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Active source monitoring at the Wenchuan fault zone:coseismic velocity change associated with aftershock event and its implication 被引量:6
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作者 Wei Yang Hongkui Ge +3 位作者 Baoshan Wang Jiupeng Hu Songyong Yuan Sen Qiao 《Earthquake Science》 2014年第6期599-606,共8页
With the improvement of seismic observation system, more and more observations indicate that earthquakes may cause seismic velocity change. However, the amplitude and spatial distribution of the velocity variation rem... With the improvement of seismic observation system, more and more observations indicate that earthquakes may cause seismic velocity change. However, the amplitude and spatial distribution of the velocity variation remains a controversial issue. Recent active source monitoring carried out adjacent to Wenchuan Fault Scientific Drilling (WFSD) revealed unambiguous coseismic velocity change associated with a local M8 5.5 earthquake. Here, we carry out forward modeling using two-dimensional spectral element method to further investigate the amplitude and spatial distribution of observed velocity change. The model is well constrained by results from seismic reflection and WFSD coring. Our model strongly suggests that the observed coseismic velocity change is localized within the fault zone with width of ~ 120 m rather than dynamic strong ground shaking. And a velocity decrease of -2.0 % within the fault zone is required to fit the observed travel time delay distribution, which coincides with rock mechanical experiment and theoretical modeling. 展开更多
关键词 Wenchuan fault zone Coseismic velocity change Accurately Controlled Routinely Operated seismic Source (ACROSS) active monitoring Forward modeling
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Advances in seismological methods for characterizing fault zone structure
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作者 Yan Cai Jianping Wu +1 位作者 Yaning Liu Shijie Gao 《Earthquake Science》 2024年第2期122-138,共17页
Large earthquakes frequently occur along complex fault systems.Understanding seismic rupture and long-term fault evolution requires constraining the geometric and material properties of fault zone structures.We provid... Large earthquakes frequently occur along complex fault systems.Understanding seismic rupture and long-term fault evolution requires constraining the geometric and material properties of fault zone structures.We provide a comprehensive overview of recent advancements in seismological methods used to study fault zone structures,including seismic tomography,fault zone seismic wave analysis,and seismicity analysis.Observational conditions limit our current ability to fully characterize fault zones,for example,insufficient imaging resolution to discern small-scale anomalies,incomplete capture of crucial fault zone seismic waves,and limited precision in event location accuracy.Dense seismic arrays can overcome these limitations and enable more detailed investigations of fault zone structures.Moreover,we present new insights into the structure of the Anninghe-Xiaojiang fault zone in the southeastern margin of the Qinghai-Xizang Plateau based on data collected from a dense seismic array.We found that utilizing a dense seismic array can identify small-scale features within fault zones,aiding in the interpretation of fault zone geometry and material properties. 展开更多
关键词 fault zone structure TOMOGRAPHY fault zone wave seismic activity Anninghe-Xiaojiang fault zone
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Late-Quaternary Slip Rate and Seismic Activity of the Xianshuihe Fault Zone in Southwest China 被引量:14
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作者 ZHANG Yongshuang YAO Xin +2 位作者 YU Kai DU Guoliang GUO Changbao 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2016年第2期525-536,共12页
The Xianshuihe fault zone is a seismo-genetic fault zone of left-lateral slip in Southwest China. Since 1725, a total of 59 Ms ≥ 5.0 earthquakes have occurred along this fault zone, including 18 Ms 6.0–6.9 and eight... The Xianshuihe fault zone is a seismo-genetic fault zone of left-lateral slip in Southwest China. Since 1725, a total of 59 Ms ≥ 5.0 earthquakes have occurred along this fault zone, including 18 Ms 6.0–6.9 and eight Ms ≥ 7.0 earthquakes. The seismic risk of the Xianshuihe fault zone is a large and realistic threat to the western Sichuan economic corridor. Based on previous studies, we carried out field geological survey and remote sensing interpretation in the fault zone. In addition, geophysical surveys, trenching and age-dating were conducted in the key parts to better understand the geometry, spatial distribution and activity of the fault zone. We infer to divide the fault zone into two parts: the northwest part and the southeast part, with total eight segments. Their Late Quaternary slip rates vary in