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1.
东昆仑南部晚新生代逆冲推覆构造系统 总被引:7,自引:1,他引:7
通过对东大滩—东温泉地区的路线地质观测与构造填图,在东昆仑南部发现晚新生代大型逆冲推覆构造系统。沿低角度逆冲断层,早二叠世大理岩和早三叠世砂板岩自北向南逆冲推覆于古新统—始新统风火山群紫红色砾岩和渐新世砖红色砂砾岩之上,形成大量不同规模的飞来峰;沿主逆冲断层发育厚层断层角砾岩与断层泥,局部形成碳酸盐质糜棱岩。东昆仑南部逆冲推覆构造的发育时代为渐新世晚期—中新世早期,主要形成、活动时期为26~13.5Ma;估算最小逆冲推覆距离为30~35km,最小逆冲推覆运动速率为2.4~2.8mm/a。东昆仑南部晚新生代逆冲推覆构造运动与现今山脉快速隆升存在着动力学成因联系。 相似文献
2.
青藏高原中段古近纪早期古构造演化 总被引:1,自引:0,他引:1
青藏高原古近纪早期发育大量区域逆冲推覆构造系统, 典型实例如冈底斯逆冲断裂系、纳木错西逆冲推覆构造、伦坡拉逆冲推覆构造、唐古拉山北逆冲推覆构造、东昆仑南部左旋斜冲断裂系。古近纪逆冲推覆构造对古新世—始新世沉积盆地具有重要控制和改造作用。冈底斯古新世—始新世早期发育大量中酸性岩浆侵入和多期中酸性火山喷发, 岩石Sr/Y-Y地球化学显示为岛弧岩浆岩, 推断与古近纪早期新特提斯残留古大洋板块俯冲存在成因联系。古近纪早期新特提斯残留大洋板块俯冲向印度大陆板块俯冲的转换时代约为46-45 Ma, 转换期前逆冲推覆构造运动与新特提斯残留古大洋板块俯冲存在密切关系; 转换期后印度大陆板块俯冲导致更为强烈的逆冲推覆构造运动和挤压缩短变形, 不仅使早期很多逆冲推覆构造继续发生构造运动, 还在喜马拉雅、冈底斯、风火山、东昆仑南部形成大量新的逆冲推覆构造系统。 相似文献
3.
青藏高原羌塘盆地南部古近纪逆冲推覆构造系统 总被引:2,自引:0,他引:2
西藏羌塘地块南部古近纪发育肖茶卡-双湖逆冲推覆构造、多玛-其香错逆冲推覆构造、赛布错-扎加藏布逆冲推覆构造,构成古近纪大型逆冲推覆构造系统。沿逆冲推覆构造的前锋断层,二叠系白云岩与大理岩化灰岩、三叠系砂岩与页岩、侏罗系碎屑岩与碳酸盐岩和三叠纪—侏罗纪蛇绿岩自北向南逆冲推覆于古近纪红色砂砾岩之上,形成规模不等的构造岩片与飞来峰。羌塘盆地南部主要的逆冲断层和下伏的褶皱红层被中新世湖相沉积地层角度不整合覆盖,表明逆冲推覆构造运动自中新世以来基本停止活动。羌塘盆地南部古近纪逆冲推覆构造运动在近南北方向产生的最小位移为90km,指示新生代早期上地壳缩短率约为47%。古近纪逆冲推覆构造对羌塘盆地油气资源具有重要影响。 相似文献
4.
