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141.
新疆博格达山北麓山前断裂西段的断裂组成及其在全新世时期的活动 总被引:4,自引:2,他引:4
博格达山北麓山前断裂西段全长140 km ,由5 条雁列状排列的逆断裂组成。全新世时期,古牧地断裂的最新活动发生在6.82±0.54~4.87±0.39 Ka B.P.之间;四工河口断裂切割Ⅱ级河流阶地,最新活动时间与古牧地断裂大体相同;泉泉子断裂切割Ⅰ级河流阶地,最新活动发生在3.75±0.41 Ka B.P.;热水河断裂及东风牧场断裂由于缺乏断代年龄实测数据,无法对其最新活动时间作出判断,但是推断它们也是全新世活断裂 相似文献
142.
Two major faults, over 32 km long and 6.4 km apart, truncate or overprint most previous folds and faults as they trend more northerly than the previous N25°E to N40°E fold trends. The faults were imposed as the last event in a region undergoing sequential counter-clockwise generation of tectonic structures. The western Big Cove anticline has an early NW verging thrust fault that emplaces resistant rocks on its NW limb. A 16 km overprint by the Cove Fault is manifested as 30 small northeast striking right-lateral strike-slip faults. This suggests major left-lateral strike-slip separation on the Cove Fault, but steep, dip-slip separation also occurs. From south to north the Cove Fault passes from SE dipping beds within the Big Cove anticline, to the vertical beds of the NW limb. Then it crosses four extended, separated, Tuscarora blocks along the ridge, brings Cambro-Ordovician carbonates against Devonian beds, and initiates the zone of overprinted right-lateral faults. Finally, it deflects the Lat 40°N fault zone as it crosses to the next major anticline to the northwest. To the east, the major Path Valley Fault rotates and overprints the earlier Carrick Valley thrust. The Path Valley Fault and Cove Fault may be Mesozoic in age, based upon fault fabrics and overprinting on the east–west Lat 40°N faults. 相似文献
143.
黄骅坳陷属新生代张性盆地。在第三纪的NW—SE向区域拉张作用下,本区形成大量走向NE—SW的正断层。通过对该区正断层位移分布的研究,划分出C、E、D、M和Z型五种断层位移模式,并进一步探讨了诸如断裂生长机制、岩石力学性质、相邻断层的相互作用、次级断裂的相互衔接这样几种控制因素对断层位移分布的影响。 相似文献
144.
为了研究1996年丽江MS7.0地震前地震孕育过程或前兆表现,利用滇西地震实验场内高精度重复重力观测数据,结合地质调查和地球物理推断结果,并考虑到观测数据和模型粗差, 采用稳健或抗差-贝叶斯最小二乘算法和多断层位错模型,首次初步反演获得了研究区主要活动断裂滑动的时间变化分布.结果表明,1990~1997年断层运动的时间变化,较好地反映了1996年丽江MS7.0地震孕育过程.其主要前兆模式图象具有主震余震型特征,遵循地壳内部密度和地壳形变耦合运动模式(简称DD耦合运动模式). 相似文献
145.
146.
We present new data and interpretations on the Neogene tectonics of the Shan scarp area (central Myanmar) and its relationship with the India–Indochina oblique convergence. We describe ductile and brittle fabrics associated with the major features in this area, the Mogok Metamorphic Belt (MMB), the Shan scarp and the Sagaing fault. From these data we identify a succession of two tectonic regimes. First, a dominant NNW–SSE-trending extension, marked by ductile stretching that characterizes the MMB, and associated N70E brittle normal faults. Later, from Middle or Upper Miocene to the Present, these structures were cross-cut by brittle right-lateral faults, among which the most important are the N20W transpressive Shan scarp fault zone and the N–S Sagaing fault. To explain this transition from a dominant transtensive to a transpressive stress regime, that occurred during Miocene, we place our data within a larger geodynamic context. We suggest that, like the intraplate deformation in the Indian Ocean, the end of spreading in the South China sea, the opening of the Andaman basin or the end of subduction within the Indo-Burma range, the change in the tectonic regime in central Myanmar could be in response to a major Miocene regional plate kinematic reorganization. 相似文献
147.
