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1.
柯坪塔格推覆构造几何学、运动学及其构造演化 总被引:29,自引:1,他引:29
大量野外构造地质调查和深部构造解释表明柯坪塔格推覆构造由多组倒转复式背斜、复式箱状背斜构成的推覆体及其前缘逆冲断裂组成 ,由寒武系—第四系组成的推覆体由北向南逆—斜冲 ,平面上构成向南凸出的弧形推覆构造 ;普昌断裂由各不相连的逆冲斜冲断裂段组成 ,而不是完整的一条走滑断层 ,各推覆体前缘逆冲断裂与各推覆体的普昌断裂段共同构成统一的前缘逆冲斜冲逆冲断裂和推覆构造系统 ;普昌断裂段以西的推覆体具有向东抬升、向西倾覆的鼻状构造特征 ,普昌断裂段以东的推覆体具有向西抬升、向东倾覆的鼻状构造特征 ,普昌基底隆起带是巴楚隆起隐伏在柯坪塔格推覆构造之下的部分。各推覆体前缘断裂在深部均归并于统一的寒武系底部的滑脱面 ,其南浅北深 ,东浅西深 (普昌隆起带以西 )或西浅东深 (普昌隆起带以东 ) (6 10km ) ,埋深较大区发育多组滑脱面。柯坪塔格推覆构造的形成时期为晚第四纪 ,为现今活动的推覆构造系统。文中认为各推覆体向南西的倾覆端基底滑脱面和中新生界内部的滑脱面没有贯通 ,是未来 6级以上地震的发震构造部位。 相似文献
2.
秦岭南缘大巴山褶皱-冲断推覆构造的特征 总被引:14,自引:0,他引:14
秦岭造山带南缘的大巴山巨型逆冲推覆构造主要是在秦岭造山带板块俯冲碰撞造山与中、新生代以来陆内造山过程中长期复合作用形成的。详细的室内外构造研究表明,巴山逆冲推覆构造可以巴山弧形断裂带为界划分为北大巴山逆冲推覆构造和南大巴山逆冲推覆构造。北大巴山自北而南依次由安康-武当推覆体、紫阳-平利推覆体、高桥-镇坪推覆体和高滩推覆体逆冲叠置而成。南大巴山则以镇巴-阳日断裂为界,分为北部的前陆冲断褶皱带和南部的前陆褶皱带。北大巴山主要是印支期碰撞造山作用和燕山期陆内逆冲推覆作用叠加改造的结果,南大巴山则主要是燕山期递进变形过程中的产物。构造变形北强南弱,北以冲断褶皱变形为特征,南以皱褶作用为主;北部褶皱紧闭复杂,向南渐变为宽缓的薄皮构造。逆冲作用在时序上具有由北向南扩展传递的特点。 相似文献
3.
秦岭勉县—略阳板块缝合带在略阳地区构造样式总体表现为以一系列韧性逆冲断层为骨架,不同岩片(块)由北向南逆冲叠置的叠瓦状构造系,并在北部以状元碑走滑剪切转换带为界与白水江—光头山自南向北的逆冲推覆构造系构成不对称双向推覆构造。两大推覆构造系结构构造分别具有明显的分带性。略阳逆冲构造系包括:前缘褶皱—逆冲带、中部逆冲叠瓦带和后缘逆冲带;白水江—光头山逆冲推覆构造系由前锋推覆带、中部褶皱—逆冲带和根带组成,并显示前展式扩展方式。双向推覆构造形成于印支晚期—燕山早期,是扬子板块北缘碧口地块与南秦岭地块强烈碰撞造山的产物,反映了板块边界对造山带构造变形样式的控制作用以及造山带结构构造的复杂性。 相似文献
4.
位于准噶尔盆地西北缘前陆冲断带北段的哈拉阿拉特山,以往认为是一个典型的逆冲推覆构造带。笔者通过野外地质调查和对地震与大地电磁测深(MT)资料的综合解释研究,发现该区总体表现出走滑—冲断复合构造特征。其形成受控于达尔布特断裂在不同时期不同性质的活动,主要经历了两个阶段:二叠-三叠纪是以逆冲推覆为主兼具走滑的斜向冲断,形成该区以逆冲推覆构造为主要特征的走滑—冲断构造;侏罗纪以来主要以左行压扭走滑变形为主,沿达尔布特断裂变形强烈,形成花状构造,并在一定程度上改造了前期形成的逆冲推覆构造,但强度较弱。因此,目前在哈拉阿拉特山地区所见到的构造现象实际上是二叠纪至三叠纪斜向冲断和侏罗纪以来的压扭走滑两期构造变形的叠加样式,总体构成走滑—冲断复合构造。这一地质构造模型的建立对地震解释具有指导作用,同时指出逆冲推覆构造下盘的隐伏背斜未经后期走滑改造,是油气勘探的重要方向。 相似文献
5.