a range of 11.5 mm/a –(3±1) mm/a. The seismic activities of the Xianshuihe fault zone are frequent and strong, periodical, and reoccurred. Combining the spatial and temporal distribution of the historical earthquakes, the seismic hazard of the Xianshuihe fault zone has been predicted by using the relationship between magnitude and frequency of earthquakes caused by different fault segments. The prediction results show that the segment between Daofu and Qianning has a possibility of Ms ≥ 7.0 earthquakes, while the segment between Shimian and Luding is likely to have earthquakes of about Ms 7.0. It is suggested to establish a GPS or In SAR-based real-time monitoring network of surface displacement to cover the Xianshuihe fault zone, and an early warning system of earthquakes and post seismic geohazards to cover the major residential areas. 展开更多
关键词 Xianshuihe fault zone earthquake left-lateral strike-slip fault slip rate seismic activity prediction
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Characteristics of Late-Quaternary Activity and Seismic Risk of the Northeastern Section of the Longmenshan Fault Zone 被引量:6
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作者 WANG Mingming ZHOU Bengang +2 位作者 YANG Xiaoping XIE Chao GAO Xianglin 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2013年第6期1674-1689,共16页
Following the 2008 Wenchuan M8 earthquake,the seismic risk of the northeastern section of the Longmenshan fault zone and the adjacent Hanzhong basin has become an issue that receives much concern.It is facing,however,... Following the 2008 Wenchuan M8 earthquake,the seismic risk of the northeastern section of the Longmenshan fault zone and the adjacent Hanzhong basin has become an issue that receives much concern.It is facing,however,the problem of a lack of sufficient data because of little previous work in these regions.The northeastern section of the Longmenshan fault zone includes three major faults:the Qingchuan fault,Chaba-Lin'ansi fault,and Liangshan south margin fault,with the Hanzhong basin at the northern end.This paper presents investigations of the geometry,motion nature,and activity ages of these three faults,and reveals that they are strike slip with normal faulting,with latest activity in the Late Pleistocene.It implies that this section of the Longmenshan fault zone has been in an extensional setting,probably associated with the influence of the Hanzhong basin.Through analysis of the tectonic relationship between the Longmenshan fault zone and the Hanzhong basin,this work verifies that the Qingchuan fault played an important role in the evolution of the Hanzhong basin,and further studies the evolution model of this basin.Finally,with consideration of the tectonic setting of the Longmenshan fault zone and the Hanzhong basin as well as seismicity of surrounding areas,this work suggests that this region has no tectonic conditions for great earthquakes and only potential strong events in the future. 展开更多
关键词 seismic risk northeastern Longmenshan fault zone Hanzhong basin Late-Quaternary activity
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The Grouping of the Strike-Slip Offset Data and Its Relation With the Seismicity Along Middle Segment of the Xiaojiang Active Fault
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作者 Shen Jun,Wang Yipeng,Song Fangmin,Yu Weixian,Cao Zhongquan,Shen Xuhui,Hou Xueying,and Li ZhixiangInstitute of Geology,SSB,Beijing 100029,ChinaInstitute of Earthquake Engineering,Seismological Bureau of Yunnan Province,Kunming 650204,China 《Earthquake Research in China》 1998年第2期58-69,共12页
The data of the strike-slip offset along the Xiaojiang active fault can be obviously grouped.The groups of small orders of magnitude data within 100 m show clear linear characteristics of increments between 8 m and 12... The data of the strike-slip offset along the Xiaojiang active fault can be obviously grouped.The groups of small orders of magnitude data within 100 m show clear linear characteristics of increments between 8 m and 12 m,which indicates that the segments of the Xiaojiang active fault is of characteristic seismicity and the distribution of the values of each group indicates that there are smaller earthquakes and creep between two large earthquakes along each segment of the Xiaojiang active fault.The interval between two characteristic large earthquakes can be calculated with the increments for two groups of slip data and the slip rate of the fault.Furthermore,the frequency of smaller earthquakes can also be estimated by comparing the distributions of the displacements of the large earthquakes with the distributions of the values of each group of data.The groups of large slip displacements show that there is close relationship between the records of the displacements of the fault and the changes of the 展开更多
关键词 Xiaojiang active fault zone GROUPING characteristics of OFFSETS seismicITY Linear increment.
