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1.
辽宁海城地区辽海群底部大型韧性滑脱带的构造演化 总被引:1,自引:0,他引:1
通过对辽宁海城地区赵家堡子-马风-什司县一带早元古宙辽河群底部地层和变质深成侵入体的详细构造研究,确定了辽河群底部与太古宙之间大型韧性滑脱带的存在。卷入滑脱带的地质体有辽河群底部浪子山岩组和早元古宙变质深成侵入体。 相似文献
2.
庐山隆起─滑脱构造 总被引:6,自引:2,他引:4
庐山隆起-滑脱构造呈不对称状,西部外壳宽,出露地层完整;东部外壳窄,缺失地层较多,其内核为-开阔短轴背形,由早元古代星子群深变质及晚元古代、早古生代、中生代花岗岩组成。外壳由中元古代双桥山群浅变质沉积岩和细碧-石英角斑岩,晚元古代汉阳峰组浅变质流纹岩、细碧岩,晚元古代辉绿岩,震旦纪及后震旦纪未变质地层组成。内核与外壳间的接合面原是早元古代星子群与中元古代双桥山群间的平行不整合面,但在庐山隆起-滑脱构造形成过程中,受到了顺层韧性剪切作用及其以后其它构造作用的改造和破坏。以接合面为界,外壳自内向外,顺层韧性剪切变形变质、顺层韧性剪切固态流动褶皱变形由强至弱发生变化,直至无变形变质;而内核从接合面附近向内部,退变质作用逐渐消失。庐山隆起-滑脱构造是在西部挤压,东部拉张的伸展构造环境中形成的,经历了吕梁期雏形(或基础)、晋宁-加里东期形成发展及海西-喜山期改造三个阶段。 相似文献
3.
研究发现,庐山东南麓中深变质岩系的顶部发育以糜棱岩、构造片岩为主体的顺层韧性剪切变形变质带,其上为滑脱断层和固态流动构造群落带及独具特征我多层滑脱构造形迹群。它们反映了前印支造山期伸展构造作用体制下形成的局部隆起-分层滑脱构造系特征。 相似文献
4.
本文从地层,高级区,变质深成侵入体,变形与变质,成矿作用5个方面进行了思考,提出了;华北陆块北缘太古宙地层是有序我,基 序基本符合绿岩带的层序特征;高级区不存在;高级区是变质程度较高的绿岩带;变质深成侵入岩石类型复杂,现有的岩石分类与表示方法尚不能与实际相对应;变形与变质是有一定的规律的,变形遵循压扁变形,伸展变形与挤压变形的顺序,相伴产生变质,表现出完整的变形-变质旋回;一定的矿化与一定的岩石组 相似文献
5.
辽东早元古代裂谷带内的隆滑构造是在吕梁造山前期伸展体制下的第一幕变形期间形成的。本区隆滑构造的内核隆起部位大致与中南岩基空间分布一致,由同构造侵位的二长花岗岩(辽吉花岗岩)组成,在裂谷带西区和东区,辽吉花岗岩皆顺基底与盖层之间的接合面呈席状侵位。由于辽吉花岗岩局部隆起,引起外壳内多层滑脱型韧性剪切带(简称韧变带)及流褶层的形成,在递进变形过程中流褶层会发生尖灭。因变形分解作用,在形成韧变带及流褶层的同时,也形成一些巨型透镜体,它们为弱变形域或未变形域,其内原生构造保存完整。对流褶层内流动褶皱的倒向及拉伸线理的统计,结果进一步表明中南岩基为辽河群内隆滑构造的隆起部位。现今东区和西区的穹形构造是初始席状侵位的叠加性构造,即在吕梁运动期间收缩体制下,辽吉花岗岩仍呈塑性并向背斜部位聚集,呈底辟式重就位;第三幕构造形迹横跨叠加于第二幕构造形迹之上,从而最终使辽吉花岗岩有规律地分布于穹形构造核部。 相似文献
6.