6.
淮南煤田逆冲叠瓦扇构造系统 总被引:5,自引:0,他引:5
淮南煤田推覆构造发育于淮南复向斜南、北两翼。南缘推覆构造更为强烈,规模亦大,系由一系列走向近EW,向S倾斜的逆冲断裂组成。剖面上各断裂上陡下缓,向下逐渐归并于统一的滑脱面,从而构成上叠式逆冲叠瓦扇构造。滑脱面在倾向上及走向上均呈波状变化。北缘的反向逆冲叠瓦扇可能是在南缘逆冲推覆的构造作用下被动产生的。这在宏观、微观及超微观分析中都清晰地得到显示。然而,它们是近于同时形成的。这样就构成了淮南煤田的前缘止于反向断层的逆冲叠瓦构造系统。 相似文献
7.
祁连山北缘早白垩世榆木山逆冲推覆构造与油气远景 总被引:3,自引:0,他引:3
榆木山地处祁连山北缘与河西走廊南缘的盆山结合带,是青藏高原北缘高原隆升与扩展的关键构造带。野外地质调查与构造填图发现,祁连山北缘的榆木山地区发育大型逆冲推覆构造,逆冲推覆构造之下是被掩埋的、褶皱了的早白垩世早期沉积地层,并被随后的走滑断裂活动和走滑双重构造所改造。深地震反射和大地电磁剖面测量与解释的初步结果,验证了祁连山北缘断裂以北发育的逆冲推覆构造,榆木山北缘山系构成飞来峰构造,将早白垩世酒泉盆地的一个分支掩盖在前中生代地层之下。构造关系分析给出主期逆冲推覆作用的时限大致为早白垩世早期,反映了在新生代印度—亚洲碰撞之前存在一期强烈的晚中生代构造挤压事件。逆冲推覆构造之下发现白垩纪盆地油气显示,扩展了该地区油气前景。 相似文献
8.
通过地表地质调查和钻探资料,厘定了湘东太湖逆冲推覆构造.推覆构造总体呈北东走向,自北西往南东依次由前缘逆断裂(螺丝桥断裂)、推覆体前带和上部滑脱构造、下断坡(铁铺坳-龙凤桥隐伏断裂)及推覆体后带、反冲断裂(中湾断裂)、后缘向斜等组成.在前缘断裂北西面发育青洞倒转向斜.后缘向斜呈向NW凸出的弧形,其中段发育丫江桥穹状隆起和印支期丫江桥花岗岩体.青洞向斜走向中分点、后缘向斜弧形前凸部位及丫江桥岩体(穹状隆起)中心组成NW向直线,并与丫江桥岩体长轴重合.基于以上特征,分析提出太湖逆冲推覆构造及丫江桥穹状隆起和丫江桥岩体形成的动力机制:印支运动中在区域NW(W)向挤压下,发生深部和浅部滑脱以及沿下断坡的逆冲,形成太湖逆冲推覆构造.太湖推覆体向北西运动过程中存在自青洞向斜至丫江桥岩体的具有更强的挤压和更大距离滑移的中轴带,使丫江桥地区形成穹状隆起,并使后缘向斜轴迹因后拽牵引而组成-向北西凸出的弧形构造.丫江桥穹状隆起区由于更强的挤压剪切作用及更大幅度的地壳增厚,深部地壳发生更大幅度的升温,在强挤压过后应力松弛环境下减压熔融、岩浆上侵而形成丫江桥花岗岩体.太湖逆冲推覆构造为华南中生代构造演化提供了一定程度的制约. 相似文献
9.
