北京防震历史经验与汶川地震灾后城镇选址重建   总被引：5，自引：2，他引：3  

毛锋  马金锋  周文生 《地球信息科学学报》2008,10(4):503-510

5.12汶川8.0级地震使灾区蒙受了巨大的生命和财产损失,地震造成的灾害与灾区地质构造有极强的空间相关性。灾区地震历史的分析结果表明,该区域地震格局有明显的时空特征,重灾区灾后重建城镇选址宜多学科联合谨慎规划。康熙18年(1679年)的北京平谷-三河8.0级地震与5.12汶川地震惨烈程度相近,北京地质构造研究与地震时空格局分析具有重大的现实意义,北京城市发展中的防震规划历史经验值得5.12地震灾区在重建与今后发展中借鉴。  相似文献   

中国大陆7级以上地震频次场时空异常特征     

罗国富  屠泓为  丁风和  马禾青  杨明芝 《地震》2022,42(1):181-196

本文以地震频次作为地震活动的变量,通过自然正交函数展开方法,计算中国大陆7级以上强震前的地震活动频次场,提取出强震前时间因子和空间等值线的异常。结果表明,强震前时间因子出现超过均方差的高值或低值异常,异常多数分布在频次场的前4个典型场,具有多分量特点,第1个典型场异常贡献率最大(占总场40%～60%),绝大部分强震前5～8年出现长期异常,部分强震前1～2年出现中期异常,少数强震前3月出现短临异常的特征。区域频次等值线出现的高梯度旋涡区域是异常危险区,等值线值大于0.9且具有活动构造的危险区往往是强震的发震位置。另外,地震频次场与传统方法的区域地震活动频次(3月)震例对比,表明频次场时间因子异常具有自己的独特优越性和缺陷,并讨论了这些方法的差异性。  相似文献   

基于EMD的中国大陆强震活动特征分析   总被引：1，自引：0，他引：1  

李志雄  朱航  刘杰  曾钢平  丘学林 《地震》2007,27(3):57-62

利用EMD方法对中国大陆年度最大地震时间序列进行逐级分解, 得到5个本征模态函数(IMF)项和1个趋势项, 分析了各个IMF分量不同的周期成分同地球自转速度变化、 太阳黑子活动和潮汐运动等环境因子之间的相关关系, 初步探讨了各个IMF分量的物理机理及其对中国大陆地震活动的影响。  相似文献   

断层垂直形变对强远震的响应   总被引：1，自引：0，他引：1       下载免费PDF全文

荆燕  张世中  李宏  熊玉珍  刘凤秋  孙起伟  董建业  张鸿旭  陈葛天 《地震学报》2007,29(2):165-172

利用新型断层形变三维观测系统的垂直向观测结果, 研究了两年以来7.0级以上强远震在非发震断层上的同震响应特征. 结果表明,非发震断层体垂直向同震形变的延迟时间、 同震位移最大振幅、 振动持续时间等特征与地震震级、震中距等之间存在密切联系. 断层体垂直向同震形变延迟时间与震中距线性正相关,发生地震同震形变的响应速度约为5.5km/s,反映了在上层花岗岩地层中面波的传播速度;同震位移最大振幅和震中距的对数、 震级之间具有明显线性关系,震级越大,同震位移的最大振幅越大;地震震级是断层体垂直同震形变振动持续时间的主要影响因素,震级越大,同震形变振动持续时间越长. 根据断层仪观测数据推算得到的断层体垂直向同震形变延迟时间、同震位移最大振幅、振动持续时间的经验计算公式,对于地震同震形变研究具有一定意义.   相似文献   

板内与板间地震活动时空分布的多重分形特征研究          下载免费PDF全文

陈时军  孙龙梅  马丽 《地震学报》2007,29(1):38-47

利用多重分形分析方法,考察了中国大陆和台湾地区以及新西兰的地震活动广义应变释放时间和空间分布的多重分形特征. 结果表明,地震活动时空分布的多重分形特征与不同地球动力学环境关系密切. 强震活动时间分布在板间地区具有比板内地区更明显的丛集性, 对中小地震这种丛集性差异较小;强震活动空间分布在板内地区具有比板间地区更强的丛集性,但对中小地震则相反.   相似文献   

利用上海台阵对常熟2001年2002年震群的精定位   总被引：1，自引：0，他引：1  

寿海涛  朱元清  黄耘  朱国豪  钟卫星 《地震地磁观测与研究》2007,28(3):27-33

2001年6月上海台阵正式运行,上海台阵的建立提高了上海及周边地区的地震监测能力.本文着重在定位方法和震相判读上,充分利用上海台阵整体观测系统的优势和台阵独特的数据处理方法,对常熟2001年和2002年二次小地震序列进行了精确定位.对精确定位的结果进行了对比与分析,并以此为基础,对常熟地区及周边的地质构造等进行了解释与推断.  相似文献   

Limit states and failure mechanisms of viscous dampers and the implications for large earthquakes     

