侵上升,并发生壳幔岩浆混合作用,混合的岩浆上升至2.5×108 bar（约8 km）左右深度结晶形成低钛角闪石.以上证据指示,东昆仑地区在三叠纪时期可能经历了多期次的岩浆混合作用,地幔岩浆的注入在地壳深熔作用和地壳生长过程中扮演了重要角色.广泛的壳幔岩浆相互作用可能是三叠纪时期阿尼玛卿洋板片断离的重要响应.      

安徽铜陵中生代侵入岩及其岩石包体中的硫化物-氧化物包裹体研究

安徽铜陵地区中生代岩浆活动频繁,形成了一系列与铜、金多金属成矿作用关系密切的中酸性侵入岩。在这些侵入岩中分布有大量的镁铁质团块、堆积晶和微粒闪长质包体。在这些侵入岩及其岩石包体中观察到了一定数量的硫化物-氧化物包裹体。文章对老庙基、小铜官山和小陶家岩体及其岩石包体中的硫化物-氧化物包裹体进行了详细的岩相学观察和电子探针分析。观察和分析结果显示,镁铁质团块中硫化物包裹体内的矿物主要有磁黄铁矿、黄铜矿、单硫化物固溶体和镍黄铁矿,这些硫化物相(黄铜矿除外)中的Ni、Cu平均含量(wB,下同)分别为6.91%和0.44%;微粒闪长质包体和寄主岩中硫化物包裹体内的矿物主要为磁黄铁矿和黄铜矿,这些硫化物相(黄铜矿除外)中的Ni、Cu平均含量分别为0.44%、0.07%(微粒闪长质包体)和0.09%、0.42%(寄主岩)。镁铁质团块、微粒闪长质包体和寄主岩中氧化物包裹体内的矿物分别为铬磁铁矿(Cr2O3平均含量为4.44%)、磁铁矿(Cr2O3平均含量为0.44%)和磁铁矿(Cr2O3平均含量为0.07%);散布的氧化物颗粒分别为铬磁铁矿(Cr2O3平均含量为6.58%)、磁铁矿+铬磁铁矿(Cr2O3平均含量为0.86%)...     

安徽铜陵岩浆岩中辉长质岩石包体的发现及其地质意义

在安徽铜陵白芒山、老庙基和小铜官山岩体中发现了3个辉长质岩石包体。报道了这些辉长质岩石包体及其寄主岩的岩相学观察以及矿物电子探针和全岩岩石化学、微量元素、稀土元素和锶钕同位素分析资料,总结了辉长质岩石包体的特征,讨论了它们的地质意义。该区辉长质岩石包体主要有两类。一类具“斑状”结构,“斑晶”主要是斜长石和角闪石。“基质”具微粒半自形一自形等粒状结构,主要矿物成分为斜长石和角闪石;另有少量黑云母,有时还有少量辉石。另一类具辉长结构,主要由辉石、斜长石、角闪石和黑云母组成。本区辉长质岩石包体低铝高镁和富碱,其Cr,Co和Ni的含量明显偏高,重稀土元素,特别是钇相对富集,(^87Sr／^86Sr)．为0．7063到0．7069,εNd(t)为-4．9～-8．8,与大陆裂谷碱性玄武岩的特征一致,表明本区此时属于拉张环境。研究还表明,铜陵地区不具“斑状”结构的辉长质岩石包体是由底侵的碱性玄武岩浆在约26km深处的深位岩浆房中直接冷凝结晶形成的。本区具“斑状”结构的辉长质岩石包体中的“斑晶”由闪长质岩浆在8～13km深处的中位岩浆房中发生结晶分异作用形成,而“基质”是在“斑晶”形成以后,由深位岩浆房中的中基性演化岩浆上侵到中位岩浆房,并围绕早期“斑晶”矿物结晶而形成。     

Generation of new continental crust by sublithospheric silicic-magma relamination in arcs: A test of Taylor's andesite model

