共查询到19条相似文献,搜索用时 125 毫秒
1.
Changes of Late Mesozoic Tectonic Regimes around the Ordos Basin (North China) and their Geodynamic Implications 总被引:4,自引:0,他引:4
A synthesis is given in this paper on late Mesozoic deformation pattern in the zones around the Ordos Basin based on lithostratigraphic and structural analyses. A relative chronology of the late Mesozoic tectonic stress evolution was established from the field analyses of fault kinematics and constrained by stratigraphic contact relationships. The results show alternation of tectonic compressional and extensional regimes. The Ordos Basin and its surroundings were in weak N-S to NNE-SSW extension during the Early to Middle Jurassic, which reactivated E-W-trending basement fractures. The tectonic regime changed to a multi-directional compressional one during the Late Jurassic, which resulted in crustal shortening deformation along the marginal zones of the Ordos Basin. Then it changed to an extensional one during the Early Cretaceous, which rifted the western, northwestern and southeastern margins of the Ordos Basin. A NW-SE compression occurred during the Late Cretaceous and caused the termination of sedimentation and uplift of the Ordos Basin. This phased evolution of the late Mesozoic tectonic stress regimes and associated deformation pattern around the Ordos Basin best records the changes in regional geodynamic settings in East Asia, from the Early to Middle Jurassic post-orogenic extension following the Triassic collision between the North and South China Blocks, to the Late Jurassic multi-directional compressions produced by synchronous convergence of the three plates (the Siberian Plate to the north, Paleo-Pacific Plate to the east and Lhasa Block to the west) towards the East Asian continent. Early Cretaceous extension might be the response to collapse and lithospheric thinning of the North China Craton. 相似文献
2.
WU Genyao Institute of Geology Geophysics Chinese Academy of Sciences Beijing E-mail: dzkx@mail.igcas.ac.cn 《《地质学报》英文版》2005,79(4):507-518
The Tan-Lu Fault was once a transform fault in the Paleotethys, west of which was the Qinling-Dabie Ocean separating the Yangtze Craton from the North China Craton, and east of which was the Su-Lu Ocean separating the Su-Wan Block from the Jiao-Liao Craton. The Qinling-Dabie Ocean closed in the Indosinian orogeny, which created the China-Southeast Asia Subcontinent, with the Tan-Lu Fault becoming a marginal shear zone along the newly-formed amalgamated subcontinent. The Su-Lu Ocean subducted partly in the Indosinian.orogeny, but not closed. In the Jurassic and Early Cretaceous, the Su-Wan Block drifted northwards with subduction of the Su-Lu Ocean and moved westwards to converge the subcontinent by sinistral sheafing of the ENE-striking fractures. The Su-Lu Ocean finally closed and the Su-Wan Block collided with the Jiao-Liao Craton in the Early Cretaceous, which constituted a part of the magnificent interplate Yanshanides. The interplate orogeny rejuvenated the fossil sutures and deep fractures, as well as the Indosinian orogen, and the intraplate (intracontinental) Yanshanian orogeny occurred in the subcontinent. The East Asia Yanshanides, consisting of the interplate orogens in the outer side and the intraplate orogens in the inner side, collapsed quickly in the latest Early Cretaceous and Late Cretaceous. The eastern China area entered a tensile period from the Eogene, and the tectonic differentiation between the central and eastern China areas since the Jurassic was further strengthened. 相似文献
3.
