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1.
沿红河断裂带(RRFZ)分布的点苍山变质核杂岩是一个不完整的变质核杂岩,它由两个特征迥异的单元组成,包括被同构造二长花岗岩侵入角闪岩相构造岩组成的下盘和绿片岩相的拆离断层带。下盘岩石包括具有高温构造组合,具有指示左行走滑剪切运动方向的L型糜棱岩或LS型糜棱岩。拆离断层带是一个上盘向E到SE伸展剪切的低温剪切带,由具有剪应变和压应变的典型S-L糜棱岩构成。低温构造岩也包括发育于下盘的几个糜棱岩化似斑状二长花岗岩侵入体。变质核杂岩与西侧覆盖未变质的中生代沉积岩并置,东部受第四纪断层作用影响为沿洱海分布的更新世-全新世沉积盆地。通过对点苍山变质核杂岩的构造研究,结合邻区变质核杂岩的地质年代学及古地磁学分析,我们认为:位于东南亚红河断裂和实皆断裂带之间的扇形区域内出现的变质核杂岩与渐新世-中新世时期区域性伸展作用有关,而伸展作用是由印支地块的差异性旋转产生的,其原因是由于约33Ma开始斜向俯冲的印度板块的顺时针旋转和回退所致。 相似文献
2.
辽西医巫闾山地区瓦子峪变质核杂岩的厘定 总被引:9,自引:0,他引:9
以前未被发现的辽西医巫闾山地区瓦子峪变质核杂岩主要由一条向西倾的低角度正断层———瓦子峪拆离断层组成 ,它将由早白垩世沉积岩和火山岩组成的上盘与糜棱岩化和未变形的下盘分开。瓦子峪拆离断层 (以前称之为孙家湾—稍户营子断裂 )位于变质核杂岩的西侧 ,倾角 10~ 4 0°,构造标志指示向北西方向 (约 2 90°)剪切。与早白垩世地壳伸展相伴生的下盘糜棱岩剪切方向也是北西向 ,这与瓦子峪拆离断层运动相关。已经发表的和未发表的锆石U Pb年龄、40 Ar/3 9Ar热年代学和上盘阜新盆地中生物地层的时代研究表明 ,地壳伸展和变质核杂岩形成时代为早白垩世 (约 12 7~ 116Ma)。我们未发现以前文献报道的医巫闾山是一对称的变质核杂岩的任何证据。瓦子峪变质核杂岩以及WNW侧的拆离断层的厘定会加深我们对华北克拉通早白垩世伸展作用的理解和认识 ,下一步的研究重点包括野外构造研究以确定拆离断层和下盘糜棱岩的空间展布 ,进一步采集样品以研究变质核杂岩的地质 /热年代学和变质核杂岩范围内的岩体成因。我们认为瓦子峪变质核杂岩的形成是太平洋板块边界重组、早白垩世岩浆作用致使地壳升温 ,从而导致经造山作用而加厚的地壳垮塌的结果。 相似文献
3.
辽南变质核杂岩具有3层结构,由5部分构成,包括上盘异地岩块与半地堑状伸展盆地、下盘深成变质杂岩与同构造侵入岩体、介于上下盘之间的主拆离断层带共同构成。上盘异地岩块主要为新元古宙与古生界弱变形沉积岩系,岩层经历过印支期前伸展变形作用的改造。伸展盆地在辽南地区规模很小,仅局限于变质核杂岩的局部地段,其中发育了晚白垩世火山-沉积岩系。下盘变质杂岩由太古宙TTG片麻岩系为主,并有少量变质上壳岩系,它们被晚中生代时期同构造就位的二长花岗岩-花岗岩系侵入。拆离断层内发育了记录地壳不同层次拆离作用历史的各种不同类型的构造… 相似文献
4.
