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1.
地表调查和初步的沉积物年代测试结果表明,晚第四纪期间,在安多-错那地堑中主要发育了分别形成于44.2kaB.P.和9~7kaB.P.左右的两套湖泊沉积物和约42kaB.P.以来的5套冲、洪积物。在安多-错那地堑的边界主要发育了包括安多南缘断裂、北缘断裂、错那湖东缘断裂和西缘断裂共4条第四纪正断层。其中活动强度最大的为安多北缘断裂,其第四纪最小垂直活动速率为0.24±0.02mm/a;其次为安多南缘断裂和错那湖东、西两侧边界断裂,它们的最小垂直速率分别为0.19mm/a,0.12~0.16mm/a和0.10~0.12mm/a。晚第四纪以来的断裂活动主要集中在平均垂直活动速率为0.41±0.22mm/a的安多北缘断裂带的西段。安多及邻区现今的地表构造格局及断裂带的几何学和运动学特征符合近南北向地壳缩短背景下由于近东西向伸展变形而引发的菱形断块发育模式。根据断层的活动速率估算结果,晚第四纪期间安多-错那地堑的平均伸展速率为0.25±0.15mm/a,而整个羌塘块体总的东西向伸展变形速率可能达到11±8mm/a。 相似文献
2.
A 3000 m Jurassic-Cretaceous-Palaeogene succession dominated by carbonates is deformed by NNE trending open folds of Palaeogene age. Conjugate wrench faults and a system of normal faults extend the fold belt axially and probably evolved during anticlockwise rotation in a transpressive regime related to the oblique convergence of the African and Arabian plates across the Lebanese segment of the Dead Sea transform fault. Three sets and four systems of conjugate mesoscopic fractures, symmetrically orientated with reference to bedding and the plunge of the fold in which they are contained, resulted in minor axial elongation. Pressure solution on surfaces striking parallel to the fold belt locally achieved up to 50% shortening.The N30°E vertical Yammouné Fault Zone, which connects with the principal rift faults to the north and south, is accompanied by mesostructures which indicate that displacements were dominantly left-lateral and that the 1–2 km Zone is younger than the folds, possibly of Neogene age. 相似文献
3.
华北地区上新世至第四纪断裂作用型式与左旋扩展 总被引:10,自引:2,他引:8
华北地区包含两个新生代引张构造域,即太行山以西的鄂尔多斯周缘地堑系和以东的华北-渤海平原盆地。鄂尔多斯周缘地堑系上新世~第四纪的断裂作用表征为正向倾滑活动为主,同时具有右旋或左旋走滑分量的运动型式,指示了NW-SE向地壳引作用,华北-渤海盆地内上新世~第四纪的断裂作用发生在NNE至NE走向的断鲜明带上,具有右旋和正向倾滑的斜向运动特征,EW走向的秦岭断裂系华北引张构造域的东界,表现为右旋走滑,与E 相似文献
4.
为了确定塔中隆起NNE向走滑断裂特征及形成机制,利用构造要素相关性分析及构造解析方法,通过对二维和三维资料的解释,揭示了走滑断裂的构造变形特征,确定了走滑断裂的形成机制。NNE向走滑断裂在地震剖面上表现为压扭和张扭在垂向上叠加的特点,其形成演化主要经历了中奥陶世末压扭和晚志留世—中泥盆世张扭两个阶段。先存基底软弱带和塔里木板块周缘造山带的演化共同控制了这套走滑断裂的形成。中奥陶世末,塔里木板块南缘洋盆俯冲闭合产生的近南北向挤压应力斜向作用于NNE向的基底软弱带之上,导致断裂上部地层被撕裂产生走滑分量,从而形成了北东向的左旋走滑断裂系统,同时,来自塔里木板块西北缘的挤压应力垂向作用于走滑断裂上,导致NNE向走滑断裂发生压扭变形。晚志留世—中泥盆世,塔里木板块南缘的挤压应力继续斜向作用于NNE向走滑断裂之上导致其继续发生走滑变形,同时,来自塔里木盆地西北缘的NW向伸展应力垂向作用于走滑断裂上,导致NNE向走滑断裂发生张扭变形。 相似文献
5.