CHEN Xuanhu DONG Shuwen SHI Wei DING Weicui ZHANG Yiping LI Bing SHAO Zhaogang WANG Ye 《《地质学报》英文版》2022,96(1):26-51
This is a review of the formation and tectonic evolution of the continental Asia in Phanerozoic.The continental Asia has formed on the bases of some pre-Cambrian cratons,such as the Siberia,India,Arabia,North China,Tarim,South China,and Indochina,through multi-stage plate convergence and collisional collages in Phanerozoic.The north-central Asia had experienced the expansion and subduction of the Paleo-Asian Ocean(PAO)in the early Paleozoic and the closure of the PAO in the late Paleozoic and early Mesozoic,forming the PAO regime and Central Asian orogenic belt(CAOB).In the core of the CAOB,the Mongol-Okhotsk Ocean(MOO)opened with limited expansion in the Early Permian and finally closed in the Late Jurassic–Early Cretaceous.The south-central Asia had experienced mainly multi-stage oceanic opening,subduction and collision evolution in the Tethys Ocean,forming the Tethys regime and Himalaya-Tibetan orogenic belt.In eastern Asia,the plate subduction and continental margin orogeny on western margin of the Pacific Ocean,forms the West Pacific regime and West Pacific orogenic belt.The PAO,Tethys,and West Pacific regimes,together with Precambrian cratons among or surrounding them,made up the major tectonic and dynamic systems of the continental Asia in Phanerozoic.Major tectonic events,such as the Early Paleozoic Qilian,Uralian,and Dunhuang orogeneses,the late Paleozoic East Junggar,Tianshan and West Junggar orogeneses,the Middle to Late Permian Ailaoshan orogeny and NorthSouth Lhasa collision,the early Mesozoic Indochina-South China and North-South China collisions,the late Mesozoic Mongolia-Okhotsk orogeny,Lhasa-Qiangtang collision,and intra-continental Yanshanian orogeny,and the Cenozoic IndoAsian,Arab-Asian,and West Pacific margin collisions,constrained the formation and evolution of the continental Asia.The complex dynamic systems have left large number of deformation features,such as large-scale strike-slip faults,thrustfold systems and extensional detachments on the continental Asia.Based on past tectonics,a future supercontinent,the Ameurasia,is prospected for the development of the Asia in ca.250 Myr. 相似文献
4.
LI Qiugen LIU Shuwen WANG Zongqi WANG Dongsheng YAN Zhen YANG Kai WU Fenghui 《《地质学报》英文版》2011,85(3):661-672
The Zhashui-Shanyang district is one of the most important sulfide deposits in the Qinling Orogen where the formation of porphyry-skarn Cu-Mo deposits has a close genetic link with the Yanshannian magmatism. Laser Ablation-Inductively Coupled Plasma Mass Spectrometry (LA-ICP-MS) U-Pb zircon dating of two granodiorite intrusions (Xiaohekou and Lengshuigou deposits) was investigated in the Zhashui-Shanyang district and the rock-forming ages obtained from 148.3±2.8?to 152.6±1.2?Ma, averaging 150.5 Ma, accompanied by a younger disturbance age of 144.3±1.7?Ma in the Lengshuigou intrusion, which is in excellent agreement with published sensitive high resolution ion micro-probe (SHRIMP) zircon date on the later monzodiorite porphyry phase in the Lenshuigou deposit. Two samples were selected for molybdenite ICP-MS Re-Os isotopic analyses from the Lengshuigou granodiorite porphyry, yielding Re-Os model ages from 149.2±2.7 Ma to 150.6±3.4 Ma, with a weighted mean age of 149.7±2.1 Ma. These mineralization ages overlap rock-forming ages of the host intrusions within the error range. This implies that the mineralization occurred in the Late Jurassic, which belongs to the tectonic phase B event of the Yanshan Movement, not Cretaceous as previously thought. Therefore, the Late Jurassic mineralization of the Zhashui-Shanyang district could be connected to the large-scale Yanshan molybdenum metallogenic period, the geodynamic regime of which is attributable to the far field response of convergence of surrounding plates, perhaps the approximately westward subduction of the Izanagi plate beneath the Eurasian continent. 相似文献
5.