论内蒙古大青山地区逆冲推覆构造 总被引:17,自引:0,他引:17
大青山逆冲推覆构造发育在石拐断陷盆地南侧,由一系列规模大涉等向南倾的叠瓦状逆冲推覆断层构成,由南南西向北北东方向推覆,是单冲型逆推覆构造。由北向南分为前缘挤压滑构造带、斜歪倒转褶皱逆冲断层带和逆冲推覆岩席及叠瓦状逆冲断层带。 相似文献
10.
辉发河断裂带的朝阳镇--黑石段以北地区广泛发育不同型式的褶皱及断裂,这些皱及断裂规律地沿北东向展布,显示着一种特殊的构造样式。本文认为这种特殊的构造样式是逆冲推覆构造运动的反映,并提出兰家网一带为吉昌-磐石逆冲褶皱推覆构造带根带的新认识。 相似文献
11.
A large-scale pop-up structure occurs at the front of the northern Dabashan thrust belt (NDTB),bound by the NNE-dipping Chengkou fault to the south,and the SSW-dipping Gaoqiao fault to the north.The pop-up structure shows different features along its strike as a direct reflection of the intensity of tectonic activity.To the northwest,the structure is characterized by a two-directional thrust system forming a positive flower-like structure.In contrast,the southeastern part is composed of the vertical Chengkou fault and a series of N-directed backthrusts.showing a semi-flower-like structure. We present results from Ar-Ar dating of syntectonic microthermal nietamorphic sericite which show that the Chengkou fault experienced intense deformation during the mid-Mesozoic Yanshanian epoch(about 143.3 Ma),causing rapid uplift and thrusting of the northern Dabashan thrust belt.During the propagation of this thrust,a series of backthrusts formed because of the obstruction from the frontier of Dabashan thrust belt,leading to the development of the pop-up structure. 相似文献
12.
南大巴山冲断构造及其剪切挤压动力学机制 总被引:35,自引:0,他引:35
南大巴山是一个形成于T3-K1,滑脱深度小于8-10km 的扬于板块北缘薄皮冲断锲它主要由发育在显生宙地层中台阶状逆断层及断层相关褶皱构成的逆冲岩席、双重推覆体和冲起构造等组成。变形扩展以前列式为主。经平衡地质剖面制作,因冲断南大巴山地壳缩短率平均达49.3%。并以每年约1.28mm 的速率总体缩短约64km,它的成因受控于秦岭碰撞造山过程中扬于板块北缘A型俯冲所提供挤压应力,在向南扩展时,由于古大陆边缘形态不一所诱发的右旋剪切挤压动力学机制。 相似文献
13.
南大巴山前陆冲断带构造样式及变形机制分析 总被引:26,自引:9,他引:26
大巴山构造带位于秦岭造山带和四川盆地的过渡部位,形成于印支-燕山期,定型于喜山期。按照构造变形样式及其组合特征,从北东向南西可依次划分为北大巴山逆冲推覆构造带、南大巴山前陆褶皱-冲断带(又包括叠瓦断层带、断层-褶皱带和滑脱褶皱带等3个亚带)和四川盆地东北部低缓构造区等3个构造带(区)。南大巴山冲断带地表构造以类侏罗山式褶皱为显著特征,主要发育叠瓦断层系、断层相关褶皱、被动顶板双重构造、反冲断层系和冲起构造等变形样式。北东-南西向挤压应力和滑脱层是控制南大巴山及其前缘构造变形的主要因素,结合区域地质研究成果,建立了南大巴山及其前缘地区依次从震旦系-下寒武统-志留系-中下三叠统逐渐抬高的多层次滑脱前展模式。 相似文献
14.
《International Geology Review》2012,54(10):1276-1294
The North Dabashan thrust belt, which is located in South Qinling, is bounded by the Ankang fault on the north and the Chengkou–Fangxian fault on the south. The North Dabashan thrust belt experienced multiple stages of structural deformation that were controlled by three palaeostress fields. The first structural event (Middle Triassic) involved NNW–SSE shortening and resulted in the formation of numerous dextral strike-slip structures along the entire Chengkou–Fangxian fault zone and within the North Dabashan thrust belt, which suggests that the South China Block moved to the NW and was obliquely subducted under the North China Block. The second structural event (Late Triassic–Early Jurassic) involved NE–SW shortening that formed NW–SE-trending structures in the North Dabashan thrust belt. The third structural event (Late Jurassic–Early Cretaceous) involved ENE–WSW or nearly E–W shortening and resulted in additional thrusting of the North Dabashan thrust belt to the WSW and formation of the WSW-convex Chengkou–Fangxian fault zone, which has an oroclinal shape. Owing to the pinning of the Hannan massif and Shennongjia massif culminations, numerous sinistral strike-slip structures developed along the eastern Chengkou–Fangxian fault zone and were superimposed over the early dextral strike-slip structures. 相似文献
15.