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Late Quaternary Activity of the Central-North Segment of the Taihang Mountains Piedmont Fault Zone
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作者 Gao Zhanwu Wu Hao +1 位作者 Li Gangtao Cheng Li 《Earthquake Research in China》 CSCD 2015年第1期103-116,共14页
The location and late Quaternary activity of the Central-North Segment of the Taihang Mountains Piedmont fault zone have been studied by shallow seismic survey and combined drill exploration.Our results show that the ... The location and late Quaternary activity of the Central-North Segment of the Taihang Mountains Piedmont fault zone have been studied by shallow seismic survey and combined drill exploration.Our results show that the Baoding-Shijiazhuang fault and the Xushui fault were active in the late Pleistocene,but the south Xushui fault has been inactive since the late Pleistocene.The maximum magnitude of potential earthquake of the faults is 6.0. 展开更多
关键词 Taihang Mountains Piedmont fault zone activity in late QuaternaryShallow seismic survey Combined drill exploration
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Offshore Fault Geometrics in the Pearl River Estuary,Southeastern China:Evidence from Seismic Reflection Data 被引量:11
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作者 CAO Jinghe XIA Shaohong +3 位作者 SUN Jinlong ZHAO Fang WAN Kuiyuan XU Huilong 《Journal of Ocean University of China》 SCIE CAS CSCD 2018年第4期799-810,共12页
The Pearl River Estuary(PRE) is located at the onshore-offshore transition zone between South China and South China Sea Basin, and it is of great significant value in discussing tectonic relationships between South Ch... The Pearl River Estuary(PRE) is located at the onshore-offshore transition zone between South China and South China Sea Basin, and it is of great significant value in discussing tectonic relationships between South China block and South China Sea block and seismic activities along the offshore active faults in PRE. However, the researches on geometric characteristics of offshore faults in this area are extremely lacking. To investigate the offshore fault distribution and their geometric features in the PRE in greater detail, we acquired thirteen seismic reflection profiles in 2015. Combining the analysis of the seismic reflection and free-air gravity anomaly data, this paper revealed the location, continuity, and geometry of the littoral fault zone and other offshore faults in PRE. The littoral fault zone is composed of the major Dangan Islands fault and several parallel, high-angle, normal faults, which mainly trend northeast to northeast-to-east and dip to the southeast with large displacements. The fault zone is divided into three different segments by the northwest-trending faults. Moreover, the basement depth around Dangan Islands is very shallow, while it suddenly increases along the islands westward and southward. These has resulted in the islands and neighboring areas becoming the places where the stress accumulates easily. The seismogenic pattern of this area is closely related to the comprehensive effect of intersecting faults together with the low velocity layer. 展开更多