The contractional structures in the southern Ordos Basin recorded critical evidence for the interaction between Ordos Basin and Qinling Orogenic Collage. In this study, we performed apatite fission track(AFT) thermochronology to unravel the timing of thrusting and exhumation for the Laolongshan-Shengrenqiao Fault(LSF) in the southern Ordos Basin. The AFT ages from opposite sides of the LSF reveal a significant latest Triassic to Early Jurassic time-temperature discontinuity across this structure. Thermal modeling reveals at the latest Triassic to Early Jurassic, a ~50°C difference in temperature between opposite sides of the LSF currently exposed at the surface. This discontinuity is best interpreted by an episode of thrusting and exhumation of the LSF with ~1.7 km of net vertical displacement during the latest Triassic to Early Jurassic. These results, when combined with earlier thermochronological studies, stratigraphic contact relationship and tectono-sedimentary evolution, suggest that the southern Ordos Basin experienced coeval intense tectonic contraction and developed a north-vergent fold-and-thrust belt. Moreover, the southern Ordos Basin experienced a multi-stage differential exhumation during Mesozoic, including the latest Triassic to Early Jurassic and Late Jurassic to earliest Cretaceous thrust-driven exhumation as well as the Late Cretaceous overall exhumation. Specifically, the two thrust-driven exhumation events were related to tectonic stress propagation derived from the latest Triassic to Early Jurassic continued compression from Qinling Orogenic Collage and the Late Jurassic to earliest Cretaceous intracontinental orogeny of Qinling Orogenic Collage, respectively. By contrast, the Late Cretaceous overall exhumation event was related to the collision of an exotic terrain with the eastern margin of continental China at ~100 Ma. 相似文献
6.
This paper summarizes the Late Palaeozoic. Indosinian and Yanshanian palaeotectonic settings in theperi-Pacific region of East Asia. On that basis, the Himalayan crustal movement in the region is divided intothe early and late tectonic stages and two principal tectonic phases. From the ocean to the continent, 5 giganticHimalayan formation-deformation belts are distinguished; they are the Northwest Pacific trench-island arcbelt. the Northwest Pacific marginal sea basin bell. the East China Sea-northern South China Seacontinental-shelf down-faulted belt. the East Asian epicontinental rift belt. and the East Asian intracontinentalrift belt. The Early and Late Himalayan tectonic evolution is dealt with. Finally the state of the Himalayan re-gional stress field and its evoution in the region are discussed. It is considered that the mechanism of their for-mation is closely related to the continent-ocean and surface-deep earth interaction. 相似文献
7.
Ren Jishun 《《地质学报》英文版》1987,61(1):23-36
After the Variscan Cycle, the global tectonic framework underwent three major adjustments. The first occurred in the Late Triassic-initial Jurassic, the second in the Late Jurassic-early Early Cretaceous and the third in the Late Cretaceous-Eogene. On that basis, the post-Variscan tectonic history is divided into three tectonic cycles——the Indosinian, Yanshanian and Himalayan Cycles. The post-Neocom(k_1~1) andpre-Aptian(k_1~2) tectonic movement marks the end of the Yanshanian orogeny in eastern China and the initiation of the subduction of the Tethyan ocean in western China and represents the boundary between the Yanshanian and Himalayan Tectonic Cycles. 相似文献
8.
Many equiaxial dome-like structures developed in the north segment of the Xuefengshan orocline, Central China are obviously inconcordant with the NE-trending linear structures in this area, which contain important records for understanding the structural framework and evolution of this belt. In this paper, taking one of the typical dome-like structures in the Xuefengshan orcline (e.g. Moping dome-like structure) as an example, based on its structural framework interpratatoin, superposed deformation analysis and paleo-stress fields reconstruction, we propose the Moping dome-like structure is composed of two populations of different-striking thrust-fold structures, ~E-trending and NE-striking structures, indicative of two-stages shortening, ~N- and NW-striking, respectively. Together with the geochronological analysis, we suggest the first stage of shortening occurred in Late Triassic to Early Jurassic, due to the Indosinian intercollisional orogeny of the Yangtze Block and the North China Block. The second occurred during Late Jurassic Early Cretaceous owing to Yanshanian intracontinental orogeny, leading to the intensive superposition of the NE-trending structures onto the ~E-trending structures, and the final ocurrence of the Moping dome. Thus, our study indicates the Xuefengshan arc-shape belt also experienced two-phase deformation, and resulted from the superposition of NE SW structures onto ~E-W structures in Late Jurassic Early Cretaceous, which could provide new structural evidence for probing the Mesozoic tectonic framework and evolution of the Xuefengshan orocline. 相似文献
9.