《International Geology Review》2012,54(9):991-1012
The active kinematics of the eastern Tibetan Plateau are characterized by the southeastward movement of a major tectonic unit, the Chuan-Dian crustal fragment, bounded by the left-lateral Xianshuihe–Xiaojiang fault in the northeast and the right-lateral Red River–Ailao Shan shear zone in the southwest. Our field structural and geomorphic observations define two sets of young, active strike–slip faults within the northern part of the fragment that lie within the SE Tibetan Plateau. One set trends NE–SW with right-lateral displacement and includes the Jiulong, Batang, and Derong faults. The second set trends NW–SE with left-lateral displacement and includes the Xianshuihe, Litang, Xiangcheng, Zhongdian, and Xuebo faults. Strike–slip displacements along these faults were established by the deflection and offset of streams and various lithologic units; these offsets yield an average magnitude of right- and left-lateral displacements of ~15–35 km. Using 5.7–3.5 Ma as the time of onset of the late-stage evolution of the Xianshuihe fault and the regional stream incision within this part of the plateau as a proxy for the initiation age of conjugate strike–slip faulting, we have determined an average slip rate of ~2.6–9.4 mm/year. These two sets of strike–slip faults intersect at an obtuse angle that ranges from 100° to 140° facing east and west; the fault sets define a conjugate strike–slip pattern that expresses internal E–W shortening in the northern part of the Chuan-Dian crustal fragment. These conjugate faults are interpreted to have experienced clockwise and counterclockwise rotations of up to 20°. The presence of this conjugate fault system demonstrates that this part of the Tibetan Plateau is undergoing not only southward movement, but also E–W shortening and N–S lengthening due to convergence between the Sichuan Basin and the eastern Himalayan syntaxis. 相似文献
6.
渤海中部的郯庐断裂带在平面上表现为不连续的几条北北东走向断层,地震反射剖面和钻探资料显示断层两侧沉积厚度的巨大差异,表明新近纪以来它们是在沉降运动背景下活动的具有大幅度倾滑位移的正断层,构成渤海盆地内凹陷与凸起的边界。这些断层在剖面上有一定弯曲和倾斜,向下延伸深度不超过10~12km。在此深度以上的地壳浅部,没有水平方向位移以及其它直接变形证据表明郯庐断裂带有走滑运动分量。从地震机制解得到的走滑断层运动反映渤海地区地壳深部的变形及相应的构造应力状态,与浅部残留的伸展构造应力同时存在。根据断裂力学分析,认为中新世末以来渤海浅层新近系内出现的大量近东西向小断裂可能是现代构造应力场作用的结果,与郯庐断裂带或其它基底老断裂没有继承性或派生的成因关系。 相似文献
7.
湘东─赣西NNE向走滑构造 总被引:6,自引:3,他引:6
湘东─赣西构造岩浆带位于郯庐断裂南延的关键性部位。中生代以来,该区 NNE向左旋走滑构造主要由会聚走滑和 K─ E离散走滑构造叠加而成。会聚走滑作用造就了 NNE向雁列式剪切断裂系、剪切弯曲和旋转构造、压剪性煤盆地以及断层动热变质─剪切重熔型花岗岩;而离散走滑作用则控制了该区广泛发育的张剪性红盆地、盆岭式构造地貌、以及大规模中低温热液矿床的形成。湘东─赣西复杂的平移构造型式很可能与该区地壳结构分层特征、前期断裂构造格局、平移幅度和多期走滑构造作用四个因素有关。 相似文献
8.
9.