盖州地区分布早元古代辽河群变质岩系,其中大面积为盖县岩组变质岩。变质岩系构造线总体呈NNW—SEE展布,主要构造线方向与岩层总体走向基本一致。辽河群变质年龄为2 000~1 900 Ma.。通过调查、分析研究,初步确状认辽河群变质岩系在吕梁期经历了三幕变形作用的改造。第一幕为伸展机制下顺层剪切变形作用;第二幕为收缩机制下挤压变形作用;第三幕为第二幕的延续。 相似文献
7.
华北克拉通基底主要构造单元变质作用演化及其若干问题讨论 总被引:77,自引:54,他引:23
华北克拉通基底可分为三个太古宙微陆块(东部陆块、阴山陆块和鄂尔多斯陆块)和三个早元古宙活动带(孔兹岩带、华北中部带和胶-辽-吉带).这些构造单元具有不同的变质作用时间和P-T演化特征.东部陆块和阴山陆块晚太古宙基底岩系的变质作用发生在~2.5Ga,变质演化以等压冷却(IBC)逆时针P-T轨迹为特征,反映变质作用的成因与大规模地幔岩浆底侵有关.孔兹岩带主期变质作用发生在~1.95Ga,变质演化以近等温减压(ITD)顺时针P-T轨迹为特征,反映阴山陆块与鄂尔多斯陆块碰撞形成西部陆块的热构造过程.华北中部带变质作用发生在~1.85Ga,变质演化同样以近等温减压(ITD)顺时针P-T轨迹为特征,反映了西部陆块和东部陆块最终碰撞形成统一的华北克拉通基底的构造过程.早元古宙胶-辽-吉带变质作用表现‘双变质带'特征:西北带的北辽河群、老岭群和粉子山群的变质作用以中压顺时针P-T轨迹为特征,而东南带的南辽河群、吉安群和荆山群的变质作用以低压逆时针P-T演化为特征.华北克拉通基底变质作用演化地质图能更好地反映上述不同构造单元的变质作用演化特征.尽管岩浆弧、大陆裂谷和地幔柱模式都能解释东部陆块晚太古宙基底变质作用所具有的近等压冷却(IBC)逆时针P-T演化特征,地幔柱模式能够更合理解释东部陆块所存在的宽达800千米而时代近于相同的晚太古代火成岩带、大量科马提质超镁铁质岩石和双峰式火山岩、广泛发育的穹窿构造等.华北克拉通变质基底中具有石榴石-单斜辉石-斜长石-石英组合的高压基性麻粒岩和具有蓝晶石-钾长石组合的高压泥质麻粒岩的出露只局限在早元古宙华北中部带的北段和胶-辽-吉带的南端;这些高压麻粒岩形成在俯冲和陆-陆碰撞的构造环境中.西部陆块孔兹岩带含假蓝宝石麻粒岩是碰撞后(~1.92Ga)拉伸引发地幔岩浆底侵导致局部地带发生超高温(UHT)变质作用的产物. 相似文献
8.
扬子地台西缘江浪变质核杂岩的出露地壳剖面构造地层柱 总被引:14,自引:0,他引:14
扬子地台西缘江浪变质核杂岩的出露地壳剖面构造地层柱自下而上由3个体系构成,即中元古界李伍岩群堆垛层系统,代表深部构造层次中多期、多体制变形变质改造后的扬子地台基底;古生代褶叠层系统(中间韧性流变层),其中的3个岩组具有不同的褶叠层构造地层型,其时代分别为奥陶纪、早志留世和二叠纪;最上部为浅部构造层次纵弯曲变形的三叠纪西康群板岩带。在各体系之间以及各体系内部,发育了一系列的顺层韧性剪切滑脱带;其中以分割基底堆垛层与下部盖层流变层的区域性韧性剪切滑脱带最具意义,我们称之为基底剥离滑脱带。 相似文献
9.
古元古代拉伸构造模式——以胶北,辽东和吉南地区为例 总被引:6,自引:0,他引:6
对胶北、辽东和吉南地区元古代层状岩系和第一幕构造变形作用的详细研究和综合分析,并以此为典型实例,提出了古元古代拉伸构造模式,即隆起-顺层分层滑脱构造模式。该上部隆起和上部盖层及两者之间的拆离型韧性剪切带三部分组成。核部隆起常由岩浆隆起或基底隆起构成,上部盖层内发育有顺层分层滑脱构造体系,由底部主滑脱面和内部次级滑脱面,低级骨脱面及其间的流褶层和片理化带构成,靠近核部隆起的盖层表现为正向滑脱,而滑脱 相似文献
10.