SHU Liangshu ZHOU Xinmin DENG Ping ZHU Wenbin 《《地质学报》英文版》2007,81(4):573-586
The Late Triassic to Paleogene(T_3-E) basin occupies an area of 143100 km~2,being the sixth area of the whole of SE China;the total area of synchronous granitoid is about 127300 km~2;it provides a key for understanding the tectonic evolution of South China.From a new 1:1500000 geological map of the Mesozoic-Cenozoic basins of SE China,combined with analysis of geometrical and petrological features,some new insights of basin tectonics are obtained.Advances include petrotectonic assemblages, basin classification of geodynamics,geometric features,relations of basin and range.According to basin-forming geodynamicai mechanisms,the Mesozoic-Cenozoic basin of SE China can be divided into three types,namely:1) para-foreland basin formed from Late Triassic to Early Jurassic(T_3-J_1) under compressional conditions;2) rift basins formed during the Middle Jurassic(J_2) under a strongly extensional setting;and 3) a faulted depression formed during Early Cretaceous to Paleogene (K_1-E) under back-arc extension action.From the rock assemblages of the basin,the faulted depression can be subdivided into a volcanic-sedimentary type formed mainly during the Early Cretaceous(K_1) and a red -bed type formed from Late Cretaceous to Paleogene(K_2-E).Statistical data suggest that the area of all para-foreland basins(T_3-J_1) is 15120 km~2,one of rift basins(J_2) occupies 4640 km~2,and all faulted depressions equal to 124330 km~2 including the K_2-E red-bed basins of 37850 km~2.The Early Mesozoic (T_3-J_1) basin and granite were mostly co-generated under a post-collision compression background, while the basins from Middle Jurassic to Paleogene(J_2-E) were mainly constrained by regional extensional tectonics.Three geological and geographical zones were surveyed,namely:1)the Wuyishan separating zone of paleogeography and climate from Middle Jurassic to Tertiary;2)the Middle Jurassic rift zone;and 3)the Ganjiang separating zone of Late Mesozoic volcanism.Three types of basin-granite relationships have been identified,including compressional(a few),strike-slip(a few), and extensional(common).A three-stage geodynamical evolution of the SE-China basin is mooted:an Early Mesozoic basin-granite framework;a transitional Middle Jurassic tectonic regime; intracontinental extension and red-bed faulted depressions since the Late Cretaceous. 相似文献
10.
The authors have proposed a dynamic model in this paper based on the ages,rock series and associations,Sr-Nd isotopic signatures of the Mesozoic intracontinental magmatism overlying the Cathaysian and Yangtze blocks.The model describes the relation of intracontinental collision and subduction in the Tethyan tectonic regie with Paleo-Pacific oceanic plate sudbuction-strike slip-extension in the Pacific tectonic regime.During 220-150Ma,the horizontal collision between the North China block and the Yangtze block,as well as the intracontinental subduction of some divergent microcontinental terranes in the southwestern part of South China are ascribed to the influence of the Tethyan tectonic regime,giving rise to a volume of high-Isr and low-εNd(t) S-type granites only in the Cathaysian Block.During 145-90Ma,under the geodynamic backgound of subduction-strike slip-extension of the Paleo-Pacific oceanic plate on the basis of the deep tectonic process in the Tethyan tectonic regime,high-K,alkalirich calc-alkaline and shoshonitic volcano-plutonic complexes were generated in the Yangtze block,and high-K calc-alkalic and bimodal volcano-plutonic complexes were generated in the Cathaysian block.The occurrence of A-type peralkaline granites in the coastal areas of South east China indicates the end of Mesozoic intracontinental magmatism. 相似文献
11.
板块构造研究成果与同位素精确定年数据的积累,使我们对发生在中国东部的晚侏罗世-早白垩世东亚多向汇聚作用有了深刻的认识.全球三大洋在晚侏罗世(165±5)Ma近乎同时的开启,以及东亚周边占太平洋、新特提斯洋和蒙古-鄂霍茨克洋的俯冲消亡,在中国中东部和东亚地区形成了多向挤压汇聚的燕山期构造体系,即东业多向汇聚构造体系(简称东亚汇聚).东亚汇聚启动了经典的燕山运动,发育了独特的构造变形特征.东亚汇聚构造体系具有两个近乎稳定的刚性陆核,即鄂尔多斯地块和四川(盆地)地块,在它们的周缘形成了晚侏罗世-早白垩世陆内多向挤压变形和似前陆盆地,如大巴山晚侏罗世前陆.此外,东亚多向汇聚构造体系影响了东亚和中亚大部分地区的板内变形作用,在中国大陆及其周边形成了反映南北向挤压的蒙古弧共轭走滑断裂系统、燕山-阴山陆内造山带、大别山-大巴山侏罗纪陆内造山带等典型的燕山期构造带.东亚汇聚具有深刻的全球构造背景与动力来源,是重要的科学研究问题. 相似文献
12.