N. V. Koronovsky G. N. Gogonenkov M. A. Goncharov A. I. Timurziev N. S. Frolova 《Geotectonics》2009,43(5):379-391
An unusual structural paragenesis, complicated by brachyanticlines, is revealed for the first time in the sedimentary cover
of the West Siberian Plate by 3D seismic surveying. These are linear (in plan view) systems of en-echelon arranged low-amplitude
normal faults related to wrench faults in the basement. On different sides off a wrench fault, the planes of normal faults
dip in opposite directions, forming a helicoidal structure that resembles the blades of a propeller. In the section parallel
to the wrench fault, the boundaries of the beds and normal fault planes dip in opposite directions as well. In the section
across the strike of the normal faults converging toward the basement, the beds take the shape of an antiform with a crest
sagged along the normal faults (flower structure). This structural assembly was formed as a result of interference of stress
fields of horizontal shear in the vertical plane (induced by faulting in the basement) and in the horizontal plane (caused
by gravity resistance of the cover). In this case, the displacements along the normal faults develop in both the vertical
and, to a greater extent, horizontal directions, so that the faults in cover are actually characterized by normal-strike-slip
kinematics. The regional N-S-trending compression of the West Siberian Plate is the main cause of shearing along the NW- and
NE-trending faults in the basement, which make up a rhomb-shaped system in plan view. Petroliferous brachyanticlines, whose
axes, notwithstanding tectonophysical laws, are oriented in the direction close to the maximum compression axis, are known
in the large wrench fault zones of Western Siberia. Our experiments with equivalent materials showed that a local stress field
arising at the ends of echeloned Riedel shears within a wrench fault zone may be a cause of the formation of such brachyanticlines.
The progressive elongation of Riedel shears leads to the corresponding elongation of the brachyanticlines located between
their ends. The performed study has shown that the known types of interference of elementary geodynamic settings such as horizontal
shear along the vertical plane + horizontal compression (transpression) and horizontal shear along the vertical plane + horizontal
extension (transtension) may be supplemented by combination of horizontal shears along the vertical and horizontal planes,
resulting in tectonic lamination. By analogy, we propose to name this type of interference of elementary shear settings translamination. Petroliferous helicoidal structures arise in the given geodynamic setting of translamination. 相似文献
10.
Temporal variation in the geometry of a strike–slip fault zone: Examples from the Dead Sea Transform
The location of the active fault strands along the Dead Sea Transform fault zone (DST) changed through time. In the western margins of Dead Sea basin, the early activity began a few kilometers west of the preset shores and moved toward the center of the basin in four stages. Similar centerward migration of faulting is apparent in the Hula Valley north of the Sea of Galilee as well as in the Negev and the Sinai Peninsula. In the Arava Valley, seismic surveys reveal a series of buried inactive basins whereas the current active strand is on their eastern margins. In the central Arava the centerward migration of activity was followed by outward migration with Pleistocene faulting along NNE-trending faults nearly 50 km west of the center. Largely the faulting along the DST, which began in the early–middle Miocene over a wide zone of up to 50 km, became localized by the end of the Miocene. The subsidence of fault-controlled basins, which were active in the early stage, stopped at the end of the Miocene. Later during the Plio-Pleistocene new faults were formed in the Negev west of the main transform. They indicate that another cycle has begun with the widening of the fault zone. It is suggested that the localization of faulting goes on as long as there is no change in the stress field. The stresses change because the geometry of the plates must change as they move, and consequently the localization stage ends. The fault zone is rearranged, becomes wide, and a new localization stage begins as slip accumulates. It is hypothesized that alternating periods of widening and narrowing correlate to changes of the plate boundaries, manifest in different Euler poles. 相似文献
11.