内蒙古西部狼山温更逆冲断层发育在温更侏罗纪沉积盆地西北边界, 是一条规模较大的逆冲断裂构造带。断层倾向北西, 上盘由太古宙-元古宙变质地层和古生代深成侵入体构成, 下盘为侏罗纪沉积, 由北西向南东方向逆冲。断层切割改造了早-中侏罗世沉积地层, 被早白垩世沉积地层覆盖, 表明了逆冲断层形成在下中侏罗统沉积之后白垩系固阳组沉积之前。断层带同构造石英脉中流体包裹体的分析结果表明, 断层形成于5.5~6 km浅部地壳构造层之上, 温度为195℃~210℃, 围压为50 ~60 MPa, 断层带的宏观和显微构造显示断层以脆性变形机制为主。 相似文献
11.
柴达木北缘达肯大坂群与滩间山群的接触关系 总被引:3,自引:0,他引:3
柴达木北缘古元古界达肯大坂群片麻岩系与上奥陶统滩间山群绿片岩系之间先存的角度不整合已经受到后期滑脱构造变形的强烈改造,是一种变质岩区特有的构造接触关系——隐蔽不整合,从而明确"过渡带"片岩系实质上是一条变质滑脱带,是伸展体制下低角度正断层沿不整合面滑脱拆离的产物,其主体应划归达肯大坂群。 相似文献
12.
野外地质调查表明,鲁西隆起的伸展断裂十分发育,其构造样式复杂.主要形式为陡倾斜的伸展断裂和缓倾斜的滑脱断层组成的复合伸展断裂系统.陡倾斜的伸展断裂构成鲁西伸展断裂系的主体,是控制其南部凹陷沉积的边界断裂.断裂带中构造角砾岩、断层泥发育,并有小褶皱、擦痕等显示断裂活动的标志.缓倾斜的滑脱断层在鲁西隆起区广泛发育,分为深、浅两个层次,浅层次中最具规模的位于下寒武统与太古宇之间.滑脱面上盘的寒武系底部产生强烈的构造变形,褶皱和破碎带发育,下盘构造相对简单,仅挤压破碎.深层次滑脱断层发育在中地壳低速层处,控制着浅层次滑脱断层的形成与分布.构造应力场数值模拟结果显示,鲁西隆起的伸展断裂系统是由晚中生代以来两次大规模的伸展运动形成的,形成机制上,与中、新生代郯庐断裂的走滑活动、太平洋板块的俯冲以及岩浆上涌密切相关. 相似文献
13.
内蒙古固阳地区太古宙乌拉山群构造变形分析 总被引:1,自引:0,他引:1
乌拉山群的变质-变形问题一直有不同的认识^「1~3」。该文以固阳地区3幅1∶5万区调资料为基础,结合90年代以来周边地区1∶5万区调成果,提出晚太古宙乌拉山群经历了两期主要的构造变形。第一期为伸展体制下近水平分层剪切形成的固态流变褶皱和高温顺层韧性剪切带,属高角闪岩相-麻粒岩相,变形时间为太古代末;第二期构造变形为地壳抬升之后的剂压体制下,中、浅层次的紧闭同斜相似褶皱--主期褶皱和低温韧性剪切带, 相似文献
14.
湘黔边境加里东板内造山期后正向滑脱构造与成矿 总被引:4,自引:0,他引:4
湘黔边境地处扬子板块东南缘,加里东运动是区内古生代最强烈的板内造山运动;由新元古界板溪群至下古生界奥陶系所构成的NE-NNE向褶皱带为区内主体构造;近期区域地质调查所发现的加里东造山期后,构造体制由挤压转换为伸展所产生的一套正向顺层滑脱构造系统更具特色,不但空间结构完整,构造变形清楚,正向顺层滑脱标志明显,而且成矿控矿作用突出,是湘黔边境著名汞矿带的重要控矿构造. 相似文献
15.