一百年前中国地质学会成立,先驱者们竖立起中国地质科学的旗帜,也是中国科学的第一面旗帜,从此中国地质科学发展进入快车道。燕山运动、中国北方〖XCD.TIF;%70%70,JZ〗科研究,长身贝研究、北京猿人头盖骨的发现是中国地质科学快速进入国际赛道的标志。经历了近百年的研究,北京西山及北京北山、冀北和辽西典型地区积累的证据和资料表明,翁文灏提出的燕山运动A期(幕)发生在160±3 Ma前;晚侏罗世早—中期记录了以髫髻山组和蓝旗组为代表的区域强烈火山喷发和广泛的岩浆侵入(中间期/幕);晚侏罗世晚期区域发育逆冲推覆构造;燕山期构造发展至早白垩世早期135 Ma,冀北张家口组和辽西义县组之下的不整合为燕山运动B期结束的代表。燕山运动是东亚大陆构造体制从古特提斯及古亚洲洋构造域转变为环太平洋活动大陆边缘构造域的产物。这是中国东部和东亚区域中生代独特的重大的地质构造事件。 相似文献
13.
晚中生代东亚多板块汇聚与大陆构造体系的发展 总被引:4,自引:4,他引:0
东亚大陆原型形成于三叠纪印支造山运动旋回,其周邻环绕的三大洋(古太平洋、蒙古-鄂霍茨克洋、中特提斯洋)于早侏罗世初期几乎同时向东亚大陆俯冲,开启了东亚多板块汇聚历史。文章通过总结东亚大陆晚中生代构造变形和构造岩浆事件的新近研究成果,简述了东亚多板块汇聚产生的三个陆缘汇聚构造系统(北部蒙古-鄂霍次克碰撞造山带、东部与俯冲有关的增生造山系统、西南部班公湖-怒江缝合构造带)、陆内汇聚构造变形体系和大陆伸展构造体系。在此基础上,重新构建了东亚多板块汇聚大陆构造-岩浆演化的时间框架,将其划分为三个阶段:早侏罗世(200~170 Ma)周邻大洋板块初始俯冲阶段和陆缘裂解事件,中晚侏罗世-早白垩世早期(170~135 Ma)周邻陆缘碰撞造山或俯冲增生造山作用、陆内再生造山作用和汇聚构造体系的形成;中晚白垩世(135~80 Ma)大陆岩石圈的减薄作用和大陆伸展构造体系的发育。研究认为,晚中生代东亚多板块汇聚在时空上的有序演化和深浅构造的复合叠加,不仅产生了东亚大陆复杂的陆缘和陆内构造体系,同时控制了中国东部燕山期爆发式岩浆-成矿作用,也使东亚构造地貌发生东西翘变,早期陆缘汇聚产生的东部高原因晚期大陆岩石圈的减薄和伸展而垮塌。东亚大陆构造体系的形成和演化与联合古大陆的裂解同步,晚中生代东亚多板块汇聚完成了从东亚到欧亚大陆的演替,以东亚大陆为核心的多板块汇聚格局一直延续至新生代,可能成为未来超大陆形成的起点。 相似文献
14.
燕山运动可分为2类:一是印支期拼合大陆外侧的新特提斯洋消减及嗣后的碰撞引起的内硅镁质的造山运动,形成滇藏、东南沿海、苏鲁和蒙古-鄂霍次克造山带;二是拼合大陆内部因古缝合线或古深断裂活化发生的内硅铝质的(陆内的)造山运动,前者如川黔湘-鄂南、湘赣闽和阴山-燕山褶皱-冲断系,后者如川南-滇东和中扬子褶皱-冲断系及江南冲断-推覆带.文章剖析了中国大陆晚中生代活化的时空特征,指出陆内造山带及冲断带的发育受制于东亚燕山期山系的形成,简述了研究构造-岩浆活化对内生矿产和油气资源评价的指导意义. 相似文献
15.