ENKHBOLD Altanbold; KHUKHUUDEI Ulambadrakh; KUSKY Timothy; CHUN Xi; YADAMSUREN Gansukh; GANBOLD Byambabayar; GERELMAA Tuvshin 《山地科学学报》2022,19(9):2451-2468
Data on the origin and morphology of lake depressions caused by volcanism are scarce in Mongolia. Previous studies focused on climate change patterns based on Terkhiin Tsagaan Lake sediment. We present a result of existing reconstructions of lake depression development and changes in the hydrology system during the Khorgo volcanic activation and the Holocene environmental change. A depression of the Terkhiin Tsagaan Lake is formed by a lava flow barrier from the Khorgo volcano. However, the Khorgo volcanic eruption and the lake depression that could shape a large lake have arisen instead from a fault. The morphometric analysis and field measurements indicate that the derivation of the Terkhiin Tsagaan Lake depression and Khorgo volcano may have evolved from movement on a sinistral strike-slip fault, which is about 70 km long. The southern mountains and rivers were displaced from northwest to southeast along the Terkh Fault. The offset along Terkh Fault is 4.02-5.28 km in the depression of the Terkhiin Tsagaan Lake. After movement, a wide valley of the Terkh River developed in the present landscape. The active Khorgo Volcano formed along the Khorgo Fault. The Terkhiin Tsagaan Lake is formed by blocked water from the Paleo-Terkh River after lava damming from the Khorgo Volcano. The initial paleo-lake area was about 195.7 km2, which was three times larger than the modern lake. The current water volume of the Terkhiin Tsagaan Lake is 0.351 km3 while the volume of the paleo-lake was 2.248 km3. Based on this volume indicator the paleo-lake was 6.4 times larger than the current lake. Overflowing water from the lake depression formed the Suman River by a drying canyon through the lava plateau, but the canyon is along the Terkh Fault. Changes in the water volume of Terkhiin Tsagaan Lake and erosion of Suman River canyon are inversely related to each other. We present the morphometric relationships between the lava plateau of Khorgo Volcano and development of Terkhiin Tsagaan Lake depression. 相似文献
148.
MCC转为带状MCSs过程中水平涡度的变化与暴雨的关系 总被引:4,自引:0,他引:4
利用实况资料和WRF中尺度数值模式对2010年6月18—19日的一次MCC转带状MCSs的暴雨过程进行数值模拟与诊断分析。结果表明:850 hPa西南涡和切变线的形成与维持是影响此次暴雨产生的中尺度系统,前期MCC的形成到成熟以低涡降水为主,后期的圆形MCC转为带状MCSs主要为切变线降水。在雨区附近,u、v的垂直切变所形成的强水平涡度造成的旋转,对应垂直环流的上升支可触发暴雨产生,垂直方向上u、v不同的分布可形成不同的垂直环流。低涡与切变线附近的水平涡度有明显差异,这种差异导致暴雨形成的原因不同,低涡暴雨主要由v的垂直切变造成,切变线暴雨主要由u、v的垂直切变共同作用,本次过程中v的垂直切变构成了沿切变线的东西向雨带,u的垂直切变沿纬向的不均匀性引起的垂直运动与切变线上MCSs的生成、发展和多雨团的形成关系密切。低涡、切变线降水中心附近的正倾侧项(水平涡度向垂直正涡度转换)也有类似的差异,低涡的转换主要由?v/?p<0决定,切变线的转换主要由-?u/?p>0决定。水平涡度向垂直涡度的转换尺度较小,易在平均状态下被忽略。倾侧项主要有利于暴雨的加强,但对西南涡、切变线的发展贡献较小。 相似文献
149.
INTRODUCTIONThe east Kunlun active fault is an important NWWtrending boundary fault on the northeasternmargin of the Qinghai-Xizang(Tibet)Plateau.The fault extends fromthe northside of the Qiangtangmassif in the west,runs eastward through the Kusai Lake,Dongdatan,Xidatan,Tuosuo Lake andMaqu to the north of Zoig毢(Van Der Woerd,et al.,2002;Ma Yinsheng,et al.,2005;Seismological Bureau of Qinghai Province,et al.,1999;Li Chunfeng,et al.2004).The intenseleft-lateral strike-slip move… 相似文献
150.
湘赣边区NNE向走滑断裂-流体-铀成矿动力学分析 总被引:7,自引:0,他引:7
以湘赣边区NNE向走滑断裂系统构造解析及其演化和动力学分析为主线,结合含矿流体的运动学过程研究,进行热液铀成矿动力学分析,以探讨成矿作用的动力来源、作用机制和演化过程。 相似文献