嘎拉山大型伸展滑脱构造发育在大兴安岭北段东坡,带内发育倾向SE的剪切面理,普遍发育层间揉皱、眼球状构造、低角度正断层、鞘褶皱和窗棂构造以及云母鱼、旋转残斑、石英条带等各种韧性变形显微组构,变形温度为300~400 ℃。各种宏观和微观不对称褶皱和线理等指向标志显示嘎拉山伸展构造为一指向SE的伸展滑脱构造。通过对剪切变形带中的花岗质片麻岩和大理岩的白云母40Ar/39Ar同位素测年获得144~147 Ma的坪年龄,该年龄代表了伸展剪切变形的形成时间。结合区域上变质核杂岩的研究,认为嘎拉山伸展构造的形成机制很可能与鄂霍茨克造山运动使地壳加厚崩塌,导致大兴安岭地区发生区域性伸展有关。 相似文献
16.
《International Geology Review》2012,54(6):749-766
Two stages of extension affected the Yiwulüshan area, forming the Yiwulü High-Temperature Extensional Ductile Shear Zone (YHED) and the Waziyu Low-Temperature Extensional Ductile Shear Zone (WLED) during the Middle–Late Jurassic and Early Cretaceous, respectively. The YHED and WLED are characterized by elongation strain and plane strain, respectively. Kinematic vorticity values (Wk ), estimated from polar Mohr diagrams, suggest that pure shear-dominated and thinning-related shearing generated the YHED, whereas simple and pure shearing created the WLED during crustal thinning. From the thickness (H) and the thinning rate (μ) of the ductile shear zones, the reduced crustal thickness due to ductile shearing was estimated to be approximately 3.72 km. Based on structural analysis, contact relationships, and geochronological data, we propose that intense extensional detachment contributed to the stratigraphic gap along a Middle–Late Jurassic ductile detachment shear zone at the contact between Palaeo-Mesoproterozoic metasedimentary rocks and the Archaean basement. Furthermore, this ductile detachment shear zone was reactivated in the Early Cretaceous and lasted for 7.48 million years. After correlating the stratigraphy of the Yiwulüshan area with regions adjacent to it, we conclude that a 1.46–1.69 km-thick section of Proterozoic and Archaean basement is missing along the ductile detachment shear zone. We estimate that the crustal thickness in the Yiwulüshan region has been reduced by more than 5.41 km because of extension-related shearing and this stratigraphic gap. In addition, numerous Mesozoic extensional structures occur throughout the northeastern North China Craton, and crustal thinning has been accommodated along all of them. Our findings highlight the importance of extensional detachments and crustal thinning to lithospheric thinning. 相似文献
17.
R.D. Gee 《Tectonophysics》1979,58(3-4)
The Western Australian Shield consists of two large Archaean cratons that are partly covered by remnant Proterozoic sedimentary basins and partly surrounded by Proterozoic mobile belts. Archaean terrains are either granitoid-greenstone, or high-grade gneiss, the regional distribution of which influences the style of Proterozoic tectonism.Granitoid-greenstone terrains consist of thick volcanogenic sequences, now occurring as dismembered synclinal keels within voluminous granitoidand display features that are uniquely Archaean. The gneiss terrains, although severely modified and dismembered by metamorphism and plutonism, seem to display a more uniformitarian tectonic style than the granitoid-greenstones.Mounting evidence in the Yilgarn Block suggests that the gneiss terrains represent a pre-greenstone basement, which was probably very extensive, both outside and within the greenstone areas. The most extensive area of gneiss lies in a huge arc around the western part of the Yilgarn Block, creating a novel situation where older rocks seemingly “wrap around” younger rocks. It is postulated that the precursors of the two major granitoidgreenstone terrains were huge, discrete, somewhat rounded volcanic basins that developed within extensive and perhaps continuous crust. At least in the Pilbara, there is a phenomenally continuous volcanic stratigraphy. Despite the basic similarities there are sufficient differences between the two volcanic basins to suggest independent evolution, whereby similar processes operated in different places in different times.These granite—greenstone areas had largely stabilised by about 2500 m.y. and, during the Proterozoic, behaved as cratonic blocks that tended not to participate in the mobile belts. Thus, the Capricorn Orogen developed as an ensialic geosyncline, on gneiss basement, between the two cratons. Where Proterozoic sedimentary basins transgress on to the cratons, they are preserved as gently folded and virtually unmetamorphosed covers. Within the orogenic zone itself, trough sedimentation, prograde metamorphism, basement reworking, multiple deformation and granitoid emplacement were active over the period 2000-1600 m.y. Superimposed on the Capricorn Orogen is the intracratonic Bangemall Basin (about 1100-1000 m.y.) which displays patterns of cratonic deformation that relate closely to the underlying structures.Along the southeastern margin of the Yilgarn Block is the Albany-Fraser Province which developed over an interval from 1900 m.y., or older, to 1100 m.y. Tectonic zonation is expressed by a linear striping of contrasting rocks that become younger away from the Yilgarn Block. Rather than an accretionary origin, voluminous granitoid, basemeni reworkingand absence of geosynclinal sedimentation suggest a discrete zone of high crustal strain and high thermal activity, and the belt is likened to an arrested rift in a continental setting. 相似文献
18.