藏北改则新生代早期逆冲推覆构造系统 总被引:2,自引:0,他引:2
藏北改则及邻区新生代早期发育大型逆冲推覆构造系统,由不同方向的逆冲断层、不同时代的构造岩片、不同规模的飞来峰和构造窗、不同类型的褶皱构造组成。羌塘中部发育羌中薄皮推覆构造,石炭系板岩和二叠系白云质灰岩自北向南逆冲推覆于上白垩统与古近系红层之上,形成大型逆冲岩席和弧形逆冲断层,原地系统古近纪红层下伏三叠系—侏罗系海相烃源岩。羌塘南部发育南羌塘薄皮推覆构造,导致班公—怒江蛇绿岩、三叠系—侏罗系海相地层及侏罗纪混杂岩自北向南逆冲推覆于古近纪红层与下白垩统海相沉积岩层之上,形成三条蛇绿岩片带、大量飞来峰和厚度较大的构造片岩。中新世早期火山岩层和湖相沉积呈角度不整合覆盖逆冲断层、褶皱构造和逆冲岩席,不整合面上覆火山岩年龄为23.7~19.1Ma,指示中新世早期改则及邻区基本结束了强烈逆冲推覆构造运动。估算羌中逆冲推覆构造的推覆距离约100~115km,南羌塘逆冲推覆构造的推覆距离约82~110km;新生代早期改则逆冲推覆构造系统近南北方向逆冲推覆总距离为182~225km,对应地壳缩短率为(50.3±2.7)%。 相似文献
5.
青藏高原中部古近纪发育伦坡拉盆地、色林错盆地、尼玛盆地,组成伦坡拉-色林错-尼玛沉积凹陷,总体呈近东西走向,长超过250km,宽30~50km;凹陷中心古近系河湖相沉积地层厚度达5~6km,下部为古新统-始新统牛堡组砾岩、砂岩、泥岩、泥灰岩,上部为渐新统丁青湖组泥岩、页岩、粉砂岩夹油页岩,顶部被新近系河湖相沉积不整合覆盖。凹陷南部发育尼玛-色林错逆冲推覆构造,凹陷北侧发育赛布错-扎加藏布逆冲推覆构造,伦坡拉盆地北部发育薄皮推覆构造,伴有不同规模的褶皱变形。地壳深部不同深度发育多重逆冲推覆构造,羌塘地块南部自北向南逆冲推覆,拉萨地块北部自南向北逆冲推覆;两者对冲部位地壳厚度发生显著变化,地表形成古近纪沉积凹陷。根据深地震反射及构造解释,结合Airy均衡分析,表明不同深度逆冲推覆及对冲构造运动导致地壳缩短增厚,增厚地壳均衡隆升及密度差异对古近纪沉积凹陷及盆地演化具有重要控制作用。色林错凹陷及邻区古近纪沉积记录对青藏高原地壳增厚与隆升过程具有重要指示意义。 相似文献
6.
西藏阿里推覆构造与蛇绿岩构造侵位 总被引:1,自引:0,他引:1
通过野外观测和ETM遥感解译,结合1∶25区域地质调查相关资料,发现西藏阿里地区晚白垩世—古近纪发育自北向南长距离逆冲推覆构造运动,形成大型逆冲推覆构造系统,导致班公—怒江缝合带发生解体和蛇绿岩构造侵位。阿里逆冲推覆构造系统由大量逆冲断层、不同时代的构造岩片、不同规模的飞来峰和构造窗、不同方向的褶皱构造组成,前锋逆冲断层呈弧形分布于拉萨地块北部狮泉河—左左—革吉—麦岗沿线。沿主要逆冲断层,中生代蛇绿混杂岩、三叠纪和侏罗纪碎屑岩-碳酸盐岩、石炭纪板岩、二叠纪白云质灰岩自北向南逆冲推覆于早白垩世碎屑岩-碳酸盐岩、晚白垩世—古近纪红层之上,形成比较典型的薄皮双重推覆构造系统,估算最小推覆距离160~180 km。根据构造关系和同位素年龄资料,推断阿里薄皮推覆构造主要形成时代为75~20 Ma,对应自北向南逆冲推覆构造运动速率约2.91~3.28 mm/a。研究阿里逆冲推覆构造对深化认识班公—怒江缝合带及蛇绿混杂岩的构造属性、合理评价羌塘盆地西段油气资源潜力具有重要意义。 相似文献
7.