The Daba Mountains define the southern margin of the East Qinling orogenic belt, and form the boundary of the Sichuan basin
in the north and northeast. The Daba Mountains can be divided into two structural belts by the NW-striking Chengkou fault,
namely the northern Dabashan thrust-nappe belt and the southern Dabashan foreland fold-and-thrust belt. The southern Dabashan
fold-and-thrust belt is a southwestward extruding thin-skinned thrust wedge, showing obvious belted change in deformation
style and deformation intensity along the dip direction, and can be divided further into three sub-belts, i.e. the imbricate
thrust sub-belt characterized by imbricate stepped-thrust sheets, the thrust-fold sub-belt characterized by the combination
of the equally-developed thrusts and related folds, and the detachment-fold sub-belt characterized by box folds and closed
overturned-isoclinal folds on the outcrops. Several kinds of structures have been recognized or inferred, including imbricate
thrust system, passive-roof duplex (triangle zone), fault-related folds, back-thrust system and pop-up structure. The NE-SW
compressive stress from the Qinling orogenic belt and detachment layers in the covering strata are the two most important
determinants of deformation style. After the collision between the North China block and Yangtze block at the end of the Middle
Triassic, the northward intracontinental subduction along the southern edge of the Qinling orogenic belt was initiated, which
led to the corresponding southward thrusting in the upper crust. The thrusting propagated towards the foreland through the
Jurassic and extended to the southernmost part of the southern Daba Mountains around the end of the Early Cretaceous, with
thrusting deformation to be preferentially developed along major detachment layers and progressing upwards from the Lower
Sinian through the Lower Cambrian and Silurian to Middle-Lower Triassic.
Translated from Geotectonica et Metallogenia, 2006, 30(3): 294–304 [译自: 大地构造与成矿学] 相似文献
16.
大巴山构造带是秦岭造山带南部发育的一个以逆冲推覆构造为特征的构造带。通过在大巴山弧形构造带中段渔渡地区进行的详细构造解析发现,大巴山构造带在侏罗纪以来经历了至少两期变形叠加,变形地层三叠系嘉陵江组—侏罗系沙溪庙组。早期变形以与滑脱构造相关的轴向北西—北北西向箱状或隔挡状褶皱为主,并在深部发育顺层滑脱构造,变形时代为晚侏罗世到早白垩世。晚期变形与北侧逆冲相关,导致右行走滑变形,主要形成右行走滑断层和北西—北北西向紧闭褶皱,变形时代比第一期稍晚,为晚侏罗世之后到早白垩世。两期变形形成的褶皱延伸方向一致,与区域构造线的方向协调,而且在远离北侧镇巴断裂的地区变形强度有减弱的趋势,两期变形叠加形成共轴或斜交叠加构造。研究表明,变形与大巴山冲断—推覆构造带向南逆冲有关。 相似文献
17.
Characteristic of Gravity and Magnetic Anomalies in the Daba Shan and the Sichuan basin, China: Implication for Architecture of the Daba Shan 总被引:2,自引:0,他引:2
The Dabashan nappe structural belt links the Hannan block to the west with the Huangling block to the east between Yangxian and Xiangfan. The Dabashan arc-shaped fold belt formed during late Jurassic and was superposed on earlier Triassic folds. To achieve an improved understanding of the deep tectonics of the Dabashan nappe structural belt, we processed and interpreted the gravity and magnetic data for this area using new deep reflection seismic and other geophysical data as constraints. The results show that the Sichuan basin and Daba Mountains lie between the Longmenshan and Wulingshan gravity gradient belts. The positive magnetic anomalies around Nanchong-Tongjiang-Wanyuan-Langao and around Shizhu result from the crystalline basement. Modeling of the gravity and magnetic anomalies in the Daba Mountains and the Sichuan basin shows that the crystalline basement around Nanchong-Tongjiang-Wanyuan-Langao extends to the northeast underneath the Wafangdian fault near Ziyang. The magnetic field boundary in the Zhenba-Wanyuan-Chengkou-Zhenping area is the major boundary of the Dabashan nappe thrusting above the Sichuan Basin. This boundary might be the demarcation between the south Dabashan and the north Dabashan structural elements. The low gravity anomaly between Tongjiang and Chengkou might be partly caused by thickened lower crust. The local low gravity anomaly to the south of Chengkou-Wanyuan might result from Mesozoic strata of low density in the Dabashan foreland depression area. 相似文献
18.