The paradox of the Earth's continental crust is that although this reservoir is generally regarded as having differentiated from the mantle, it has an andesitic bulk composition that contrasts with the intrinsic basaltic composition of mantle-derived melts. Classical models for new crust generation from the mantle in two-stage processes fail to account for two fundamental facts: the absence of ultramafic residues in the lower crust and the hot temperature of batholith magma generation. Other models based on the arrival of already-fractionated silicic magmas to the crust have not received the necessary attention. Addition of new crust by relamination from below of subducted materials has been formulated as a process complementary to delamination of mafic residues. Here we show important support to relamination from below the lithosphere as an important mechanism for new crust generation in magmatic arcs of active continental margins and mature intraoceanic arcs. The new support is based on three independent lines: (1) thermo-mechanical modeling of subduction zones, (2) experimental phase relations and melt compositions of subducted materials and (3) geochemical relations between mafic granulites (lower crust) and batholiths (upper crust). The mineral assemblage and bulk geochemistry of lower crust rocks are compared with solid residues left after granite melt segregation. The implication is that an andesite magma precursor is responsible for the generation of new continental crust at active continental margins and mature oceanic arcs. According to our numerical and laboratory experiments, melting and eventual reaction with the mantle of subducted oceanic crust and sediments produce the andesite magmas. These ascend in the form of mantle wedge diapirs and are finally attached (relaminated) to the continental crust, where they crystallize partially and produce the separation of the solid fraction to form mafic granulites (lower crust) and granitic (sl) liquids to form the batholiths (upper crust).     

岩浆混合作用与火成岩多样性的耦合关系:以东昆仑造山带白日其利长英质岩体为例

壳-幔岩浆相互作用如何影响长英质火成岩的岩石学多样性是当前岩石学研究的焦点问题之一.以岩石类型丰富的东昆仑白日其利长英质岩体和暗色微粒包体为研究对象,开展系统的锆石U-Pb年代学、矿物学、全岩元素地球化学和Sr-Nd-Hf同位素研究,探讨和解析这一重要科学问题.LA-ICPMS锆石U-Pb年代学研究表明,暗色微粒包体（247.8±2.0 Ma）与二长花岗岩（247.5±1.4 Ma）、花岗闪长岩（248.8±2.1 Ma）和石英闪长岩（248.8±1.5 Ma）均侵位结晶于早三叠世.岩相学和矿物学研究表明,白日其利长英质岩石与包体的成因机制与壳-幔岩浆的机械或化学混合作用密切相关.元素地球化学和Sr-Nd-Hf同位素组成研究揭示,幔源镁铁质岩浆端元起源于受俯冲板片流体交代的富集地幔熔融,而壳源长英质岩浆端元则起源于东昆仑古老的变质杂砂岩基底.岩石成因分析揭示,幔源镁铁质岩浆侵入长英质晶粥岩浆房,促使长英质晶粥发生活化,随后壳-幔岩浆端元以不同比例和不同方式发生机械和化学混合等相互作用,从而形成镁铁质岩墙、包体、石英闪长岩和花岗闪长岩等多种岩石类型.晶粥状态下壳-幔岩浆相互作用是控制东昆仑长英质火成岩多样性和大陆地壳生长演化的重要方式.      

Coeval felsic and Mafic Magmas in neoarchean calc-alkaline magmatic arcs,Dharwar craton,Southern India: Field and petrographic evidence from mafic to Hybrid magmatic enclaves and synplutonic Mafic dykes