张八岭隆起广泛分布的平缓韧性剪切带与郯庐断裂带平移作用形成的陡立韧性剪切带明显不同。通过对平缓韧性剪切带的几何学、运动学分析,结合早白垩世盆地特征、中国东部变质核杂岩伸展拆离断层和同构造岩浆岩同位素定年结果,厘定出张八岭隆起早白垩世变质核杂岩。该变质核杂岩上盘由南华纪-奥陶纪沉积地层和早白垩世盆地组成,下盘为新元古代浅变质碎屑沉积岩、变海相火山岩(基底)以及早白垩世侵入岩,上下盘之间被一条主伸展拆离断层所分隔。变质核杂岩长轴为NE-SW向,指示构造反映上盘向SE剪切滑动,与中国东部变质核杂岩的伸展方向完全一致。通过本次变质核杂岩的厘定,结合野外地质事实,笔者认为管店-马厂断裂是郯庐断裂带的次级断裂,是对郯庐断裂带早白垩世末第三次左行平移的响应。在综合研究的基础上,建立了区域构造-岩浆-成矿关系模型,揭示了张八岭隆起早白垩世经历了早期伸展(变质核杂岩阶段)-挤压走滑(管店-马厂断裂形成阶段)-晚期伸展(闪长质脉岩侵位阶段)3个构造阶段,多期构造、岩浆的叠加作用下,形成了本区的金多金属矿产。 相似文献
5.
索伦缝合带中的印支期伸展作用:中国内蒙古苏尼特左旗变质核杂岩(英文) 总被引:11,自引:0,他引:11
根据对内蒙古苏尼特左旗地区的野外研究 ,我们将以前描述的交其尔逆冲断层重新解释为一南倾的伸展拆离断层。该断层为一印支期变质核杂的主拆离断层 ,它叠加在缩短的阿尔泰和满洲里带间的晚古生代索伦缝合带上。变质核杂岩的组成要素包括 :下盘的古生代中期和二叠—三叠纪侵入体 (分别是宝底道和哈拉图岩体 ) ,交其尔拆离断层之下、叠加在下盘岩体上的糜棱岩状剪切带 ,拆离断层本身和上盘成分多变、构造复杂的古生代和元古宙岩石。从U Pb年龄为 2 5 2Ma的糜棱岩化哈拉图岩体中获得白云母 ,其40 Ar/ 3 9Ar冷却年龄为 2 2 4Ma和 2 0 8Ma ,而后伸展沉积的下、中侏罗统沉积在下盘之上 ,表明变质核杂岩形成于印支期 ,即晚三叠世至侏罗纪最早期。研究区内 ,北东东走向的交其尔拆离断层的伸展作用方向大致为 2 15°。这是索伦缝合带内首次发现的印支期伸展作用 ,结合分隔遥远的中国各地区 ,如大别—苏鲁缝合带、西藏高原羌塘变质带和东阿尔金山区近来报道的其它一些晚三叠—早侏罗世 (约 2 2 0~ 190Ma)沿韧性拆离断层的伸展作用实例 ,清楚表明东亚地区区域性印支期变形的性质有必要进行重新研究 相似文献
6.
大青山伸展拆离断层运动学涡度研究及构造指示意义 总被引:3,自引:1,他引:2
在华北北缘的大青山伸展拆离断裂带叠加在中生代逆冲断层之上,其韧性剪切带在变质核杂岩南北两侧出露,运动学指向为上盘向南东向拆离.运动学涡度分析表明,大青山拆离断层剪切带早期(较高温)简单剪切分量不断增加直至简单剪切;拆离断层总体平均涡度Wm简单剪切分量沿拆离断层上盘运动方向增大,与韧性剪切带先垂向颈缩、后水平伸展的被动式... 相似文献
7.