关键词 OFFSHORE active faultS LITTORAL fault zone PEARL River ESTUARY earthquake seismic reflection data
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EARTHQUAKE FOCAL MECHANISM AND ITS TECTONIC SIGNIFICANCE ALONG THE TWO SIDES OF THE RED RIVER FAULT ZONE 被引量:1
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作者 ZHU Junjiang ZHAN Wenhuan QIU Xuelin XU Huilong TANG Cheng 《Geotectonica et Metallogenia》 2004年第1期79-92,共14页
The Red River Fault Zone is a gigantic slide-slip fault zone extending up to 1000km from Tibet to SouthChina Sea. It has been divided into the north, central and south segments according to the difference of thegeomet... The Red River Fault Zone is a gigantic slide-slip fault zone extending up to 1000km from Tibet to SouthChina Sea. It has been divided into the north, central and south segments according to the difference of thegeometry, kinetics, and seismicity on the land, but according to the contacted relationship between the old pre-Cenozoic block in Indochina Peninsula and the South China block, the Red River Fault Zone was divided into two parts extending from land to ocean, the north and south segments. Since the Tertiary, the Red River Fault Zone suffered first the sinistral movement and then the dextral movement. The activities of the north and the south segments were different. Based on the analysis of earthquakes and focal mechanism solutions,earthquakes with the focus depths of 0-33km are distributed over the whole region and more deep earthquakes are distributed on the northeastern sides of the Red River fault. Types of faulting activities are the thrust in the northwest, the normal in the north and the strike-slip in the south, with the odd type, viz. the transition type, in the other region. These show the Red River Fault Zone and its adjacent region suffered the extruding force in NNW direction and the normal stress in NEE direction and it makes the fault in the region extrude-thrust,horizontal strike-slip and extensional normal movement. 展开更多
关键词 The Red River fault zone (RRFZ) FOCAL mechanism solutions Dextral MOVEMENT seismicactivity
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Recent Study of the Changjiang Fault Zone
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作者 Hou Kangming Zong Kaihong +4 位作者 Guo Jiangning Xiong Zhen Li Limei Zhou Caixia Jiang Bo 《Earthquake Research in China》 2009年第1期78-86,共9页
The Changjiang fault zone,also known as the Mufushan-Jiaoshan fault,is a famous fault located at the southern bank of the Changjiang River,near the Nanjing downtown area.Based on multidisciplinary data from shallow ar... The Changjiang fault zone,also known as the Mufushan-Jiaoshan fault,is a famous fault located at the southern bank of the Changjiang River,near the Nanjing downtown area.Based on multidisciplinary data from shallow artificial seismic explorations in the target detecting area(Nanjing city and the nearby areas),trenching and drilling explorations,classification of Quaternary strata and chronology dating data,this paper provides the most up-to-date results regarding activities of the Changjiang fault zone,including the most recent active time,activity nature,related active parameters,and their relation to seismic activity. 展开更多
