数字化地形变资料异常形态与地震

针对近几年马陵山地震台的数字化地形变资料,参照台站仪器工作日志,排除了人为干扰、气象因素等台站已知干扰因素,通过综合分析总结了本台数字化地形变日值分钟值曲线在震前出现的几种异常图象.     

Study on scale dependence of strain value obtained from crustal deformation data

IntroductionIn order to make full use of many kinds of cruStal deformation data to establish dynamic pictUres of crustal strain field, it is necessary to do unified treatment using different types of observation data, and it is not difficult in the respect of models (JIANG, et al, 1999). BUt strsin valuescomputed from different kinds of dare have obvious difference of orders of magnitude, for example, the strain value of small figure compUtation of mobile observation is generally 10', bUt …     

Three-dimensional structure of inclined sheet swarms: Implications for crustal thickening and subsidence in the volcanic rift zones of Iceland

Inward-dipping (cone) sheet swarms and an associated central volcano are well-exposed in the deeply-eroded Tertiary crust of Vatnsdalur, Skagi Peninsula region, northern Iceland. Spatially registered orientations of 389 mafic sheets, mapped in three distinct sheet swarms define both the overall shape and magmatic source of each swarm. The Vatnsdalur sheet swarms consist of planar inward-dipping sheets that collectively define a conical shape rather than a bowl- or trumpet-shape as have been found in swarms in other locations. In the best exposed swarm, three-dimensional projection of mafic sheets into the subsurface defines two distinct foci, which are interpreted as the magmatic sources of two temporally distinct sub-swarms. These results help to establish the influence of inclined sheet intrusion on crustal accretion at central volcanoes. The geometry of the swarm constrains the thickness of material that was added to the crust during sheet intrusion. When combined with estimates of surface relief, we calculate that 2.2 to 4.1 km of subsidence were required beneath the central volcano in order to accommodate the intrusion of the sheet swarm. Similar processes of crustal thickening and subsidence likely occur in a wide variety of both continental rift and mid-ocean ridge systems where magmatic activity is focused at central volcanoes.     

形变数字化资料对邢台地区地震前兆反应的研究

使用张家口、怀来、赤城、宽城、易县和涉县6个台站共计43个测项的数字化资料,针对2002~2005年邢台地区发生的3个M>4级的中强地震,进行了地震前兆和同震反应研究。发现我省数字化形变资料对3次邢台4级以上地震的形变前兆反应主要是以应变为主,包括体应变和线应变,并且异常形态以固体潮畸变和抖动为主。同震反应比较明显,主要以同震阶跃为主。     

1987年1月8日甘肃迭部5.9级地震与地形变特征

根据１９８７年１月８日甘肃迭部５．９级地震前，该区域的地壳形变中长期背景和定点台站连续观测资料的震反应异常，分析研究了这此异常的变化特征。     

海底地壳形变监测现状与启示

海底地壳形变监测对研究洋中脊扩展、火山、海洋板块运动及俯冲带地震活动等具有重要作用,其中GNSS定位与声呐测距技术（GNSS-A）是海底地壳形变监测的主要手段,经过30多年的发展,目前GNSS-A的精度达亚厘米级,可以满足很多海底构造形变的监测需求.我国虽然在大陆地壳形变监测与研究方面已达到国际水平,但在海底地壳形变监测方面与国外相比还存在一定差距,我国海岸线长达3.2万公里,沿海地区的大型活动断裂具有发生大震的风险,如横穿渤海的郯庐断裂带、东南沿海的滨海断裂带都曾发生过大震,因此开展海底地壳形变监测及相关研究势在必行.本文基于GNSS-A的系统组成与工作原理,在总结国内外研究现状的基础上,梳理了关键技术,并结合我国沿海主要活动断裂与地震活动性特点,提出了我国利用GNSS-A技术开展海底地壳形变监测的建议.

     

山西断裂带的地震活动与形变资料分析研究

用地震活动性和水平形变资料及定点地倾斜资料分析构造活动中岩层物理变化与形变位移之间对应关系,对以后GPS观测的形变应用于地震预报做一些尝试性工作。结果表明,GPS资料应用于地震预报是大有前途的。     

Characteristics of crustal strain associated with M=6.4 Baotou earthquake in 1996

Introduction Since the 1990s, GPS technique has been widely used in the crustal deformation measurement in China, which has promoted the development in geodynamic study. More and more attentions have been paid to GPS data in the study on crustal movement by the vast geoscientists and many significant results have been achieved (HUANG, et al, 1996; LI, et al, 1998; GUO, 2000). The North China is one of the areas to establish GPS monitoring networks earlier in China. After the establis…     

Field of vertical crustal deformation in North China and the feature of its dynamic evolution

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Characteristics of crustal strain associated with M =6.4 Baotou earthquake in 1996