《地学前缘(英文版)》2023,14(4):101559
Transpression occurs in response to oblique convergence across a deformation zone in intraplate regions and plate boundaries. The Korean Peninsula is located at an intraplate region of the eastern Eurasian Plate and has been deformed under the ENE–WSW maximum horizontal compression since the late Pliocene. In this study, we analyzed short-term instrumental seismic (focal mechanism) and long-term paleoseismic (Quaternary fault outcrop) data to decipher the neotectonic crustal deformation pattern in the southeastern Korean Peninsula. Available (paleo-)seismic data acquired from an NNE–SSW trending deformation zone between the Yangsan and Ulleung fault zones indicate spatial partitioning of crustal deformation by NNW–SSE to NNE–SSW striking reverse faults and NNE–SSW striking strike-slip faults, supporting a strike-slip partitioned transpression model. The instantaneous and finite neotectonic strains, estimated from the focal mechanism and Quaternary outcrop data, respectively, show discrepancies in their axes, which can be attributed to the switching between extensional and intermediate axes of finite strain during the accumulation of wrench-dominated transpression. Notably, some major faults, including the Yangsan and Ulsan fault zones, are relatively misoriented to slip under the current stress condition but, paradoxically, have more (paleo-)seismic records indicating their role in accommodating the neotectonic transpressional strain. We propose that fluids, heat flow, and lithospheric structure are potential factors affecting the reactivation of the relatively misoriented major faults. Our findings provide insights into the accommodation pattern of strain associated with the neotectonic crustal extrusion in an intraplate region of the eastern Eurasian Plate in response to the collision of the Indian Plate and the subduction of the Pacific/Philippine Sea Plates. 相似文献
12.
Our research focuses on Holocene tectonics in a broad area surrounding the junction between the active NW–SE trending Husavik-Flatey transform fault (HFF) and the N–S Gudfinnugja normal fault (GF), an exceptional example of onshore transform-ridge intersection. We mapped 637 minor and major faults, and measured the dip-slip and strike-slip offset components on the major faults. We also mapped 1016 individual tension fractures, as well as opening directions on the most reliable ones. The results indicate that this portion of the HFF comprises major right-stepping segments, with both normal and right-lateral strike-slip components, linked by local normal faults. The entire GF always shows pure dip-slip normal displacements, with a strong decrease in offset at the junction with the HFF. Fissure opening directions are in the range N45°-65°E along the HFF, N90°E along the GF, and N110°E within the area south of the HFF and west of the GF. Fault kinematics and fissure openings suggest a displacement field in good agreement with most of present-day GPS measurements, although our data indicate the possible long-term Holocene effects of the superimposition of magma-related stresses on the regional tectonic stresses. The HFF and the GF work together as a structural system able to accommodate differential crustal block motion, and possibly past dyke intrusions. 相似文献
13.
济阳坳陷构造演化及其大地构造意义 总被引:151,自引:4,他引:147
济阳坳陷由负反转盆地、右旋扭张盆地及主动裂谷三个原型叠加而成,并在中、新生代经历了四个演化阶段,三叠纪为板内造山作用阶段,济阳坳陷曾为五条NW向的以逆冲断层为主的压性构造带占据,早-中侏罗世造山作用结束;晚侏罗世-早始新世为负反转盆地阶段,三叠纪NW向逆冲断层发生反向伸展;中始新世-渐新世为右旋扭张盆地阶段,NE,ENE向扭张断裂发育,并进而成盆接受沉积,NW和断裂反向伸展活动受到抑制而渐趋消亡;中新世-全新世为主动裂谷阶段,“拗陷运动”取代“断陷运动”。济阳坳陷构造演化的阶段特征表明了郯庐断裂中、新生代的剪切运动史,即三叠纪右旋剪切,晚侏罗世-早始新世左旋剪切.中始新世-渐新世右旋剪切,中新世-全新世作弱右旋压剪。 相似文献
14.