We present field and petrographic data on Mafic Magmatic Enclaves (MME), hybrid enclaves and synplutonic mafic dykes in the calc-alkaline granitoid plutons from the Dharwar craton to characterize coeval felsic and mafic magmas including interaction of mafic and felsic magmas. The composite host granitoids comprise of voluminous juvenile intrusive facies and minor anatectic facies. MME, hybrid enclaves and synplutonic mafic dykes are common but more abundant along the marginal zone of individual plutons. Circular to ellipsoidal MME are fine to medium grained with occasional chilled margins and frequently contain small alkali feldspar xenocrysts incorporated from host. Hybrid magmatic enclaves are intermediate in composition showing sharp to diffused contacts with adjoining host. Spectacular synplutonic mafic dykes commonly occur as fragmented dykes with necking and back veining. Similar magmatic textures of mafic rocks and their felsic host together with cuspate contacts, magmatic flow structures, mixing, mingling and hybridization suggest their coeval nature. Petrographic evidences such as disequilibrium assemblages, resorption, quartz ocelli, rapakivi-like texture and poikilitically enclosed alkali feldspar in amphibole and plagioclase suggest interaction, mixing/mingling of mafic and felsic magmas. Combined field and petrographic evidences reveal convection and divergent flow in the host magma chamber following the introduction of mafic magmas. Mixing occurs when mafic magma is introduced into host felsic magma before initiation of crystallization leading to formation of hybrid magma under the influence of convection. On the other hand when mafic magmas inject into host magma containing 30–40% crystals, the viscosities of the two magmas are sufficiently different to permit mixing but permit only mingling. Finally, if the mafic magmas are injected when felsic host was largely crystallized (~70% or more crystals), they fill early fractures and interact with the last residual liquids locally resulting in fragmented dykes. The latent heat associated with these mafic injections probably cause reversal of crystallization of adjoining host in magma chamber resulting in back veining in synplutonic mafic dykes. Our field data suggest that substantial volume of mafic magmas were injected into host magma chamber during different stages of crystallization. The origin of mafic magmas may be attributed to decompression melting of mantle associated with development of mantle scale fractures as a consequence of crystallization of voluminous felsic magmas in magma chambers at deep crustal levels.     

Genesis and Mixing/Mingling of Mafic and Felsic Magmas of Back-Arc Granite: Miocene Tsushima Pluton, Southwest Japan

The Middle Miocene Tsushima granite pluton is composed of leucocratic granites, gray granites and numerous mafic microgranular enclaves (MME). The granites have a metaluminous to slightly peraluminous composition and belong to the calc‐alkaline series, as do many other coeval granites of southwestern Japan, all of which formed in relation to the opening of the Sea of Japan. The Tsushima granites are unique in that they occur in the back‐arc area of the innermost Inner Zone of Southwest Japan, contain numerous miarolitic cavities, and show shallow crystallization (2–6 km deep), based on hornblende geobarometry. The leucocratic granite has higher initial ⁸⁷Sr/⁸⁶Sr ratios (0.7065–0.7085) and lower ε_Nd(t) (?7.70 to ?4.35) than the MME of basaltic–dacitic composition (0.7044–0.7061 and ?0.53 to ?5.24), whereas most gray granites have intermediate chemical and Sr–Nd isotopic compositions (0.7061–0.7072 and ?3.75 to ?6.17). Field, petrological, and geochemical data demonstrate that the Tsushima granites formed by the mingling and mixing of mafic and felsic magmas. The Sr–Nd–Pb isotope data strongly suggest that the mafic magma was derived from two mantle components with depleted mantle material and enriched mantle I (EMI) compositions, whereas the felsic magma formed by mixing of upper mantle magma of EMI composition with metabasic rocks in the overlying lower crust. Element data points deviating from the simple mixing line of the two magmas may indicate fractional crystallization of the felsic magma or chemical modification by hydrothermal fluid. The miarolitic cavities and enrichment of alkali elements in the MME suggest rapid cooling of the mingled magma accompanied by elemental transport by hydrothermal fluid. The inferred genesis of this magma–fluid system is as follows: (i) the mafic and felsic magmas were generated in the mantle and lower crust, respectively, by a large heat supply and pressure decrease under back‐arc conditions induced by mantle upwelling and crustal thinning; (ii) they mingled and crystallized rapidly at shallow depths in the upper crust without interaction during the ascent of the magmas from the middle to the upper crust, which (iii) led to fluid generation in the shallow crust. The upper mantle in southwest Japan thus has an EMI‐like composition, which plays an important role in the genesis of igneous rocks there.     