苏尼特左旗变质核杂岩位于中亚造山带东南部,其发育一走向近EW、倾向S的低角度伸展型拆离带,主要由下盘的二叠纪—三叠纪侵入体、韧性剪切带(糜棱岩带)、脆性拆离断层面及上盘的古生代和元古宙岩石组成。韧性拆离带内主要岩石类型为花岗质糜棱岩,宏观尺度普遍发育面理与线理,产状为145°~194°∠34°~55°与185°~228°∠15°~39°。显微尺度下石英强烈定向成拔丝状、并具亚颗粒旋转重结晶现象;长石形成不对称的旋转碎斑系及核幔构造。剪切带内不对称长石碎斑、云母鱼、S-C组构等指示上盘向SW方向剪切。以拆离带内强变形糜棱岩及下盘哈拉图岩体为测年对象,两个花岗质糜棱岩与下盘不变形花岗岩的锆石U-Pb年龄为244.4±1.8 Ma、244.0±2.4 Ma与229.4±2.1 Ma;锆石(U-Th)/He的年龄为212.5±13.1 Ma、214.1±13.2 Ma。结合区域构造背景与前人研究资料,认为苏尼特拆离带变形起始时限为244 Ma以后,变形峰期时限为224 Ma并持续至214 Ma。苏尼特左旗变质核杂岩韧性拆离带在244~224 Ma与224~213 Ma两个时期的冷却速率分别为1... 相似文献
8.
新开岭-科洛杂岩位于中国东北地区的嫩江-黑河构造带中,其变形规律与成因一直是制约东北地区乃至邻区构造演化的关键问题之一.据详尽的野外调查,系统分析了岩石宏观糜棱面理、矿物拉伸线理、“A”型褶皱、不对称褶皱、眼球状旋转构造和显微书斜式、眼球状旋转等构造样式.构造解析及运动学分析反映杂岩带两侧整体分别向NW及SE向的伸展滑脱特征;杂岩带内黑云斜长片麻岩及侵入糜棱岩中的闪长玢岩锆石U-Pb(LA-ICP-MS)定年及区域对比研究结果显示,其韧性变形变质作用时代为中侏罗世(167 Ma),变质峰期时限为170~163 Ma,中侏罗世晚期(163 Ma)暴露于地表.新开岭-科洛杂岩具上盘盖层、拆离韧性剪切带及下盘核杂岩3层式结构特征.核内为大面积分布的花岗岩类,地层时代远比核外地层偏新,并无“古老”的变质岩;拆离韧性剪切带变形温度约400~500℃,其变质强度达绿片岩相,后期发生明显退变质作用.新开岭-科洛岩浆核杂岩主要是在岩浆底侵、花岗岩岩体强力侵位引起地壳隆升的伸展构造背景下形成. 相似文献
9.
10.
伸展变质核杂岩(mcc)的基本特征包括:(1)缓倾至中等倾角的具有大规模位移的(几十千米)区域至准区域性延伸的主拆离断层;(2)与断层相关的糜棱片岩和片麻岩下盘(包括可能出露更深层次的非糜棱化结晶岩);(3)上盘上地壳基底岩和/或表壳岩层.关键的一点是,所有变质核杂岩是沿地壳深部(大于10~15 km)大型拆离断层大规模地壳伸展和地壳切除(缺失)的产物.我们认为,地壳剖面无大规模缺失的以基底为核的穹隆状杂岩不是一般构造定义上公认的变质核杂岩.变质核杂岩形成于同缩短期和缩短期后的多种构造环境中.由于前期或同期的缩短作用,变质核杂岩似乎都发育在地壳强烈增厚的区域.绝大多数(但显然并非全部)变质核杂岩都与岩浆作用有密切的时空关系.变质核杂岩起控制作用的拆离断层一般生根于中地壳或直接位于石英变为晶质塑性的韧脆性转化带下的深处,但有些拆离断层切穿大部或整个地壳.大多数变质核杂岩总体上具有不对称或简单剪切的构造几何特征,但有些变质核杂岩呈现较为对称的边界拆离断层. 相似文献
11.