关键词 Changjiang fault zone fault activity Quaternary stratigraphic division Shallow artificial seismic profile Geological profile
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2022年泸定M_(s) 6.8级地震发震构造与鲜水河断裂带强震迁移规律
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作者 钟永生 李敬波 +6 位作者 王国洪 颜照坤 周吉谦 王多福 郑良忠 张聚源 吴明亮 《地质论评》 CAS CSCD 北大核心 2024年第3期975-995,共21页
2022年9月5日12时52分在四川甘孜州泸定县发生Ms6.8级地震,震源深度16 km。这是继2014年康定地震后,发生在鲜水河断裂带上的又一次强震。笔者等通过已有文献资料,结合鲜水河断裂带南段野外地质调查,统计了滑动速率及历史地震资料,并总... 2022年9月5日12时52分在四川甘孜州泸定县发生Ms6.8级地震,震源深度16 km。这是继2014年康定地震后,发生在鲜水河断裂带上的又一次强震。笔者等通过已有文献资料,结合鲜水河断裂带南段野外地质调查,统计了滑动速率及历史地震资料,并总结了近代鲜水河断裂带强震迁移规律,对认识鲜水河断裂带活动特征及未来地震危险性具有重要意义。主要得出以下几点认识:①鲜水河断裂带各段滑动速率差异较大,以乾宁为界,从NW至SE段整体上呈现出“先减速后加速”的滑动特点;②泸定地震发震构造磨西断裂,为一次左旋走滑事件;③川滇地区近代历史强震活跃期具有“跳跃性”迁移的特点。自1981年道孚地震后,鲜水河断裂带断进入相对平静期,持续了33 a。自2014年康定地震发生,鲜水河断裂带再次进入地震活跃期;④鲜水河断裂带的强震破裂并非单次地震的“贯通型”模式,而是多次地震的渐进式。断层间相互作用尤其是大地震的发生对断裂带强震复发间隔具有重大影响,相同断裂带的强震也会对后续地震的发生概率产生变化。 展开更多
关键词 鲜水河断裂带 泸定地震 复发间隔 强震迁移规律 地震活跃期
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2022年青海门源M_(S)6.9地震地表破裂带宽度调查与启示
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作者 牛鹏飞 韩竹军 +2 位作者 郭鹏 李科长 吕丽星 《地球物理学报》 SCIE EI CAS CSCD 北大核心 2024年第2期548-570,共23页
地震地表破裂带是地震破裂在地表的直接表现,其宽度是活断层"避让带"和工程抗震设防重要的指示参数.无人机等测量手段的发展为获取地表破裂带的高分辨率影像数据、精细测量破裂带宽度、分析破裂带宽度空间分布特征以及限定合... 地震地表破裂带是地震破裂在地表的直接表现,其宽度是活断层"避让带"和工程抗震设防重要的指示参数.无人机等测量手段的发展为获取地表破裂带的高分辨率影像数据、精细测量破裂带宽度、分析破裂带宽度空间分布特征以及限定合理的活断层"避让带"提供了有利条件.2022年门源M_(S)6.9地震在青藏高原东北缘冷龙岭与托莱山断裂阶区部位产生了显著的左旋走滑型地表破裂带.基于震后获取的高精度无人机正射影像和数字高程模型,文中在门源地震地表破裂带全段精细解译的基础上,沿走向间隔100 m测量了251个宽度数据,R1破裂带最大宽度为209.78±14 m,平均宽度为42 m,R2破裂带最大宽度为115.31±15.72 m,平均宽度为26.14 m.宽度沿走向具有差异性,这主要受控于同震变形强度、破裂带几何结构以及地表第四系松散层发育状况;具体表现为同震位移量大、阶区等复杂几何结构以及穿过第四系松散层区段的破裂带比同震位移量小、平直段以及基岩区段的破裂带要宽.通过对去除离散值后的破裂带宽度数据统计分析,计算出95.4%和68.2%置信区间的有效宽度分别是70或50 m.在工程抗震设防中,若走滑型活断层评估的最大潜在震级与此次门源地震震级相近(~M 7.0),根据建(构)筑物类别,建议确定"避让带"宽度时参考本文获得的破裂带有效宽度(70或50 m).对于单一走滑型错动面发育地段,按建(构)筑物类别向两侧各扩展35或25 m即可;而对于活断层斜列阶区、平行断层围限区、走向弯曲区和双陡倾角错动面发育地段,在这些复杂几何结构分布范围的基础上需要各向两侧扩展35或25 m.本文研究结果可为建(构)筑物选址避让走滑型断层提供参考依据. 展开更多
关键词 走滑型地震 地震地表破裂带 活断层"避让带"宽度 门源M_(S)6.9地震 工程抗震设防
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穿活动断裂带隧道抗错动易损性分析方法
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作者 禹海涛 许桦霖 卫一博 《岩土工程学报》 EI CAS CSCD 北大核心 2024年第10期2060-2068,共9页
活动断层错动作用是导致穿断层隧道结构破坏的主要因素,因此评估穿断层隧道结构的抗错动性能对于隧道抗震设计至关重要,然而目前研究尚缺乏针对穿断裂带隧道结构抗错动性能的评估方法。为此,提出了一种面向穿活动断裂带隧道结构抗错动... 活动断层错动作用是导致穿断层隧道结构破坏的主要因素,因此评估穿断层隧道结构的抗错动性能对于隧道抗震设计至关重要,然而目前研究尚缺乏针对穿断裂带隧道结构抗错动性能的评估方法。为此,提出了一种面向穿活动断裂带隧道结构抗错动性能评估的易损性分析方法。首先,基于概率断层位错危险分析(PFDHA)推导隧址区断层位错超越概率计算公式;其次,建立围岩-断层-隧道相互作用体系的有限元分析模型,并选定易损性分析指标,采用拟静力弹塑性分析方法得到隧道损伤与断层位错量之间的量化关系;最后采用隧址区断层位错超越概率计算公式计算出任意给定地震动水准条件下穿活动断裂带隧道结构的抗错动易损性。以某穿活动走滑断层隧道为例,依据所建立的易损性评估方法开展影响因素分析,探究了断层倾角对隧道结构抗错动性能的影响规律,结果表明:断层倾角越小,穿断层处隧道结构的易损性越小,且上盘侧隧道衬砌易损性显著高于下盘;隧道易损性对5~8级矩震级的变化更为敏感;隧道选线沿着近破裂带端部穿越可显著降低隧道结构的受损概率。该方法可以定量描述穿断层隧道在给定地震动强度下的易损性程度,可为穿活动断裂带隧道结构抗震设计与抗错动性能评估提供科学依据和分析手段。 展开更多