黄海深部结构与中朝-扬子块体结合带在海区位置的地球物理研究 总被引:23,自引:0,他引:23
以黄海及其邻区为研究对象 ( 32~ 4 2°N ,1 2 0~ 1 30°E) ,以研究区的空间重力异常、布格重力异常和地震层析成像数据为基础 ,在研究区中分辨出方向各异的主要断裂带并给出它们的分布。对在朝鲜半岛存在的一条近SN向分布的断裂带进行了重点讨论。根据重力数据、莫霍深度分布特点和层析成像的结果 ,认为该断裂带的两侧应属于不同的构造地质单元 ;提出该断裂带与五莲—青岛断裂带和济州岛南缘断裂带一起组成了中朝与扬子块体在黄海海区的边界结合带的认识 ;并推测在三叠纪的晚期 ,沿郯庐断裂带和该断裂带曾分别发生过左旋和右旋走滑。受SN向挤压应力的作用 ,(下 )扬子块体被平移嵌入到中朝块体之中。因此 ,两个块体在海区的结合带为一个巨大的“Z”字型的入构造 相似文献
15.
A system of left-lateral faults that separates the South American and Scotia plates, known as the Magallanes-Fagnano fault system, defines the modern tectonic setting of the southernmost Andes and is superimposed on the Late Cretaceous – Paleogene Patagonian fold-thrust belt. Fault kinematic data and crosscutting relationships from populations of thrust, strike-slip and normal faults from Peninsula Brunswick adjacent to the Magallanes-Fagnano fault system, presented herein, show kinematic and temporal relationships between thrust faults and sets of younger strike-slip and normal faults. Thrust fault kinematics are homogeneous in the study area and record subhorizontal northeast-directed shortening. Strike-slip faults record east—northeast-directed horizontal shortening, west—northwest-directed horizontal extension and form Riedel and P-shear geometries compatible with left-lateral slip on the main splay of the Magallanes-Fagnano fault system. Normal faults record north-south trending extension that is compatible with the strike-slip faults. The study area occurs in a releasing step-over between overlapping segments of the Magallanes-Fagnano fault system, which localized on antecedent sutures between basement terranes with differing geological origin. Results are consistent with regional tectonic models that suggest sinistral shearing and transtension in the southernmost Andes was contemporaneous with the onset of seafloor spreading in the Western Scotia Sea during the Early Miocene. 相似文献
16.
AbstractThe classical model of faulting predicts that slip planes occur in two conjugate sets. Theoretically, more sets can be contemporarily active if pre-existing structures are reactivated in a three-dimensional strain field. Four to six sets of faults have been active in the Holocene in the Zailiski Alatau mountain range, Kazakstan. Faults strike with the highest frequency ENE and ESE and show mostly left-lateral reverse and right-lateral reverse motions, respectively. These faults have a bimodal distribution of dips, forming four sets arranged in orthorhombic symmetry. Locally, NNW- to NNE- striking vertical faults have also been active in the Holocene and show right-lateral strike-slip and left-lateral strike-slip motions, respectively. All these fault sets accommodated the general three-dimensional deformation, given by N-S-directed horizontal shortening, vertical extension, and E-W-directed horizontal extension. Field evidence also shows that the reverse motions, even if with a minor strike-slip component, occurred on high-angle planes with inclination of 65°-85°. ENE- and ESE-striking faults reactivated older fracture zones, whereas the other sets are newly formed. Comparison of these field results with the structures obtained from published analogue models shows a strong similarity of fault geometry and kinematics. 相似文献
17.
《Journal of Asian Earth Sciences》2009,34(5-6):303-322
Analysis of fault system in the high-P/T type Sambagawa metamorphic rocks of central Shikoku, southwest Japan, shows that conjugate normal faults pervasively developed in the highest-grade biotite zone (upper structural level) in three study areas (Asemi river, Oriu and Niihama areas). These conjugate normal faults consist of NE–SW to E–W striking and moderately north-dipping (set A), and NNW–SSE striking and moderately east dipping (set B) faults. The fault set A is dominant compared to the fault set B, and hence most of deformation is accommodated by the fault set A, leading to non-coaxial deformation. The sense of shear is inferred to be a top-to-the-WNW to NNW, based on the orientations of striation or quartz slickenfibre and dominant north-side down normal displacement. These transport direction by normal faulting is significantly different from that at D1 penetrative ductile flow (i.e. top-to-the-W to WNW). It has also been found that these conjugate normal faults are openly folded during the D3 phase about the axes trending NW–SE to E–W and plunging west at low-angles or horizontally, indicating that normal faulting occurred at the D2 phase. D2 normal faults, along which actinolite breccia derived from serpentinite by metasomatism sometimes occurs, perhaps formed under subgreenschist conditions (ca. 250 °C) in relation to the final exhumation of Sambagawa metamorphic rocks into the upper crustal level. The pervasive development of D2 normal faults in the upper structural level suggests that the final exhumation of Sambagawa metamorphic rocks could be caused by “distributed extension and normal faulting (removal of overburden)” in the upper crust. 相似文献
18.