LIU Junlai GUAN Huimei JI Mo CAO Shuyun HU Ling State Key Laboratory of Geological Processes Mineral Resources and Key Laboratory of Lithosphere Tectonics Lithoprobing Technology of the Ministry of Education China University of Geosciences Bei 《《地质学报》英文版》2006,80(4):502-513
The Liaonan metamorphic core complex (mcc) has a three-layer structure and is constituted by five parts, i.e. a detachment fault zone, an allochthonous upper plate and an supradetachment basin above the fault zone, and highly metamorphosed rocks and intrusive rocks in the lower plate. The allochthonous upper plate is mainly of Neoproterozoic and Paleozoic rocks weakly deformed and metamorphosed in pre-Indosinan stage. Above these rocks is a small-scale supradetachment basin of Cretaceous sedimentary and volcanic rocks. The lower plate is dominated by Archean TTG gneisses with minor amount of supracrustal rocks. The Archean rocks are intruded by late Mesozoic synkinematic monzogranitic and granitic plutons. Different types of fault rocks, providing clues to the evolution of the detachment fault zone, are well-preserved in the fault zone, e.g. mylonitic gneiss, mylonites, brecciated mylonites, microbreccias and pseudotachylites. Lineations in lower plate granitic intrusions have consistent orientation that indicate uniform top-to-NW shearing along the main detachment fault zone. This also provides evidence for the synkinematic characteristics of the granitic plutons in the lower plate. Structural analysis of the different parts in the mcc and isotopic dating of plutonic rocks from the lower plate and mylonitic rocks from detachment fault zone suggest that exhumation of the mcc started with regional crustal extension due to crustal block rotation and tangential shearing. The extension triggered magma formation, upwelling and emplacement. This event ended with appearance of pseudotachylite and fault gauges formed at the uppermost crustal level. U-Pb dating of single zircon grains from granitic rocks in the lower plate gives an age of 130±5 Ma, and biotite grains from the mam detachment fault zone have 40Ar-39Ar ages of 108-119 Ma. Several aspects may provide constraints for the exhumation of the Liaonan mcc. These include regional extensional setting, cover/basement contact, temporal and spatial coupling of extension and magmatism, basin development and evolution of fault tectonites along detachment fault zone. We propose that the exhumation of the Liaonan mcc resulted from regional extension and thinning of crust or lithosphere in eastern North China, and accompanied with synkinematic intrusion of granitic plutons, formation of detachment fault zone, uplifting and exhumation of lower-plate rocks, and appearance of supradetachment basin. 相似文献
12.
辽宁南部万福变质核杂岩的发现及其区域构造意义 总被引:10,自引:1,他引:9
根据宏观与微观构造测量,结合白垩纪沉积盆地组成与结构、区域岩浆活动性及其测年资料等的综合分析,揭示出在辽宁南部辽南变质核杂岩东侧存在另一个变质核杂岩构造,即万福变质核杂岩。该核杂岩具有典型的三层结构:拆离断层带由不同层次构造岩构成,上盘为元古宇岩石,下盘是太古宇岩石和就位于其中的同构造花岗质侵入体。万福变质核杂岩形成于早白垩世,与辽南变质核杂岩构成一个变质核杂岩对,两者在很多方面具有相似性。该变质核杂岩对的厘定可能为阐明华北晚中生代岩石圈的力学和流变学属性以及岩石圈减薄过程提供了依据。 相似文献
13.