Jurassic Tectonics of North China: A Synthetic View 总被引:21,自引:1,他引:20
This paper gives a synthetic view on the Jurassic tectonics of North China, with an attempt to propose a framework for the stepwise tectonic evolution history. Jurassic sedimentation, deformation and magmatism in North China have been divided into three stages. The earliest Jurassic is marked by a period of magmatism quiescence (in 205-190 Ma) and regional uplift, which are considered to be the continuation of the “Indosinian movement” characterized by continent-continent collision between the North and South China blocks. The Early to Middle Jurassic (in 190-170 Ma) was predominated by weak lithospheric extension expressed by mantle-derived plutonism and volcanism along the Yanshan belt and alongside the Tan-Lu fault zone, normal faulting and graben formation along the Yinshan- Yanshan tectonic belt, depression and resuming of coal-bearing sedimentation in vast regions of the North China block (NCB). The Middle to Late Jurassic stage started at 165y.5 Ma and ended up before 136 Ma; it was dominated by intensive intraplate deformation resulting from multi-directional compressions. Two major deformation events have been identified. One is marked by stratigraphic unconformity beneath the thick Upper Jurassic molasic series in the foreland zones of the western Ordos thrust-fold belt and along the Yinshan-Yanshan belt; it was predated 160 Ma. The other one is indicated by stratigraphic unconformity at the base of the Lower Cretaceous and predated 135 Ma. During this last stage, two latitudinal tectonic belts, the Yinshan-Yanshan belt in the north and the Qinling-Dabie belt in the south, and the western margin of the Ordos basin were all activated by thrusting; the NCB itself was deformed by the NE to NNE-trending structural system involving thrusting, associated folding and sinistral strike-slip faulting, which were spatially partitioned. Foliated S-type granitic plutons aged 160-150 Ma were massively emplaced in the Jiao-Liao massif east of the Tan-Lu fault zone and indicate important crustal thicken 相似文献
16.
胶东半岛中生代侵入岩浆活动序列及其构造制约 总被引:25,自引:0,他引:25
胶东半岛是我国东部中生代花岗质岩石较为发育的地区。通过对该区中生代侵入岩体高精度年代学数据资料分析,建立了区内中生代花岗质岩石3个显著不同的演化序列:晚三叠世(225~205 Ma)幔源型花岗岩、晚侏罗世(160~150 Ma)地壳重熔型花岗岩和早白垩世(130~105 Ma)壳幔混合型花岗岩。通过与辽东和鲁西–徐淮地区中生代岩浆活动年代学格架的对比分析,探讨了华北东部地区中生代岩石圈构造演化和深部地球动力学过程。指出胶辽地区晚侏罗世(160~150 Ma)地壳重熔型花岗岩记录了华北东部一次重要的岩石圈地壳增厚事件,其区域动力学背景可能与古太平洋板块低角度向亚洲大陆俯冲作用密切相关。正是这次增厚作用导致了早白垩世时期岩石圈拆沉减薄和大规模伸展型花岗质岩浆活动。岩石圈地壳增厚和减薄作用过程主导了中国东部中生代陆内构造应力体制的转换和岩浆活动序列。 相似文献
17.