位于江西省龙南县上围地区出露的燕山期花岗质复式岩体明显受北东向马屎山硅化断裂带和鹅形石英断裂夹持控制,是有利的产铀岩体,已探明291铀矿床和292矿点。岩体内断裂作用强烈,热液蚀变和铀矿化现象普遍。经地质调查,在岩体内识别出北东向断裂6条和北北东向断裂11条及若干北西—北西西向断裂。其中,北东向断裂主要包括岩体西部的硅化带和东部的石英断裂;北北东向断裂主要包括岩体东部的蚀变碎裂岩带和西部硅化破碎带;北西—北西西向断裂多被中基性岩脉充填,主要包括501~504号脉。北北东向断裂与铀成矿关系最密切,是容矿断裂。断裂的规模和产状控制了铀矿体的空间分布和展布形态,断裂性质控制了铀矿化类型,断裂变形程度控制铀矿化蚀变分带,断裂与中基性岩脉复合控制了富铀矿体的产出形态。 相似文献
19.
地表地质调查发现,位于滇西北菱形断块中南部的周城—清水断裂在上新世早期已经开始活动,而断裂强烈活动时期在中更新世,晚更新世以来活动性减弱。断裂运动方式以左旋走滑为主,兼有逆冲分量,并发生过从逆冲到正断的转换,全新世活动不明显。根据断裂断错的上新世昔格达组湖相沉积地质及河流地貌进行的初步分析,可以判断该断裂晚第四纪以来的垂直活动速率为0.1 mm/a左右,明显小于周城—清水断裂北侧川滇菱形块体向南东方向的运动速度(13~14 mm/a)。这表明周城—清水断裂对印度板块与欧亚板块碰撞所形成的次生构造———川滇菱形块体的侧向挤出的调节作用很有限。 相似文献
20.
运用丰富的三维地震资料,在断裂体系的静态描述基础上,通过断层活动速率计算和平衡剖面分析,并结合残留地
层展布特征,恢复了新生代盆地垂向演化与叠合过程,探讨盆地发育与转型的动力学机制。珠一坳陷新生代经历了裂陷早
期、裂陷晚期、裂后拗陷和构造活动期四大演化阶段。裂陷期(E2w-E2e),印支地块旋转挤出和古南海俯冲,区域拉张应
力场由NW 向顺时针转变为近SN 向,导致了裂陷早期NE、NEE 向断裂控盆向裂陷晚期近EW 向、NWW 向断裂控盆转变,
岩石圈伸展作用由宽裂谷方式向窄裂谷方式转变,导致盆地格局由彼此孤立的半地堑或窄地堑系趋于相互扩展连通;裂后
拗陷期(E3z-N1z-N1h),岩石圈伸展中心迁移至南海扩张中心,南海北部地区整体处于裂后热沉降阶段,构造活动微弱;构
造活化期(N1y-N2w-Q),菲律宾海板块NWW 向仰冲-碰撞联合作用下产生NNE 向拉张,同时派生近EW 向和NW 向的共
轭剪切作用,导致了先存NWW 向和近EW 断裂的活化,以及隆起区NWW 向张性断裂和近EW 向、NW 向走滑断裂带的形
成。该研究所揭示的盆地发育演化过程不仅对该区油气勘探提供指导,也对被动大陆边缘演化的研究有着一定的借鉴意义。 相似文献