<正>The Ailao Shan-Red River fault zone is the boundary between the Yangtze block to the northeast and the Indochina block to the southwest.It is an important tectonic zone due to its role in the southeastward extrusion of the Indochina block during and subsequent to the Indian-Eurasian collision.Diancang Shan(DCS) high-grade metamorphic complex,located at the northwest extension along the Ailao Shan-Red River(ASRR) shear zone,is a representative metamorphic complex of the ASRR tectonic belt.Structural and microstructural analysis of sheared rocks in the high-grade metamorphic rocks reveals that they are coherent with solid-state high-temperature ductile deformation,which is attributed to left-lateral shearing along the ASRR shear zone.New LA-ICP-MS zircon U-Pb geochronological and microstructural studies of the post-kinematic granitic plutons provide a straightforward time constraint on the termination ductile left-lateral shearing and exhumation of the metamorphic massif in the ASRR shear zone.It is suggested that the left-lateral shearing along the ASRR shear zone ended at ca.21 Ma at relative lower-temperature or decreasing temperature conditions.During or after the emplacement of the young dikes at ca.21 Ma,rapid brittle deformation event occurred,which makes the DCS massif start fast uplift/exhumation and cooling to a shallow crustal level. 相似文献
14.
《International Geology Review》2012,54(3):348-367
The Diancang Shan metamorphic massif, the northwestern extension of the Ailao Shan Massif, is a typical metamorphic complex situated along the NW–SE-trending Ailao Shan–Red River shear zone. Diancang Shan granitic and amphibolitic mylonites collected from sheared high-grade metamorphic rocks were studied using petrographic and electron-backscatter diffraction techniques. Sensitive high-resolution ion microprobe U–Pb dating of zircon grains from the granitic mylonites constrains the timing of shearing. Macro- and microstructural and textural analysis reveals intense plastic deformation of feldspar, quartz, and amphibole under amphibolite-facies conditions, all consistently document left-lateral shearing. Porphyritic monzogranitic mylonite within the shear zone possesses evidence supporting a sequential, progressive process from crystallization during magma emplacement, through submagmatic flow to solid-state plastic deformation. We suggest that the early-kinematic pluton subsequently underwent strong left-lateral strike–slip shearing. The development of complex textures of quartz, feldspar, and amphibole from the granitic and amphibolitic mylonites apparently records successive variation of conditions attending coherent, solid-state high-temperature ductile deformation during regional left-lateral shearing. All magmatic zircons from the mylonitized porphyritic monzogranite give U–Pb ages of 30.95 ± 0.61 million years for the crystallization of the granite. This age provides the timing of onset of left-lateral shearing along the Ailao Shan–Red River shear zone in the Diancang Shan high-grade metamorphic massif. 相似文献
15.
<正>The Early Cretaceous Hohhot metamorphic core complex(mcc) of the Daqing Shan(Mtns.) of central Inner Mongolia is among the best exposed and most spectacular of the spatially isolated mcc's that developed within the northern edge of the North China "craton".All of these mcc's were formed within the basement of a Late Paleozoic Andean-style arc and across older Mesozoic fold-and-thrust belts of variable age and tectonic vergence.The master Hohhot detachment fault roots southwards within the southern margin of the Daqing Shan for an along-strike distance of at least 120 km.Its geometry in the range to the north is complicated by interference patterns between(1) primary,large-scale NW-SE-trend-ing convex and concave fault corrugations and(2) secondary ENE-WSW-trending antiforms and synforms that folded the detachment in its late kinematic history.As in the Whipple Mtns.of California, the Hohhot master detachment is not of the Wernicke(1981) simple rooted type:instead,it was spawned from a mid-crustal shear zone,the top of which is preserved as a mylonitic front within Carboniferous metasedimentary rocks in its exhumed lower plate.~(40)Ar—~(39)Ar dating of siliceous volcanic rocks in basal sections of now isolated supradetachment basins suggest that crustal extension began at ca.127 Ma, although lower-plate mylonitic rocks were not exposed to erosion until after ca.119 Ma.Essentially synchronous cooling of hornblende,biotite.and muscovite in footwall mylonitic gneisses indicates very rapid exhumation and at ca.122—120 Ma.Contrary to several recent reports,the master detachment clearly cuts across and dismembers older,north-directed thrust sheets of the Daqing Shan foreland fold-and-thrust belt.Folded and thrust-faulted basalts within its foredeep strata are as young as 132.6±2.4 Ma,thus defining within 5—6 Ma the regional tectonic transition between crustal contraction and profound crustal extension. 相似文献
16.