Based on the horizontal crustal strain derived from GPS data and the rate accumulation intensity calculated from across-fault vertical deformation, the strain characteristics in the periods of 1992–1995, 1995–1996 and 1996–1999 in Baotou-Datong area is studied in the paper. From the comparison between the crustal strains before and after the M=6.4 Baotou earthquake occurred on May 3, 1996, it is considered that the high-magnitude area with predominant compressive strain might be the seismogenic zone for a coming strong earthquake. The area with the simultaneous higher surface strain, principal compressive strain, shear strain and tendency accumulation might be the place with higher risk of strong earthquakes. Generally, the area with low strain and predominant tensile strain might have a small possibility for strong earthquake development, which belongs to a stable area. The evolution of horizontal strain obtained from GPS measurements carried out in Baotou-Datong area in the period of 1992–1999 reflects the total developing and ending processes of the seismic episode from 1996 to 1998. The area with high and predominant compressive strain and the strain gradient zone can be considered as one of the indicators for determining the strong earthquake risk area in the future. Foundation item: State Key Basic Research Development and Programming Project (G19998040700) and State Natural Science Foundation of China (40174029).     

震后短期和长期形变模拟——以1960年智利Mw9.5地震为例

以1960年5月智利瓦尔迪维亚(Valdivia)Mw9.5地震为例分析震后不同时期的形变,实现了以Burgers体为粘弹介质模型来模拟震后粘弹松弛效应有限元数值模拟.计算结果表明,该粘弹介质模型可以模拟地震引起的瞬时同震弹性响应及震后粘弹松弛的短期和长期响应.由1960智利Mw9.5地震震后模拟的应变率显示以Burgers体为粘弹介质模型可以解决Maxwell体在模拟震后短期和长期形变不协调问题.     

Present-day seismicity,stress field and crustal deformation of Egypt

In this study we investigate present-day seismicity and crustal deformation of Egypt based on a comprehensive earthquake catalog from 1900 to 2004 by focal mechanism stress inversion and by recent GPS observations. Spatial distribution of earthquake epicenters indicates that Egypt has been suffered from both interplate and intraplate earthquakes. Most earthquake activity (more than 70%) has been concentrated in northern Egypt along the geologically documented borders of Sinai subplate (northern Red Sea and its two branches Suez rift and Aqaba–Dead Sea transform). The majority of inland earthquake focal mechanisms in Egypt are normal with strike-slip component or strike-slip faulting events. Only a small minority, namely four events, exhibits reverse faulting. The inversion method of Gephart and Forsyth (1984) was applied to calculate the orientation of the principle stress axes and the shape of the stress tensor. The best fitting tensor in Egypt shows homogeneity stress field. The tension stress regime is dominant in northern Egypt. The stress directions are well resolved by the 95% confidence limits, the relative stress magnitude has a value of about 0.3. However, along southern Egypt the strike-slip regime is dominant. The shape factor (R-value) is 0.5, which means that the deviatoric components of σ₁ and σ₃ are of the same magnitude, but of opposite signs. The average horizontal velocity of GPS stations in Egypt is 5.15± 1.1 mm/year in mostly NNW direction. The results of deformation analysis indicate that the northern Egypt is deformed more than the southern part. Only the Egyptian-Mediterranean coastal–Nile Delta zone dominates as a compression deformation area. However, an extensional deformation has been observed throughout the rest of country. This means that the relative motion of African plate with respect to both Eurasian and Arabian has highly controlled the deformation processes in Egypt.     

Modeling transient and long-term postseis-mic deformation: A case study of 1995 M_w9.5 Chile earthquake

In this paper, we firstly use finite element method (FEM) with Burgers model to simulate the postseismic viscoe-lastic relaxation taking 1960 Chile earthquake as an example. The postseismic deformation modeled with Burgers model includes co-seismic deformation, transient postseismic deformation and long-term postseismic deformation. So if we apply Burgers model to calculate postseismic deformation of 1960 Chile earthquake, there is no discrep-ancy phenomenon due to different durations of postseismic deforma...     

Precursory seismic crustal deformation in the area of southern Albanides

On the basis of growing evidence thatstrong earthquakes are preceded by a periodof accelerating seismicity of moderatemagnitude earthquakes, an attempt is madeto search for such seismicity pattern in NWAegean area. Accelerating seismic crustaldeformation has been identified in the areaof southern Albanides mountain range(border region between Greece, formerYugoslavia and Albania). Based on certainproperties of this activity and on itssimilarity with accelerating seismicdeformation observed before a strongearthquake which occurred in the sameregion on 26 May 1960 (M = 6.5), we canconclude that a similar earthquake may begenerated in the same region during thenext few years. This conclusion is inagreement with independent results whichhave been derived on the basis of the timepredictable model.     