关键词 穿断层隧道 活动断裂带 易损性 地震响应 PFDHA
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Up-To-Date Geodynamics and Seismicity of Central Asia 被引量:1
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作者 Yury Gatinsky Dmitry Rundquist +1 位作者 Galina Vladova Tatiana Prokhorova 《International Journal of Geosciences》 2011年第1期1-12,共12页
The analysis of the seismicity in central Asia shows its distribution within a “triangle” of maximal inner-continental seismic activity, which is situated between south edge of the Lake Baikal and the Himalayas. The... The analysis of the seismicity in central Asia shows its distribution within a “triangle” of maximal inner-continental seismic activity, which is situated between south edge of the Lake Baikal and the Himalayas. The “triangle” coincides with the central Asian transit zone which divides the north Eurasian and Indian lithosphere plates and provides transfer and relaxation of tectonic stresses that arise between them. The central Asian transit zone consists of numerous crust blocks of different sizes. Blocks’ boundaries are often represented by not only single faults but relatively wide interblock zones characterized by intensive shattering of rocks and releasing a significant quantity of the seismic energy. The most active interblock zones limited the Pamirs, Tien Shan, Shan, and Bayanhar blocks as well as north boundaries of the Indian Plate. The quantity of the seismic energy releasing along each of them reaches ≥ 5?1015 J, while along other boundaries it doesn’t exceed 3?1012-2?1015 J. The majority of the most intensive seismic events took place just in these interblock zones. The total quantity of seismic energy is generally diminished away from the boundary of the Indian Plate, but sometimes the maximal quantity releases in inner parts of the transit zone at the distance 500-1500 km from the plate boundary. The most active interblock zones of central Asia differ from subduction and collision zones by depth of their penetration in lithosphere and at the same time are rather near to them by the volume of energy realizing. The examination of interblock zones shows that the majority of intensives earthquakes occur within them in regions with sharp changes of geodynamic conditions. On the whole the most part of central Asia is situated under the influence of the Indian indenter, which causes the prevailing of transpression tectonics. An abnormal high seismic energy releasing depends of deep continuation of the plate slab in collision zones (Pamirs, Himalayas), intensive displacements along strike-slips and thrusts due to collision processes and deep lithosphere unhomogeneity (Tien Shan, Bayanhar), as well as of sharp changes of geodynamic conditions because of influence of plate movement and supposed mantle plumes (north Mongolia, the Baikal region). 展开更多
关键词 LITHOSPHERE Plates seismicITY active faults TRANSIT zone Interblock zoneS seismic Energy