大巴山与雪峰山逆冲构造带J3-K1复合过程的响应———鄂西秭归褶皱带构造样式与形成机制 总被引:1,自引:0,他引:1
秭归褶皱带位于大巴山逆冲带与雪峰山逆冲带叠合部位,总体呈现穹窿-盆地型式,是构造复合、联合作用的结果,记录了大巴山逆冲带与雪峰山逆冲带两者相互作用的重要信息,是研究构造复合和联合过程的理想区域。本文通过对秭归褶皱带秭归向斜、巴东复向斜和香龙山背斜的野外调查,对褶皱枢纽、相关断层、节理等进行详细构造解析,理清了先后叠加关系,在此基础上进行了构造分期和配套,对变形期古构造应力场进行了恢复重建。结果表明秭归褶皱带晚侏罗世-早白垩世经历三期构造变形:D1期以近EW向的秭归向斜和香龙山背斜为代表,秭归向斜为轴面近直立的开阔圆弧状,香龙山背斜呈轴面近直立的箱状,相关逆冲断层具由北向南逆冲的特点,可能与大巴山由NE向SW逆冲作用有关。D2期秭归向斜叠加近SN向枢纽,呈锅状,香龙山背斜东段发育鼻状的五龙背斜,褶皱带呈穹窿-盆地型。与向斜相关的水田坝断裂带向SEE逆冲,主压应力场呈NWW-SEE近平行的束状。该期变形可能与雪峰山逆冲带向NW逆冲过程中受到黄陵背斜阻挡有关。D3期秭归向斜近SN向枢纽向南西弯曲,巴东复向斜呈NW凸出弧形,香龙山背斜西端叠加NE-SW向构造形迹。主压应力场总体向NW发散。该期变形可能与雪峰山逆冲带向NW逆冲推挤有关。上述构造分析表明,向SW逆冲的大巴山逆冲带先影响鄂西地区,之后向NW逆冲推挤的雪峰山逆冲带扩展至该地区,形成复合关系。区域构造与地层关系分析表明D1-D3形成于J3-K1,因此秭归褶皱带是大巴山逆冲构造带向SW叠瓦逆冲并与指向NW的雪峰山逆冲带复合叠加的结果,表明上扬子地区在J3-K1经历了分阶段复合叠加的过程,即前期受到大巴山逆冲带近SN构造作用影响,后期经历向NW逆冲推挤的雪峰山逆冲带NW-SE向构造叠加。 相似文献
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南大巴前陆冲断带位于秦岭造山带向四川盆地过渡的部位,是晚三叠世扬子-秦岭俯冲碰撞与中新生代以来陆内造山形成的。根据构造变形的几何学特点,自北东向南西发育紧靠城口断层的根带、坪坝断裂与鸡鸣寺断裂之间的中带、镇巴-鸡鸣寺断裂与铁溪-巫溪隐伏断裂之间的锋带。各带发育不同的构造变形:根带的冲断层系统以逆冲叠瓦构造为主控构造组合,同时发育构造三角带、冲起构造和双重构造等组合;中带的冲断褶皱系统以发育断层相关褶皱组合为主;锋带发育为滑脱褶皱系统,以类侏罗山式褶皱为主控构造,同时发育了箱状背斜、膝折构造、倒转背斜、平卧褶皱、紧闭背斜、同斜背斜、虚脱不协调背斜等滑脱褶皱。垂向上发育3套区域性滑脱层:震旦系泥页岩和寒武系泥页岩、志留系泥页岩、下三叠统膏盐岩;在南秦岭自北而南的推覆作用下,依次沿这3套滑脱层逐级抬升而向南滑脱,存在"推覆作用(叠层滑动)→冲断作用(切层滑动)→层滑作用(顺层滑动)"的滑脱变形序列,从而造就南大巴的多种构造变形类型及其有序分布特征。 相似文献