西准噶尔克拉玛依岩体的成因:年代学、岩石学和地球化学证据

西准噶尔地区克拉玛依岩体主要由闪长岩和花岗岩组成,锆石SHRIMP法给出的岩体结晶年龄为(315.5±2.8)Ma,为晚石炭世侵入岩.克拉玛依岩体具岛弧岩石的元素地球化学特征:总体上岩石富钠.A/CNK=0.57～0.84,富集LREE,(La/Yb)N=4.7～6.1,Eu显示弱负异常(δEu=0.76～0.91),...     

新疆准噶尔地区花岗岩中微粒闪长质包体特征及后碰撞花岗质岩浆起源和演化

新疆准噶尔地区也布山、庙儿沟两个晚古生代后碰撞准铝一过铝质花岗岩体中，广泛发育大量的暗色微粒闪长质包体。岩石学、矿物学、主量元素和微量元素地球化学研究表明，包体与其寄主岩存在明显的亲缘关系。东准噶尔也布山黑云母花岗岩体中的暗色微粒包体与寄主岩有相似的地球化学成分，表明它是与寄主花岗岩相同成因的同源包体，是来自上地幔的基性岩浆经过高度演化、结晶分异的产物；西准噶尔庙儿沟二长花岗岩体中含钾长石斑晶的微粒包体则主要是由幔源的下地壳基性岩部分熔融形成的残余体，被酸性岩浆携带并发生成分上的同化和混染，最后在上地壳侵位的产物。同准噶尔碱性花岗岩一样，载荷包体的准铝一过铝质花岗岩是晚古生代后碰撞阶段构造一岩浆活动的岩石类型之一，其形成和演化标志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的过程。     

Synplutonic mafic dykes from late Archaean granitoids in the Eastern Dharwar Craton,southern India

We present a first overview of the synplutonic mafic dykes (mafic injections) from the 2.56–2.52 Ga calcalkaline to potassic plutons in the Eastern Dharwar Craton (EDC). The host plutons comprise voluminous intrusive facies (dark grey clinopyroxene-amphibole rich monzodiorite and quartz monzonite, pinkish grey porphyritic monzogranite and grey granodiorite) located in the central part of individual pluton, whilst subordinate anatectic facies (light grey and pink granite) confined to the periphery. The enclaves found in the plutons include highly angular screens of xenoliths of the basement, rounded to pillowed mafic magmatic enclaves (MME) and most spectacular synplutonic mafic dykes. The similar textures of MME and adjoining synplutonic mafic dykes together with their spatial association and occasional transition of MME to dismembered synplutonic mafic dykes imply a genetic link between them. The synplutonic dykes occur in varying dimension ranging from a few centimeter width upto 200 meters width and are generally dismembered or disrupted and rarely continuous. Necking of dyke along its length and back veining of more leucocratic variant of the host is common feature. They show lobate as well as sharp contacts with chilled margins suggesting their injection during different stages of crystallization of host plutons in magma chamber. Local interaction, mixing and mingling processes are documented in all the studied crustal corridors in the EDC. The observed mixing, mingling, partial hybridization, MME and emplacement of synplutonic mafic dykes can be explained by four stage processes: (1) Mafic magma injected during very early stage of crystallization of host felsic magma, mixing of mafic and felsic host magma results in hybridization with occasional MME; (2) Mafic magma introduced slightly later, the viscosities of two magmas may be different and permit only mingling where by each component retain their identity; (3) When mafic magma injected into crystallizing granitic host magma with significant crystal content, the mafic magma is channeled into early fractures and form dismembered synplutonic mafic dykes and (4) Mafic injections enter into largely crystallized (>80% crystals) granitic host results in continuous dykes with sharp contacts. The origin of mafic magmas may be related to development of fractures to mantle depth during crystallization of host magmas which results in the decompression melting of mantle source. The resultant hot mafic melts with low viscosity rise rapidly into the crystallizing host magma chamber where they interact depending upon the crystallinity and viscosity of the host. These hot mafic injections locally cause reversal of crystallization of the felsic host and induce melting and resultant melts in turn penetrate the crystallizing mafic body as back veining. Field chronology indicates injection of mafic magmas is synchronous with emplacement of anatectic melts and slightly predates the 2.5 Ga metamorphic event which affected the whole Archaean crust. The injection of mafic magmas into the crystallizing host plutons forms the terminal Archaean magmatic event and spatially associated with reworking and cratonization of Archaean crust in the EDC.     