H. Kit Miyamoto  Amir S. J. Gilani  Akira Wada  Christopher Ariyaratana 《地震工程与结构动力学》2010,39(11):1279-1297

Fluid viscous dampers are used to control story drifts and member forces in structures during earthquake events. These elements provide satisfactory performance at the design‐level or maximum considered earthquake. However, buildings using fluid viscous dampers have not been subjected to very large earthquakes with intensities greater than the design and maximum considered events. Furthermore, an extensive database of viscous damper performance during large seismic events does not exist. To address these issues, a comprehensive analytical and experimental investigation was conducted to determine the performance of damped structures subjected to large earthquakes. A critical component of this research was the development and verification of a detailed viscous damper mathematical model that incorporates limit states. The development of this model and the laboratory and simulation results conclude good correlation with the new model and the damper limit states and provide superior results compared with the typical damper model when considering near collapse evaluation of structures. Copyright © 2010 John Wiley & Sons, Ltd.  相似文献   

Seismic parameters controlling far-field tsunami amplitudes: A review   总被引：3，自引：1，他引：3  

Emile A. Okal 《Natural Hazards》1988,1(1):67-96

We present a review of the influence of various parameters of the sources of major oceanic earthquakes on the amplitude of tsunamis at transoceanic distances. We base our computations on the normal mode formalism, applied to realistic Earth models, but interpret our principal results in the simpler framework of Haskell theory in the case of a water layer over a Poisson half-space. Our results show that source depth and focal geometry play only a limited role in controlling the amplitude of the tsunami; their combined influence reaches at most 1 order of magnitude down to a depth of 150 km into the hard rock. More important are the effects of directivity due to rupture propagation along the fault, which for large earthquakes can result in a ten-fold decrease in tsunami amplitude by destructive interference, and the possibility of enhanced tsunami excitation in material with weaker elastic properties, such as sedimentary layers. Modelling of the so-called tsunami earthquakes suggests that an event for which 10% of the moment release takes place in sediments generates a tsunami 10 times larger than its seismic moment would suggest. We also investigate the properties of non-double couple sources and find that their relative excitation of tsunamis and Rayleigh waves is in general comparable to that of regular seismic sources. In particular, landslides involving weak sediments could result in very large tsunamis. Finally, we emphasize that the final amplitude at a receiving shore can be strongly affected by focusing and defocusing effects, due to variations in bathymetry along the path of the tsunami.  相似文献   

Active tectonics of the Himalaya     

James F Ni 《Journal of Earth System Science》1989,98(1):71-89

The Himalayan mountains are a product of the collision between India and Eurasia which began in the Eocene. In the early stage of continental collision the development of a suture zone between two colliding plates took place. The continued convergence is accommodated along the suture zone and in the back-arc region. Further convergence results in intracrustal megathrust within the leading edge of the advancing Indian plate. In the Himalaya this stage is characterized by the intense uplift of the High Himalaya, the development of the Tibetan Plateau and the breaking-up of the central and eastern Asian continent. Although numerous models for the evolution of the Himalaya have been proposed, the available geological and geophysical data are consistent with an underthrusting model in which the Indian continental lithosphere underthrusts beneath the Himalaya and southern Tibet. Reflection profiles across the entire Himalaya and Tibet are needed to prove the existence of such underthrusting. Geodetic surveys across the High Himalaya are needed to determine the present state of the MCT as well as the rate of uplift and shortening within the Himalaya. Paleoseismicity studies are necessary to resolve the temporal and spatial patterns of major earthquake faulting along the segmented Himalayan mountains.  相似文献   

Comparison of amplitude decay rates in reflection,refraction, and local earthquake records     

Bruce S. Gibson 《Pure and Applied Geophysics》1988,128(1-2):309-331

Three types of seismic data recorded near Coalinga, California were analyzed to study the behavior of scattered waves: 1) aftershocks of the May 2, 1983 earthquake, recorded on verticalcomponent seismometers deployed by the USGS; 2) regional refraction profiles using large explosive sources recorded on essentially the same arrays above; 3) three common-midpoint (CMP) reflection surveys recorded with vibrator sources over the same area. Records from each data set were bandpassed filtered into 5 Hz wide passbands (over the range of 1–25 Hz), corrected for geometric spreading, and fit with an exponential model of amplitude decay. Decay rates were expressed in terms of inverse codaQ (Q _c ^–1 ).Q _c ^–1 values for earthquake and refraction data are generally comparable and show a slight decrease with increasing frequency. Decay rates for different source types recorded on proximate receivers show similar results, with one notable exception. One set of aftershocks shows an increase ofQ _c ^–1 with frequency.Where the amplitude decay rates of surface and buried sources are similar, the coda decay results are consistent with other studies suggesting the importance of upper crustal scattering in the formation of coda. Differences in the variation ofQ _c ^–1 with frequency can be correlated with differences in geologic structure near the source region, as revealed by CMP-stacked reflection data. A more detailed assessment of effects such as the depth dependence of scattered contributions to the coda and the role of intrinsic attenuation requires precise control of source-receiver field geometry and the study of synthetic seismic data calculated for velocity models developed from CMP reflection data.  相似文献