20世纪60年代提出的"威尔逊旋回"以关闭洋盆两侧板块的碰撞作为板块运动旋回的终结,然而板块构造学说"登陆"20多年来的实践说明这种认识是不全面的。大陆弥散而宽广的陆内变形说明洋盆闭合两侧板块的碰撞并未终止板内构造作用。古亚洲大陆形成后中国东部中—新生代广泛发育的板内构造变形、岩浆活动、克拉通内盆地的形成都和古亚洲大陆南、北,印度洋和北冰洋洋脊的持续扩张、西太平洋和菲律宾洋壳的俯冲相关。本文拟厘清中国东部中—新生代大陆构造形成与演化的重大事件、构造性质、形成背景及其时空展布:(1)晚海西—印支期古特提斯洋关闭陆块拼合碰撞古亚洲大陆雏形形成;(2)晚侏罗—早白垩世蒙古—鄂霍茨克海闭合,陆-陆碰撞古亚洲大陆形成,挤压逆冲推覆构造在陆内变形中形成高潮,西太平洋伊佐奈岐洋壳板块的斜俯冲叠加了自东而西的影响;(3)早白垩世晚期—古近纪加厚地壳-岩石圈减薄、转型,陆内伸展变形达到高潮,大陆克拉通泛盆地、准平原化;(4)始新世晚期—早中新世(40~23 Ma)太平洋板块运动转向对东亚大陆NWW向的挤压和印度洋脊扩张印—澳板块对古亚洲南部陆-陆碰撞挤压的叠加,形成中国东部新生的构造地貌;(5)中-上新世—早更新世受东亚—西太平洋巨型裂谷系和印度洋中脊扩张的叠加影响,中国东部岩石圈地幔隆升、地壳减薄,陆缘、陆内伸展变形相继形成边缘海、岛弧、裂谷型盆地和剥蚀高原地貌;(6)早更新世晚期(0.9~0.8 Ma)—晚更新世末(0.01 Ma)中国东部大陆构造地貌基本形成。 相似文献
18.
The Late Mesozoic is an important tectonic period for subduction of Paleo-Pacific slab beneath East Asia continent. It intensely led to Jurassic to Cretaceous magmatism associated with intracontinental deformation in South China. Subduction-related accretionary complexes remained regionally from SW Japan, E Taiwan to the W Philippines and Borneo. Studies on geology in South China, especially in magmatism, have been performed with good data, results, and sufficient understandings; whereas those arc-related intermediate igneous rocks have been less found. The areas from East to South China Seas which are located at the junction between sea and land will be the preferred areas for the study of the Late Mesozoic magmatic arc and the forearc basin. The relevant arc-related magmatic rocks and forearc sedimentary records have been increasingly discovered. Studies of magmatic arc and forearc basin combined with subdction complex will be essential to the reconstruction of the convergent continental margin in South China. Analyses of magmatic arc identification from South to East China Seas, arc to forearc relationship, and assembly between arc and regional faults will become necessary to improve the knowledge of the model of East Asia convergent continental margin, and as well help to develop the understanding of Late Mesozoic forearc basin and resource potentials in the southeast sea areas. 相似文献
19.
华北克拉通东部南北缘中生代火山沉积格局及其构造转折过程 总被引:3,自引:0,他引:3
通过华北克拉通东部北缘和南缘盆地充填序列和盆地分布演化对比研究,解析了该区中生代构造转折过程。研究发现两侧盆地均大致从早侏罗世开始发育,约以晚侏罗世为界,之前盆地充填记录反映以挤压作用、岩石圈增厚为主,之后以陆内伸展、岩石圈减薄为主,显示晚侏罗世明显的构造转折,并且地壳浅部的构造体制转变均滞后于岩石圈深部构造环境的变化。然而,两侧盆地演化也有明显差别:①北缘燕辽地区从早侏罗世到白垩纪,发育了多层系的从基性、中基性到中酸性的火山岩及火山碎屑岩组合,而南缘合肥盆地仅在晚侏罗世早白垩世产出钙碱性火山岩及火山碎屑岩组合,反映出不同的深部构造过程和源区特征;②北缘的岩石圈减薄可能始于约163 Ma,南缘明显的岩石圈减薄则始于约149 Ma,而反映在盆地构造与充填尺度上的伸展作用分别对应于大约145 Ma和132 Ma;③晚侏罗世构造转折期,北缘燕辽地区粗碎屑沉积以河流体系为主,反映盆山地势高差较小;而南缘该期发育冲积扇体系,盆山地势高差较大;④北缘盆地沉积中心迁移规律复杂,而南缘总体呈现由南向北的迁移趋势。显然,大别山碰撞造山和后造山期强烈的隆升和剥露对南缘盆地演化具有极大的主导和制约作用,而北缘则显示出强烈的壳幔相互作用并伴有区域性的陆内挤压推覆(转折前)和张裂 伸展(转折后)交替的特点。华北克拉通晚中生代构造转折的时限北缘较南缘早,说明诱发这一转折事件的区域构造动力可能首先与华北北部壳幔相互作用密切关联。 相似文献