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Seismic-Geodynamic Monitoring of Main Electric Power-Stations in East Europe and North Asia
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作者 Yury Gatinsky Dmitry Rundquist +1 位作者 Galina Vladova Tatiana Prokhorova 《International Journal of Geosciences》 2011年第2期75-83,共9页
In east Europe and north Asia the majority of nuclear power-stations (NPS) as well as large hydro-electric (HES) and thermal electric stations (TES) are located within the north Eurasian lithosphere plate, which is ch... In east Europe and north Asia the majority of nuclear power-stations (NPS) as well as large hydro-electric (HES) and thermal electric stations (TES) are located within the north Eurasian lithosphere plate, which is characterized by the low seismicity and weak modern tectonic activity besides the different exogenetic processes. Some operating and projected NPS are relatively near to zones of the moderate seismicity in the Kaliningrad Region of northwest Russia and in south Ukraine. HES and TES in Baltic, Byelorussia and Ukraine are in the same position. Zones of more intensive seismicity and existence of active faults include NPS, HEP and TEP in the Urals, the Kola Peninsula, south Siberia, Transbaikal and Far East regions of Russia. Some of these stations are situated within crust blocks in transit zones, which separate main lithosphere plates and are characterized by increased tectonic mobility. The electric power-stations are most danger in the transit zones between north Eurasian, Arabian and Indian lithosphere plates, where collision processes have yet not stopped. This concerns electric stations in central Asia and Caucasus including NPS in Armenia. Seven schemes of the seismic energy distribution are composed for different parts of east Europe and north Asia. The location of nuclear and main other electric power-stations on them makes it possible to form a correct estimate of negative consequences connected with the up-to-date inner-continental tectonic activity. 展开更多
关键词 Electric Power-Station seismicITY active fault LITHOSPHERE Plate TRANSIT zone CRUST Block seismic Energy
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郯庐断裂带江苏段山左口−泗洪断裂活动特征变化及成因分析
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作者 张浩 李伟 +6 位作者 李丽梅 晏云翔 蒋新 王金艳 赵启光 顾勤平 许汉刚 《煤田地质与勘探》 EI CAS CSCD 北大核心 2023年第12期29-37,共9页
山左口−泗洪断裂经历了郯庐断裂带整个演化阶段,该断裂的最新活动时代具有分段性。确定该断裂的活动性分段位置及原因对研究郯庐断裂带内各分支断裂的活动性变化具有重要的参考价值。因此,利用野外地质调查、浅层地震勘探以及钻孔联合... 山左口−泗洪断裂经历了郯庐断裂带整个演化阶段,该断裂的最新活动时代具有分段性。确定该断裂的活动性分段位置及原因对研究郯庐断裂带内各分支断裂的活动性变化具有重要的参考价值。因此,利用野外地质调查、浅层地震勘探以及钻孔联合地质剖面等深浅部相结合的立体式研究方法,对山左口−泗洪断裂的活动性进行了研究。结果表明:山左口−泗洪断裂在北马陵山东侧为晚更新世活动断裂,在新沂市为中更新世断裂。新沂市嶂仓村小学新发现一条晚更新世−全新世早期活动断裂,该断裂可将山左口−泗洪断裂分为南北两段,北段为晚更新世活动断裂,南段为早中更新世断裂,北段晚更新世以来活动量向南调整至嶂仓村小学断裂带。北马陵山为郯庐断裂带内部沿断裂走向展布的基岩山体,其第四纪以来的持续抬升与山左口−泗洪断裂的活动性变化有一定的耦合关系。该研究对认识郯庐断裂带其他分支断裂的活动性变化和丘陵山脉的形成机制具有重要的参考价值。 展开更多
关键词 郯庐断裂带 山左口−泗洪断裂 活动性 浅层地震勘探 钻孔联合地质剖面 北马陵山
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地震多发区山岭隧道新型隔震结构设计与应用研究