北秦岭火山岩地球化学特征,成因和构造环境

本文研究了北秦岭及华北地台南缘火山岩约500件岩石化学、120件微量元素和135件稀土元素样品数据。熊耳群、大红口组火山岩属B类的地壳混染型,为大陆裂谷环境;宽坪群、秦岭群变拉斑玄武岩建造属A类的幔源型,为海槽环境;二郎坪群、丹凤群细碧角斑岩建造属C+A、C类的壳幔混合型,为海盆环境。     

Cumulating processes at the crust-mantle transition zone inferred from Permian mafic-ultramafic xenoliths (Puy Beaunit,France)

Ultramafic and mafic xenoliths of magmatic origin, sampled in the Beaunit vent (northern French Massif Central), derive from the Permian (257 Ma) Beaunit layered complex (BLC) that was emplaced at the crust-mantle transition zone (∼1 GPa). These plutonic xenoliths are linked to a single fractional crystallisation process in four steps: peridotitic cumulates; websteritic cumulates; Al-rich mafic cumulates (plagioclase, pyroxenes, garnet, amphibole and spinel) and finally low-Al mafic cumulates. This sequence of cumulates can be related to the compositional evolution of hydrous Mg basaltic magma that evolved to high-Al basalt and finally to andesitic basalt. Sr and Nd isotopic compositions confirm the co-genetic character of the various magmatic xenoliths and argue for an enriched upper mantle source comparable to present mantle wedges above subduction zones. LILE, LREE and Pb enrichment are a common feature of all xenoliths and argue for an enriched sub-alkaline transitional parental magma. The existence of a Permian magma chamber at 30 km depth suggests that the low-velocity zone observed locally beneath the Moho probably does not represent an anomalous mantle but rather a sequence of mafic/ultramafic cumulates with densities close to those of mantle rocks.     

阿尔金南缘鱼目泉岩浆混合花岗岩LA-ICP-MS测年与构造意义

阿尔金南缘鱼目泉花岗质岩体中含有大量暗色闪长质包体,岩相学及地球化学特征研究表明该岩体是由同期的幔源基性岩浆和酸性岩浆在近于液相(或"晶粥状")状态下发生不均匀混合作用的产物。LA-ICP-MS锆石U-Pb同位素测年结果显示其形成年龄(496.9±1.9Ma)与南阿尔金山大陆深俯冲超高压变质岩的峰期变质年龄(504～487Ma)相一致,且在地球化学特征上具有高Al2O3(平均15.88%),较高的K2O/Na2O值(平均1.26),高Sr(平均446×10-6),高(La/Yb)N值(平均24.04)和Sr/Y值(平均40),极低的Y(平均14.0×10-6)及Yb含量(平均1.5×10-6),类似于加厚地壳背景下形成的高Sr、低Y及Yb型花岗岩,反映出约500Ma时的南阿尔金造山带总体上处于地壳相互叠覆增厚的陆-陆碰撞造山作用阶段。分析认为,约500Ma时,南阿尔金山地区伴随着增厚地壳发生熔融作用产生大规模酸性岩浆活动的同时,还存在幔源基性岩浆的底侵,其原因可能与同时期大陆深俯冲作用所诱发的深部热地幔上升有关。