羌塘盆地是我国陆域大型中生代海相沉积盆地,富含烃源岩,但结构构造非常复杂。结合野外观测及相关资料对地震反射剖面进行地质构造详细解释,良好地揭示了羌塘盆地结构和深部构造。羌塘盆地逆冲推覆构造延伸存在显著差别,北羌塘凹陷多格错仁逆冲推覆构造、阿木错逆冲推覆构造与南羌塘凹陷肖茶卡—双湖逆冲推覆构造、多玛—其香错逆冲推覆构造仅发育于盆地表层0~3km深度范围,北羌塘凹陷龙尾错逆冲推覆构造、羌中隆起北缘逆冲推覆构造、南羌塘凹陷赛布错—扎加藏布逆冲推覆构造、拉萨地块北缘色林错逆冲推覆构造系统自地表向深部延伸深度超过6km,羌塘盆地深部还发育中生界底部逆冲系和基底逆冲系,伴有不同规模的褶皱构造。逆冲推覆构造形成活动时代包括晚白垩世、古近纪早期和古近纪晚期,晚白垩世与古近纪早期逆冲推覆构造运动导致构造隆升的裂变径迹年龄分别为87±5~75±4Ma、64±5~46±4Ma。经过多期逆冲推覆构造改造和褶皱变形,羌塘盆地中生界海相沉积地层与烃源岩显著增厚,为新生代晚期二次生烃及油气成藏提供了非常有利的地质构造条件;北羌塘凹陷发育万安湖向斜、半岛湖背斜、东湖向斜、阿木错向斜,南羌塘凹陷发育宁日圈闭、鲁雄错背斜、诺尔玛错圈闭、协德圈闭、崩则错圈闭,羌中隆起下伏侏罗系和三叠系烃源岩,色林错下白垩统下伏古近纪湖相沉积,这些构造部位都是油气勘探的重要靶区。 相似文献
8.
通过野外地质观测结合地震反射剖面综合构造解释,在青藏高原中部色林错—伦坡拉古近纪沉积凹陷及邻区厘定3条较大规模的逆冲推覆构造,由逆冲断层、逆冲岩席、飞来峰、构造窗及伴生褶皱组成。沿班公—怒江缝合带发育赛布错—扎加藏布逆冲推覆构造,伦坡拉盆地北部发育双重推覆构造,拉萨地块北缘发育色林错—吴如错逆冲推覆构造,估算推覆距离分别为38~50 km。羌塘地块南缘自北向南逆冲推覆,拉萨地块北缘自南向北逆冲推覆,两者对冲导致色林错古近纪盆地及沉积地层发生比较强烈的褶皱变形,形成宽约20 km大型向斜构造。色林错—伦坡拉逆冲推覆构造运动开始时间为晚白垩世晚期,古近纪不同时期均发育逆冲断层,前锋逆冲断层和底部拆离滑脱构造主要形成时期为古近纪晚期—中新世早期。古近纪逆冲推覆构造对伦坡拉和色林错河湖相沉积盆地、烃源岩形成演化、油气成藏及保存条件具有显著控制作用。 相似文献
9.
尼玛—荣玛地区位于羌塘盆地中段,发育大量的逆冲推覆构造体系。尼玛以北主要发育自北向南运动的逆冲推覆构造体系,导致中央隆起带和班公—怒江构造带的岩石地层组合、三叠系和侏罗系地层逆冲在红层之上,其中北羌塘盆地侏罗系地层越过中央隆起,在南羌塘盆地发育滑脱构造并形成薄皮逆冲推覆构造及大型逆冲岩席;尼玛以南主要发育自南向北运动的逆冲推覆构造体系,造成侏罗—白垩系、白垩系岩石组合逆冲在红层之上。逆冲推覆构造普遍控制了红层盆地的生长,并被中新世湖相沉积角度不整合覆盖。逆冲推覆构造活动时代为早白垩世晚期至古近纪,其中中央隆起和班公—怒江构造带最早经历了早白垩世晚期—晚白垩世的抬升,随后整个研究区经历了古近纪的构造抬升,分别与新特提斯洋板片的北向俯冲以及印度—拉萨地块陆陆碰撞存在动力学相关;中新世以来的东西向伸展构造则导致局部差异抬升。逆冲推覆构造破坏了早期油气成藏,但同时伴生的断褶系统也促进地层增厚和有机质成熟,为二次生烃提供了有利的构造圈闭条件,桑列勒以及尼玛一带背斜圈闭是有利的油气靶区。 相似文献
10.