Abstract Portions of three Proterozoic tectonostratigraphic sequences are exposed in the Cimarron Mountains of New Mexico. The Cimarron River tectonic unit has affinities to a convergent margin plutonic/volcanic complex. Igneous hornblende from a quartz diorite stock records an emplacement pressure of 2–2.6 kbar. Rocks within this unit were subsequently deformed during a greenschist facies regional metamorphism at 4–5 kbar and 330 ± 50° C. The Tolby Meadow tectonic unit consists of quartzite and schist. Mineral assemblages are indicative of regional metamorphism at pressures near 4 kbar and temperatures of 520 ± 20° C. A low-angle ductile shear zone separates this succession from gneisses of the structurally underlying Eagle Nest tectonic unit. Gneissic granite yields hornblende pressures of 6–8 kbar. Pelitic gneiss records regional metamorphic conditions of 6–7 kbar and 705 ± 15° C, overprinted by retrogression at 4 kbar and 530 ± 10° C. Comparison of metamorphic and retrograde conditions indicates a P–T path dominated by decompression and cooling. The low-angle ductile shear zone represents an extensional structure which was active during metamorphism. This extension juxtaposed the Tolby Meadow and Eagle Nest units at 4 kbar and 520° C. Both units were later overprinted by folding and low-grade metamorphism, and then were emplaced against the Cimarron River tectonic unit by right-slip movement along the steeply dipping Fowler Pass shear zone. An argon isotope-correlation age obtained from igneous hornblende dates plutonism in the Cimarron River unit at 1678 Ma. Muscovite associated with the greenschist facies metamorphic overprint yields a 40 Ar/39 Ar plateau age of 1350 Ma. By contrast, rocks within the Tolby Meadow and Eagle Nest units yield significantly younger argon cooling ages. Hornblende isotope-correlation ages of 1394–1398 Ma are interpreted to date cooling during middle Proterozoic extension. Muscovite plateau ages of 1267–1257 Ma appear to date cooling from the low-grade metamorphic overprint. The latest ductile movement along the Fowler Pass shear zone post-dated these cooling ages. Argon released from muscovites of the Eagle Nest/Tolby Meadow composite unit, at low experimental temperatures, yields apparent ages of c. 1100 Ma. Similar ages are not obtained north-east of the Fowler Pass shear zone, suggesting movement more recently than 1100 Ma. 相似文献
19.
越城岭花岗岩体西侧滑脱型韧性剪切带的发现及其形成的构造体制 总被引:6,自引:2,他引:6
越城岭花岗岩体西侧片麻状花岗岩带主体是一条由韧性剪切作用形成的复合糜棱岩带,包括早期高绿片岩相条件下形成的糜棱片麻岩和晚期低绿片岩相条件下形成的糜棱岩。高绿片岩相韧性剪切带和低绿片岩相韧性剪切带具有基本一致的运动学性质,为滑脱型韧性剪切带,总体为在向NWW缓倾的糜棱面理上向SW方向滑动,并在平面上表现为左旋效应。根据构造对比研究,认为越城岭西侧滑脱型韧性剪切带形成于后造山阶段的伸展构造体制。 相似文献