隐伏断层灾害的研究与地震保险     

刘志远  陈英方 《国际地震动态》2001,(5):29-32

简要介绍了近年来一些国家地震灾害造成的经济损失占这些国家国内生产总值的比例；主要介绍了多震地区开展地震断层探测研究的概况以断层活动为基础的地震保险试验的内容及研究进展。  相似文献   

Fault-controlled dolomitization at Swan Hills Simonette oil field (Devonian), deep basin west-central Alberta, Canada   总被引：6，自引：0，他引：6  

James P. Duggan  Eric W. Mountjoy  & Lavern D. Stasiuk 《Sedimentology》2001,48(2):301-323

The partly dolomitized Swan Hills Formation (Middle‐Upper Devonian) in the Simonette oil field of west‐central Alberta underwent a complex diagenetic history, which occurred in environments ranging from near surface to deep (>2500 m) burial. Five petrographically and geochemically distinct dolomites that include both cementing and replacive varieties post‐date stylolites in limestones (depths >500 m). These include early planar varieties and later saddle dolomites. Fluid inclusion data from saddle dolomite cements (T_h=137–190 °C) suggest that some precipitated at burial temperatures higher than the temperatures indicated by reflectance data (T_peak=160 °C). Thus, at least some dolomitizing fluids were ‘hydrothermal’. Fluorescence microscopy identified three populations of primary hydrocarbon‐bearing fluid inclusions and confirms that saddle dolomitization overlapped with Upper Cretaceous oil migration. The source of early dolomitizing fluids probably was Devonian or Mississippian seawater that was mixed with a more ⁸⁷Sr‐rich fluid. Fabric‐destructive and fabric‐preserving dolostones are over 35 m thick in the Swan Hills buildup and basal platform adjacent to faults, thinning to less than 10 cm thick in the buildup between 5 and 8 km away from the faults. This ‘plume‐like’ geometry suggests that early and late dolomitization events were fault controlled. Late diagenetic fluids were, in part, derived from the crystalline basement or Palaeozoic siliciclastic aquifers, based on ⁸⁷Sr/⁸⁶Sr values up to 0·7370 from saddle dolomite, calcite and sphalerite cements, and ²⁰⁶Pb/²⁰⁴Pb of 22·86 from galena samples. Flow of dolomitizing and mineralizing fluids occurred during burial greater than 500 m, both vertically along reactivated faults and laterally in the buildup along units that retained primary and/or secondary porosity.  相似文献   

安宁河断裂带北段的最新地面活断层与地震潜在能力研究          下载免费PDF全文

钱洪  唐荣昌  文德华  黄祖智 《地震地质》1992,14(4):317

从最新地面活断层的不连续性,断层滑动速率以及古地震研究的角度讨论安宁河断裂带北段的地震潜在能力,认为不连续的活断层可能成为各自独立的地震破裂单元,从而决定了地震的潜在能力,其中,野鸡洞破裂段的潜在地震能力最强,可达7级。上次地震至今的平静时间已接近古地震的平均重现间隔,因而具有高度的地震危险性  相似文献   

由环境应力值寻找地震危险区的尝试   总被引：3，自引：4，他引：3  

陈培善  陈海通 《地震地磁观测与研究》1992,(6)

作者根据位错理论,采用二维矩形破裂模式,在导出了平均震源速度谱的基础上,导出了用地震波计算环境剪应力τ_0的公式。计算了1987—1991年中国和邻区大约1000多次4级以上中强地震的环境剪应力值τ_0,并把τ_0≥10MPa的地震看作是高剪应力值地震。自1987—1991年5年内,我国及邻区共发生M_s≥6.0的强震45次,和160余次高剪应力中强地震(M=4.0-5.0,τ_0≥10MPa),大约有1/4的强震和1/3的高应力值地震发生在台湾地区。说明台湾地区是一个高地震活动区和高应力值地区。新疆的喀什—乌恰—乌什地区也是高地震活动区和高应力值地区。我们对发生在其地区的强震,向前追溯了环境应力值τ_0的变化。发现有11个强震事件(约占全部事件80%)在震前1—5年内,在以强震为圆心,半径为200km范围内(个别略远),均有1—2个或多个高应力值地震出现。说明当高应力值地震发生时,该地区环境应力在增高,它可以作为将要发生强震的前兆。据此,推测了今后3年内大陆强震发生的可能地区是:①中印缅三国边境地区;②西藏波密地区;③青海北部到宁夏北部地区;④新疆伊宁地区;⑤纵贯新青藏90°E±2°线地带;⑥晋北忻州地区;⑦苏北及黄海地区;⑧山东长岛地区。  相似文献   

伸展地区铲式正断层作用及其大地测量观测   总被引：1，自引：1，他引：1  

桂Kun长 《地质论评》1993,39(3):196-204

铲式正断层作用是伸展构造区最主要的构造运动形式。本文根据铲式正断层作用的几何学、运动学特征,结合华北平原伸展区大地测量观测成果,探讨伸展区构造形变铲式正断层现今活动的地表形变效应及其动态特征。  相似文献   

阳原盆地化稍营地区断层主要活动时期的研究     

唐汉军  刘行松 《华北地震科学》1993,11(2):35-44

研究一个地区断层主要活动时期是了解地壳构造运动或断层发育历史的基础。本文仍沿用了传统研究法,并将同位素法和石英形貌法测年与显微构造分析法引进到研究断层主要活动时期的工作中,取得了能相互映正的结果,最后确定阳原盆地化稍营地区的断层经历过:元古代前;燕山期;6～9千万年;上新世——早更新世和最后一次较强烈活动在20—30万年以前等五次主要活动时期。  相似文献   