沿隆鄂尼—昂达尔错古油藏发现大量逆冲推覆构造,如北雷错东西两侧、隆鄂尼西北侧、比洛错东南侧、鲁雄错东西两侧,侏罗系烃源岩及含油白云岩沿低角度缓倾斜断层自北向南逆冲推覆于上白垩统红层之上,昂达尔错西北侧中侏罗统含油碳酸盐岩和碎屑岩自北向南逆冲推覆于三叠系灰黑色碎屑岩之上,形成不同规模的逆冲岩席、逆冲岩片、飞来峰和构造窗。高分辨率二维地震反射剖面显示,隆鄂尼—昂达尔错古油藏深部发育多重逆冲推覆构造;比洛错中侏罗统含油白云岩沿顶部双重推覆构造自北向南运移7~11km和12~15km,分别形成隆鄂尼古油藏和德如日古油藏;下伏三叠系及石炭系—二叠系沿底部双重推覆构造自北向南发生大规模逆冲推覆,前锋被向北逆冲的反向断层切割错断。野外观测表明,隆鄂尼—昂达尔错古油藏与羌中隆起北侧油苗带之间发育大量侏罗系逆冲岩席和飞来峰;深地震反射剖面构造解释进一步揭示,三叠系和侏罗系海相烃源岩经历自北羌塘向南羌塘长距离逆冲推覆构造运动,自北向南逆冲推覆运动导致侏罗系烃源岩及中侏罗统含油白云岩构造隆升,形成昂达尔错、隆鄂尼、德如日等古油藏。隆鄂尼—昂达尔错古油藏逆冲推覆及构造隆升主要发生于晚白垩世—古近纪。 相似文献
11.
Pindos foreland basin in west Peloponnesus (Tritea, Hrisovitsi and Finikounda sub‐basins) during Late Eocene to Early Oligocene was an underfilled foreland basin. The basin's geometry was affected by the presence of internal thrusting and transfer faults, causing changes in depth and width. Due to internal thrusting, the foreland basin changed through time from a uniform to non‐uniform configuration, whereas transfer faults have an intensive impact on depositional environments within the basin. Internal thrusting (Gavrovo, internal and middle Ionian thrusts) activated synchronously with the major Pindos Thrust, creating intrabasinal highs that influenced palaeocurrent directions. The transfer faults cross‐cut the intrabasinal highs and produced low relief areas that act as pathways for sediment distribution. The sediments are thicker and sandstone‐rich on the downthrown sides of the transfer faults. In these areas, sandstone reservoirs could be produced. Such tectonically active areas constitute promise for oil and gas reservoirs and traps. 相似文献
12.