定点地形变仪的标定问题

地形变仪器常用的标定方法可分两类:一类是间接标定法,它通过测定仪器的某几个参数而计算出仪器的格值,由于换算环节多,容易引进系统误差;另一类是直接标定法,它通过给出的一个已知物理量与仪器的输出信号对比来标定仪器的格值,此种方法精确度高,重复性强。大多数地形变仪可以用直接法标定,本文还介绍了用直接法对水平摆倾斜仪和浮子水管倾斜仪的标定。     

滇西地区GPS时间序列中陆地水载荷形变干扰的GRACE分辨与剔除

利用“中国大陆构造环境监测网络”在云南西部地区的13个连续GPS观测站和法国空间大地测量研究组Space Geodesy Research Group）的GRACE时变重力场资料,定量分析了该区域陆地水载荷所产生的非构造形变的量值和变化特点,探讨了利用GRACE分辨和剔除GPS观测中陆地水负荷所引起的非构造形变干扰的依据和模型.结果表明：滇西地区GPS坐标变化时间序列的垂向分量中,普遍包含有明显的年周期非构造形变波动,高值可达12mm,其中约42%源于陆地水迁徙变化所引起的负荷形变;通过主成份分析方法所获取的区域GPS共模误差与GRACE陆地水载荷形变序列的相关性高达0.87,若以GRACE扣除陆地水负荷形变,则滇西地区GPS网共模误差可消除约64%,且物理机制明确.然而,由于目前的GRACE只能有效分辨大约400km范围内陆地水载荷的整体变化,所以对于各GPS站点更加局部化的陆地水负荷非构造形变干扰,尚无法进行有效分辨.     

云南鲁甸5.6级地震与跨断层形变异常

简单介绍2004年8月10日云南省鲁甸5.6级地震发生的时间、地点、震级及灾害情况。回顾了四川省地震局测绘工程院利用跨断层地壳形变资料对该地震的预测预报过程。思考利用跨断层地壳形变资料在预测预报中强地震中存在的问题,寻求理想的中强地震预测方法。     

Modeling transient and long-term postseismic deformation: A case study of 1995 M W9.5 Chile earthquake

In this paper, we firstly use finite element method (FEM) with Burgers model to simulate the postseismic viscoe-lastic relaxation taking 1960 Chile earthquake as an example. The postseismic deformation modeled with Burgers model includes co-seismic deformation, transient postseismic deformation and long-term postseismic deformation. So if we apply Burgers model to calculate postseismic deformation of 1960 Chile earthquake, there is no discrep-ancy phenomenon due to different durations of postseismic deformations that happens in Maxwell model.     

青藏高原东南缘地壳结构与变形机制研究进展

新生代青藏高原的隆升改变了整个亚洲的构造格局,对气候、环境均产生了重要的影响,但高原的隆升扩展机制众说纷纭.青藏高原东南缘作为扩展前缘,其构造演化对了解整个高原的扩展机制具有重要的意义.本文总结了近年来对青藏高原东南缘地壳结构研究的最新进展,特别是2011年中国地震科学探测台阵计划开展以来,利用密集地震台阵取得的新成果,探讨了青藏高原东南缘地壳的结构与变形机制.这些研究发现青藏高原的地壳由高原向外围减薄,但在高原边界断裂附近存在地壳厚度突变带;下地壳中存在两个独立的低速异常,一个位于松潘—甘孜块体下方,被高原的边界断裂所围限,另一个位于小江断裂带下方,呈NE-SW向展布.我们认为青藏高原东南缘下地壳物质被边界(丽江—小金河)断裂所围限,并没有继续向边缘流出,但是地壳挤出产生的应力作用继续向东南方向传递,造成了小江断裂带附近的地壳变形.     

The crustal structures of the central Longmenshan along and its margins as related to the seismotectonics of the 2008 Wenchuan Earthquake

In 2010, a 500-km-long wide-angle reflection/refraction seismic profile was completed, running northwest from the central Sichuan Basin. This profile orthogonally crosses the meizoseismal area of great Wenchuan earthquake of 12 May 2008, which occurred in the central part of the Longmenshan. The profile also passes through the northwestern Sichuan Plateau, along which a new deep seismic sounding observation system was set up that was much improved over previous datasets and enabled abundant observations to be recorded. Seismic wave phase records that reflect the structural characteristics of different tectonic blocks, especially the complicated phase features associated with the Wenchuan earthquake, were calculated and analyzed in detail. A 2D crustal P-wave velocity model for the orogenic belt in the central Longmenshan and its margins was determined, and crustal structure differences between the stable Sichuan Basin and the thickened northwestern Sichuan Plateau were characterized. Lithological variations within the upper and lower crust in the interior of the plateau, especially a great velocity decrease and plastic rheological properties associated with strong lithologic weakening in lower crust, were detected. From west to east in the lower crust beneath the orogenic belt lying between the Sichuan Basin and the northwestern Sichuan Plateau, a giant shovel-like upwelling is observed that dips gently in the lower part and at higher angles in the upper part; this is inferred to be related to the fault systems in the central Longmenshan. An upwelling in the upper-middle crust along the eastern margin of the orogenic belt is associated with steeply dipping thrusts that strongly uplift the upper crust and crystalline basement beneath a central fault system in the Longmenshan. The data, combined with an understanding of the regional tectonic stress field and previous geological results, enable a discussion of basin-and-range coupling, orogenic tectonics, the crustal fault system, and the seismogenic tectonic environment of the central Longmenshan along the eastern margin of the Qinghai-Tibet Plateau.