Tectonic implications of damage zone-related fault-fracture networks revealed in drill core through the Nojima fault, Japan   总被引：1，自引：0，他引：1  

Aiming Lin  Tadashi Maruyama  Kenta Kobayashi 《Tectonophysics》2007,443(3-4):161

1800 m of drill core through the Nojima fault zone, Japan, reveals subsidiary fault and fracture networks that developed in the fault zone that triggered the 1995 Ms 7.2 Kobe earthquake. The subsidiary fault zones contain a fault gouge of < 1 cm bounded by thin zones of foliated cataclasite or breccia. Fractures are filled with calcite veins, calcite-cemented breccias, clay, and iron-oxide and carbonate alternation of the granitic host rock. These features are typical of extensional fractures that form the conduit network for fluid flux close to a major fault zone. The zone of distributed deformation surrounding the main fault is 50 m in width, and the dip of the Nojima fault at > 1 km depth is 75°. The fault-fracture networks associated with the Nojima fault zone are coseismic and were filled with carbonate and fine-grained material during repeated seismic-related infiltration of the fault zone by carbonate-bearing subsurface water. This study shows that fault-related fracture networks plays an important role as fluid flow conduits within seismically active faults, and can change in character from zones of high permeability to low permeability due to cementation and/or pore collapse.  相似文献   

Simulation of seismicity due to fluid migration in a fault zone   总被引：5，自引：0，他引：5  

Teruo Yamashita 《Geophysical Journal International》1998,132(3):674-686

Spatio-temporal variation of rupture activity is modelled assuming fluid migration in a narrow, porous fault zone formed along a vertical strike-slip fault in a semi-infinite elastic medium. The principle of the effective stress coupled to the Coulomb failure criterion introduces mechanical coupling between fault slip and the pore fluid. The fluid is assumed to flow out of a localized high-pressure fluid compartment in the fault at the onset of earthquake rupture. The duration of the earthquake sequence is assumed to be much shorter than the recurrence period of characteristic events on the fault. Both an earthquake swarm and a foreshock–main-shock sequence can be simulated by changing the relative magnitudes of the initial tectonic stress, pore fluid pressure, fracture strength and so on. When an inhomogeneity is introduced into the spatial distribution of fracture strength, high complexity is observed in the spatio-temporal variation of rupture activity. For example, the time interval between two successive events is highly irregular, and a relatively long quiescence of activity is sometimes observed in a foreshock–main-shock sequence. The quiescence is caused by the temporary arresting of rupture extension, due to an encounter with fault segments having locally high strengths. The frequency–magnitude statistics of intermediate-size events obey the Gutenberg–Richter relation. The calculations show the temporal variation of the b value during some foreshock sequences, and the degree of the change seems to depend on the statistical distribution of the fracture strength.  相似文献   

A note on the relationship between dip-slip fault parameters and plate parameters in the two-dimensional modelling of preseismic deformation     

Sarva Jit Singh  Mahabir Singh 《Journal of Earth System Science》1998,107(2):155-160

Preseismic lithospheric deformation at a subduction zone can be modelled as dip-slip dislocation on an inclined fault or as flexure of a thin plate. Both these models predict a region of positive topography known as forebulge or outer rise. By matching the location and the magnitude of the forebulge, we derive useful relations between the dip-slip fault parameters and the plate parameters. In particular, we determine the width of a long dip-slip fault of given dip corresponding to a semi-infinite plate of given thickness. The displacement profiles of the two models are also compared.  相似文献   

Mineralogy and physical nature of clay gouge     

Francis T. Wu 《Pure and Applied Geophysics》1978,116(4-5):655-689

Fault gouges have been observed in the surface outcrops, in shallow excavations, and in deep (300 meters below the surface) tunnels and mines in fault zones. The 2-microns fractions in these fault gouges may compose a few percent to more than fifty percent of the total mass in the outcrops, and the mineralogy of the 2-microns fractions consists of a variety of clays (the common ones are montmorillonite, illite, kaolinite, chlorite, vermiculite and mixed-layer clays) and some quartz, feldspars, etc.Although we cannot yet conclude directly from the studies of gouges that similar gouges exist at depths where many large shallow earthquakes are generated, there is a strong possibility that they do, based on (1) available equilibrium data on various clays — for example, kaolinite has been found to exist at 4 kb and 375°C (±15°C) (Thompson, 1970) and montmorillonite + kaolite has been found to exist at 450°C and 4 kb (Velde, 1969); (2) the compatibility of laboratory velocity data in gouge (Wang et al., 1977) with those in a model for central California (Healy andPeake, 1975); (3) the capability of clays to undergo sudden earthquake-like displacements (Summers andByerlee, 1977); (4) the petrology of intrafault cataclastic rocks in old fault zones (Kasza, 1977); and (5) the compatibility of gouge mineralogy with the mineralogy of hydrothermal clay deposits.If clay gouges are indeed significant components of the fault zone at depth, then the mechanical properties of clays under confining pressures up to 4 kb are important in the behavior of faults. Very few experiments have been performed under such high pressures. But from the physical makeup of clays, we can infer that (1) the range of possible behavior includes stable sliding with vermiculite and montmorillonite (asByerlee andSummers, 1977, have proven) to stick-slip-like behavior with kaolinite, chlorite, etc.; (2) the absence or presence of water will greatly affect the strengths of gouges — it is possible that water may reduce the strength of gouge to a fairly small value.  相似文献