A.W.B. Siddans 《Journal of Structural Geology》1979,1(2):117-126
The arcuate pattern of folds and thrusts is examined in the Subalpine Chains of Southeast France. Five segments are recognised; (1) a NNE-SSW trending zone between Grenoble and Die, (2) an E-W zone between Die and Sisteron, and (3); (4), & (5) the Arcs de Digne, Castellane, Nice, trending NNW-SSE, E-W, and N-S, respectively. Folds of three ages are known: pre-Senonian (recognised in Dévoluy), Paleocene to early Eocene and late Oligocene to late Miocene. The last phase was accompanied by low-grade metamorphism and cleavage development. Thrusts were formed during the last two phases.Examination of the age of folding and thrusting, directions of tectonic transport and the continuity of structures reveals that segments (1), (2) & (3) are not continuous. Segment (2) has a northward sense of tectonic transport and is thought to be of pre-Senonian and Paleocene age. It is crossed in Dévoluy by the late Oligocene structures which are continuous from segment (3) into segment (1). Segments (3), (4) & (5) are continuous. Their curvature is thought to be primary and to have resulted from gravity gliding.A section through the Digne Thrust Sheet is examined in terms of models of thrusting proposed by Elliott and by Chapple. It is found that the compressional component in Chapple's model was completely dominant in overcoming the resistance to sliding during the Miocene phase, the glacier spreading component having a negligible effect. Other thrusts, in particular those of the Arc de Castellane, do not appear to fit the model. It is thought that gravity gliding may have been the mechanism of thrusting in these areas. 相似文献
13.
Thrust sheets accumulate internal strain before they start moving along discrete fault planes. However, there are no previous studies evaluating the time difference between initiation of strain and fault displacement. In this paper we use observations from the Eastern Cordillera of Colombia to evaluate this interval. We utilize multiple thermochronometers and paleothermometers to refine the timing of deformation. Based on these new data we build time-temperature path estimates that together with geometric outcrop-based structural analysis and fluid inclusions allow us to assign relative timing to features associated with strain, such as cleavage, veins and certain types of fractures, and compare that with the timing of thrusting. We find that cleavage was only formed close to maximum paleotemperatures, almost coeval with the onset of thrust-induced denudation by the Late Oligocene. The corresponding structural level of fold-related veins suggest that they were formed later but still when the country rocks were at temperatures higher than 160 °C, mostly during the Early Miocene and still coexisted with the latest stages of cleavage formation. Our data show that the main period of strain hardening was short (probably a few million years) and occurred before first-order basement thrusting was dominant, but was associated with second-order folding. 相似文献
14.
喜马拉雅造山带北缘的大反转逆冲断层(GCT)位于印度-亚洲的碰撞边界,平行雅鲁藏布江缝合带展布,向北逆冲使特提斯喜马拉雅地体向北叠覆在冈底斯地体之上。大反转逆冲断裂制约了中新世Kailas式系列磨拉石盆地(Kailas、秋乌、大竹曲、罗布莎以及朗县)的发育,自西向东磨拉石盆地中砾石变形逐渐增强。本文通过GCT东段"罗布莎-郎县砾岩"的研究,获得罗布莎-朗县变形砾岩中的碎屑锆石的沉积上限年龄为早渐新世(28.7~29.1Ma)。罗布莎-郎县砾岩具有基质糜棱岩化、发育地震化石假熔岩和向北剪切指向的特征,表明其经历了受GCT断裂控制的砾岩盆地在浅部形成、插入10~15km深部并受地震影响形成假熔岩,然后折返到地表的过程。 相似文献
15.
Chris J.L. Wilson Brenton A. Worley Shefa Chen Mathew J. Harrowfield Liu Shugen Luo Zhili WT ”BX 《地学前缘》2000,(Z1)
DEFORMATIONAL AND METAMORPHIC HISTORY OF THE CENTRAL LONGMEN MOUNTAINS, SICHUAN CHINA1 ArneDC ,WorleyBA ,WilsonCJL ,etal.Differentialexhumationinresponsetoepisodicthrustingalongtheeasternmar ginoftheTibetanPlateau[J] .Tectonophysics,1997,2 80 :2 39~ 2 56 .
2 ChenSF ,WilsonCJL ,WorleyBA .TectonictransitionfromtheSongpan GarzeFoldBelttotheSichuanBasin,south westernChina[J] .BasinResearch ,1995,7:2 35~ 2 53.
3 ChenSF ,WilsonCJL .Emplaceme… 相似文献
16.