哀牢山-红河剪切带左行走滑作用起始时间约束 总被引:18,自引:1,他引:17
位于哀牢山-红河剪切带NW延伸方向上的点苍山变质杂岩体遭受强烈的左行走滑剪切变形、变质作用改造,岩石中保存了典型的高温矿物组合以及由它们构成的宏观和微观高温变形构造特征,其中糜棱岩中具有极其发育的长石矿物拉伸线理而形成典型的L与LS型构造岩是其一个明显的特征。本文对点苍山地区高温糜棱岩主要矿物开展了显微构造与矿物变形、变形机制及组构分析,并对于遭受高温糜棱岩化改造的一个花岗质岩体开展了SHRIMP锆石U-Pb定年分析。结果表明岩石中长石、角闪石、石英等主要矿物具有典型的达角闪岩相条件下的高温晶质塑性变形和动态生长特征,它们也为走滑剪切变形活动提供了充分的微观构造证据。对于点苍山高温糜棱岩化改造的眼球状或似斑状二长花岗岩的显微构造分析结果表明,这套花岗质岩石从走滑剪切前期岩浆的侵位之后经历了早期强烈的岩浆期后交代作用—亚岩浆流动—高温固态塑性剪切变形的递进演化过程。由此可见,岩浆的上升与就位受左行走滑剪切作用的制约,岩体又遭受了强烈剪切变形改造。同时对这套构造前期就位花岗质岩石中的锆石进行定年分析,获得33.88±0.32Ma的岩浆结晶年龄,为此,我们有充分的理由认为,在点苍山地区哀牢山-红河剪切带左行走滑剪切作用的起始时间至少应该为早渐新世30.88±0.32Ma。 相似文献
17.
The Yunmeng Shan metamorphic core complex (MCC) is composed of the lower plate, the upper plate and the detachment zone. The detachment zone consists of ductile shear zone (mylonite zone), chloritized microbreccias zone and the brittle fault plane. The ductile shear zone contains mylonitic rocks, protomylonites, and mylonites. Finite strain measurements of feldspar porphyroclasts from those rocks using the Rf/φ method show that the strain intensities increase from mylonitic rocks (Es=0.66–0.72) to protomylonites (Es=0.66–0.83), and to mylonites (Es=0.71–1.2). The strain type is close to flatten strain. Kinematic vorticity estimated by Polar Mohr diagrams suggest that foliations and lineation of mylonite (0.47相似文献
18.
In metamorphic core complexes it is commonly unclear whether lower plate mylonites formed as the down-dip continuation of a detachment fault, or whether they represent a subhorizontal shear zone that was captured by a more steeply dipping detachment fault. Detailed microstructural, fabric, and strain data from mylonites in the Buckskin-Rawhide metamorphic core complex, west-central Arizona, constrain the structural development of the lower plate shear zone. Widespread exposures of ∼22–21 Ma granitoids of the Swansea Plutonic Suite enable us to separate Miocene strain coeval with core complex extension from older deformation. Mylonites across the lower plate consistently record top-to-the-NE-directed shear. Miocene quartz and feldspar deformation/recrystallization mechanisms indicate ∼450–500 °C mylonitization temperatures that were relatively uniform across a distance of ∼35 km in the extension direction. Quartz dynamically recrystallized grain sizes do not systematically vary in the extension direction. Strain recorded in the Swansea Plutonic Suite is also relatively uniform in the extension direction, which is incompatible with models in which lower plate mylonites form as the ductile root of a major detachment fault. Altogether these data suggest the mylonitic shear zone initiated with a ≤4° dip and was unroofed by a more steeply dipping detachment fault system. Lower plate mylonites in the Buckskin-Rawhide metamorphic core complex thus represent a captured subhorizontal shear zone rather than the down-dip continuation of a detachment fault. 相似文献