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作者 费建波 魏嘉延 +2 位作者 金家康 马伟斌 陈湘生 《隧道建设(中英文)》 CSCD 北大核心 2023年第11期1935-1943,共9页
为应对山岭隧道工程穿越活断层和高烈度地震区的挑战,提出在初期支护与二次衬砌之间填充新型橡胶隔震层结构,设计微孔发泡橡胶复合多孔橡胶结构、微孔发泡橡胶复合加劲骨架结构、点带支承隔震结构3种隔震层方案;研制速度相关高阻尼橡胶... 为应对山岭隧道工程穿越活断层和高烈度地震区的挑战,提出在初期支护与二次衬砌之间填充新型橡胶隔震层结构,设计微孔发泡橡胶复合多孔橡胶结构、微孔发泡橡胶复合加劲骨架结构、点带支承隔震结构3种隔震层方案;研制速度相关高阻尼橡胶材料,并开展循环加载试验验证材料的耗能效果。通过室内静力加载试验和数值计算发现,带状支承隔震结构的刚度随变形增大而增强,这种变刚度特性使隔震层能更好地抵抗地震时快速外部荷载作用,也能适应断层慢速错动。将带状支承橡胶隔震层结构应用于兰新高铁隧道震害修复工程中,设计隧道震害整治现场结构方案,提出施工工艺、工法,实践证明该结构可保证修复后的行车安全。 展开更多
关键词 山岭隧道 橡胶隔震层 隔震结构 活动断裂带 韧性
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穿越活动断裂带铁路隧道震害特征及修复技术 被引量:1
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作者 令永春 《地下空间与工程学报》 CSCD 北大核心 2023年第3期1027-1037,共11页
依托穿越发震断裂的兰新高铁大梁隧道震害复旧整治工程,通过现场调研、测绘、勘探等手段,揭示了穿越活动断裂带铁路隧道在近场强震作用下的变形破坏特征;结合地震安评结论,提出“预防护与加固、结构拆除重建、预留变形空间、增设减震消... 依托穿越发震断裂的兰新高铁大梁隧道震害复旧整治工程,通过现场调研、测绘、勘探等手段,揭示了穿越活动断裂带铁路隧道在近场强震作用下的变形破坏特征;结合地震安评结论,提出“预防护与加固、结构拆除重建、预留变形空间、增设减震消能层、结构节段设计、大调整量无砟轨道”多维一体的活动断裂带隧道震害综合修复方案。在保障施工快速安全的同时,一次性解决后续运营阶段活动断裂可能进一步变形带来的相关问题,达到震后余滑、濡滑变形结构自适应和粘滑错位破坏快速修复的效果。经现场施工及监测结果反馈,相关方案可实施性强,修复后的隧道结构受力良好,可为后续类似工程震害抢通及隧道抗震设防提供实践经验。 展开更多
关键词 活动断裂带 铁路隧道 震害特征 修复技术 自适应变形结构
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小江断裂带晚第四纪活动研究综述
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作者 谭鑫 梁宽 马保起 《震灾防御技术》 CSCD 北大核心 2023年第4期757-772,共16页
小江断裂带是川滇菱形块体的东南边界断裂,是大型左旋走滑断裂。在总结已有研究成果的基础上,概述了小江断裂带空间展布、滑动速率、地震活动特征、强震地表破裂特征、地震危险性等方面的研究进展。已有研究结果表明,小江断裂带可分为... 小江断裂带是川滇菱形块体的东南边界断裂,是大型左旋走滑断裂。在总结已有研究成果的基础上,概述了小江断裂带空间展布、滑动速率、地震活动特征、强震地表破裂特征、地震危险性等方面的研究进展。已有研究结果表明,小江断裂带可分为北段、中段、南段,其中中段又可分为东支和西支。整条断裂带全新世的滑动速率为10 mm/a左右,其中北段和中段滑动速率为8~12 mm/a,南段滑动速率小于8 mm/a。小江断裂带沿线及周边地区地震频发,北段、中段地震活动性明显高于南段,强震活动具有明显的时空不均匀性,南段和巧家-东川段为地震空区,具有较高的强震危险性。通过对小江断裂带的论述,认为小江断裂带南段穿过红河断裂并向南延伸,但小江断裂带向南延伸模式及小江断裂带南段速度亏损是否由曲江断裂、石屏-建水断裂和红河断裂吸收,小江断裂带古地震是否与曲江断裂、石屏-建水断裂古地震相互影响,“Y”字形构造带吸收和调节模式还需进一步研究。 展开更多
关键词 小江断裂带 滑动速率 地震活动 地表破裂 地震危险性
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鄂西北两郧断裂郧西段的第四纪活动与地震危险性
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作者 崔敏 郑荣荧 +1 位作者 游嘉靖 赵钱 《地震科学进展》 2023年第3期108-114,共7页
两郧断裂带是鄂西北地区规模最大、影响最强的断裂之一,位于秦岭断块隆起区,长约200 km,走滑运动性质,第四纪分段活动特征明显,曾于1964年发生过郧西4.9级地震。此前对该断裂郧西段的第四纪活动研究较少,直接影响着对鄂西北地区活动构... 两郧断裂带是鄂西北地区规模最大、影响最强的断裂之一,位于秦岭断块隆起区,长约200 km,走滑运动性质,第四纪分段活动特征明显,曾于1964年发生过郧西4.9级地震。此前对该断裂郧西段的第四纪活动研究较少,直接影响着对鄂西北地区活动构造变形格局和强震危险性的整体认识和评估。本文基于遥感解译、野外地质调查和高密度电法勘探研究,发现断裂沿线发育有串珠状盆地、负向断层长谷、断层垭口和断层崖等构造地貌形态。两陨断裂在早第四纪活动明显,晚第四纪以来活动微弱,滑动速率低,未来中强地震的危险性不容低估。 展开更多
关键词 两郧断裂带 第四纪活动 地震危险性
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郯庐活断层与1668年郯城8.5级地震灾害 被引量:36
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作者 晁洪太 李家灵 +2 位作者 崔昭文 满洪敏 杜宪宋 《海洋地质与第四纪地质》 CAS CSCD 北大核心 1995年第3期69-80,共12页
郯庐断裂带的地震活动主要集中于中部的下辽河-莱州湾段和潍坊-嘉山段,各段在活断层和地震活动方面存在不同的表现。1668年地震发生于潍坊-嘉山段的中部,是全新世断层活动的结果。该地震产生了惨重的人口损失和建筑物破坏,其地震灾害具... 郯庐断裂带的地震活动主要集中于中部的下辽河-莱州湾段和潍坊-嘉山段,各段在活断层和地震活动方面存在不同的表现。1668年地震发生于潍坊-嘉山段的中部,是全新世断层活动的结果。该地震产生了惨重的人口损失和建筑物破坏,其地震灾害具有典型性。未来应注意渤海地区地震的群集型活动以及安丘地区和新沂一泗洪地区的强震活动。还应注意在新的经济条件下新的地震灾害内容和新的灾害类型。 展开更多
关键词 郯庐断裂带 活断层 郯城地震 地震灾害
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