Dr. A. K. Jain 《International Journal of Earth Sciences》1975,64(1):230-248
In the Lesser Himalayan region of Garhwal, an elongate, NW-SE trending zone of mylonitic rocks is developed along the Singuni Thrust within the metasedimentary formation of the Deoban-Tejam Belt. Detailed petrography of various mylonitic rocks indicates that a quartz and felspar porphyry was emplaced along the Singuni Thrust. This was initially metamorphosed in the almandine-amphibolite facies before profound ruptural or cataclastic and crystalloblastic deformation evolved mylonitic rocks in the green schist facies. Southwesterly dipping foliation and an equally prominent mica lineation plunging in the same direction are developed in these mylonitic rocks. The quartzite is also intensely cataclastically deformed in the green schist facies and is highly schistose with a prominent mica lineation normal to the trace of Singuni Thrust, Uttarkashi Thrust and Main Central Thrust in the ‘a’ direction of tectonic transport. In quartzite and mylonitic rocks, a probable contemporaneous development of the metamorphic and structural elements has been postulated along the Singuni Thrust during large scale tectonic movements. Normally exposed Gamri Quartzite is more metamorphosed near its base along the Singuni Thrust and Uttarkashi Thrust while the intensity of deformation increases near the top of normally exposed quartzite along the Main Central Thrust and, thus, signifying the role of thrusting in cataclastically deforming the rocks and contributing to the phenomenon of widespread reversal of metamorphism in the Lesser Himalaya. 相似文献
17.
《Journal of Asian Earth Sciences》1999,17(5-6):713-725
This paper summarizes the studies of the metamorphic evolution of Central Nepal carried out by Nepali and international teams in the last 25 years. In Central Nepal, three metamorphic units are recognized. (1) The southernmost zone is the Lesser Himalaya, which is characterised by an inverted mineral zoning towards the Main Central Thrust (MCT) zone; (2) the Kathmandu nappe corresponds to an early (<22 Ma) out-of-sequence thrusting zone over the Lesser Himalaya along the Mahabharat thrust (MT) and is characterised by a Barrovian metamorphic evolution; (3) the Higher Himalayan Crystalline unit (HHC) is bounded at its base by the MCT and at its top by the South Tibetan Detachment system (STDS). It is characterised by successive tectonometamorphic episodes during the period spanning from 35–36 Ma to 2–3 Ma. Recent investigations suggest that the apparent metamorphic inversion througout the MCT zone does not reflect geothermal inversion. Instead, these investigations suggest successive cooling of the HHC along the MCT and the local preservation, above the MCT, of high-grade metamorphic rocks. The overall metamorphic history in Central Nepal from Oligocene to Pliocene, reflects the thermal reequilibration of rocks after thickening by conductive and advective heating and partial melting of the middle crust. 相似文献
18.
Abstract: The Qilian Shan lies along the northeastern edge of the Tibetan Plateau. To constrain its deformation history, we conducted integrated research on Mesozoic–Cenozoic stratigraphic sections in the Jiuxi Basin immediately north of the mountain range. Paleocurrent measurements, sandstone compositional data, and facies analysis of Cenozoic stratigraphic sections suggest that the Jiuxi Basin received sediments from the Altyn Tagh Range in the northwest, initially in the Oligocene (~33 Ma), depositing the Huoshaogou Formation in the northern part of the basin. Later, the source area of the Jiuxi Basin changed to the Qilian Shan in the south during Late Oligocene (~27 Ma), which led to the deposition of the Baiyanghe Formation. We suggest that uplift of the northern Qilian Shan induced by thrusting began no later than the Late Oligocene. Fission-track analysis of apatite from the Qilian Shan yields further information about the deformation history of the northern Qilain Shan and the Jiuxi Basin. It shows that a period of rapid cooling, interpreted as exhumation, initiated in the Oligocene. We suggest that this exhumation marked the initial uplift of the Qilian Shan resulting from the India–Asia collision. 相似文献