Research on the Seismic Vulnerability of Building Structure in Sichuan Province

Research on the seismic vulnerability of building structures is very important for the work of earthquake disaster preparedness and mitigation.On the basis of the related studies over a long time,this paper provides several seismic vulnerability matrices of building structure in different regions of Sichuan Province,Poor anti-seismic capability is one of the factors resulting in the earthquake disasters in the past.We can reduce economic losses caused by earthquake through improving the anti-seismic and prevention level of building structures in Sichuan Province.     

Study on Active Faults and Seismogenic Structure for the 1989 Batang M6.2 ～ 6.7 Earthquake Swarm in the Litang-Batang Region of West Sichuan, China

INTRODUCTIONGeological investigations since the1970s have shown that the sub_longitudinal Jinshajiang andHonghe(Red River)fault zones constitutethe western boundary of“Rhombic Sichuan_Yunnan Block”onthe Sichuan_Tibet border and display mainly dextral sh…     

Re-discussion on the Jiaochang Arcuate Structure, Sichuan Province, and the Seismogenic Structure for Diexi Earthquake in 1933

The Jiaochang arcuate structure is one of the numerous arcuate structural belts in Sichuan. The present paper gives a further argument about the characteristics of that arcuate structure and the new activity of the Songpinggou fault and affirms that the Songpinggou fault is an active fault in the Holocene epoch. The Diexi M7.5 earthquake took place in 1933 on the west wing of that arcuate structure, near the apex of the arc. Many authors have given quite different opinions about the genetic structure of that earthquake. The authors have made on-the-spot investigations time and again over recent years. Besides this, the authors have also further studied the shape of intensity contour lines, the distribution characteristics of ground surface seismic hazards, the left-lateral dislocation of buildings along the Songpinggou fault, the NWtrending ground fissures that developed on the ground surface after earthquake, and so on. On this basis, it is still considered that the seismogenic fault of the 1933 Diexi M7.5 earthquake was the Songpinggou fault on the west wing of the Jiaochang arcuate structure.     

On Epicentral Location of the 1216 Mahu Earthquake in Leibo County, Sichuan Province

A query regarding the now commonly accepted epicentral location of the 1216 Mahu earthquake in Leibo County, Sichuan Province is proposed after examination of local historical records of earthquakes, field investigation of the Mahu barrier lake, study of geological environment for the earthquake and the available data then a relocation of the earthquake epicenter is suggested in the paper.     

A Study on the Tectonic Characteristics of Shallow Faults in the East of Zhengzhou City

Study on fault activity is a fundamental part of earthquake prediction and earthquake relief in big cities.In the active fault exploration in Zhengzhou,the spatial distribution,geological features and activity of the Huayuankou fault,the Shangjie fault and the Xushui fault were determined using the seismic prospecting method.New understanding about the characteristics of the faults was gained.This provides reliable basic data for future earthquake forecast and earthquake relief work in Zhengzhou.In addition,we proposed some ways to identify fault activity through analyzing the characteristics of the activity of a fault and raised an effective method for exploring active faults in big cities and exploring concealed faults in regions covered with thick overburdens.     

A Preliminary Study on the New Activity Features of the Lajishan Mountain Fault Zone in Qinghai Province

INTRODUCTIONThe Lajishan Mountainlies onthe northeastern margin of Qinghai_Xizang(Tibet)plateau.It is ageomorphic gradient zone,separatingthe hinterland of Tibetfromthe Loess plateau.The Lajishanfaultis a product of Caledonian movement,havingexperienced m…     

Study on a gravity precursor mode of the Ms=7.0 Lijiang earthquake

To study the seismogeny process or the precursory behavior of the 1976Ms=7.0 Lijiang earthquake,we analyze the repeat gravity data with high precision from the Westem Yunnan Earthquake Prediction Experiment Area(WYEPEA)and the relted results of geology and geophysics survey in this paper.Considering the gross errors caused by observation data and model difference,we have firstly inverted the slip distribution of the main active faults with time based on the robust Bayesian least squares estimation and multi-fault dislocation model.The re-sults show that the slip changes of the faults with time from 1990to 1997obviously reflect the preparation process of the Lijiang earthquake.The images of main precursor mode have the characteristic of main shock-after shock type,which is agreement to the model of coupling movement tetween crust density and crust deformation(DD mode of coupling movement).     

Elementary Research on Activity Behavior of the Crust in Funan-Huoqiu Area, Southern Border of the North China Active Block Region

1.ESSENTIAL GEOLOGIC GEOMORPHIC CHARACTERIN THE STUDIDED REGIONThe studied region of the paper,the Funan-Huoqiu area,extends across the Jianghuai hills andHuaibei plain of Anhui Province,located in the south border area of the North China active blockregi…     

Tomographic investigation of the upper crustal structure and seismotectonic envi—ronments in Yunnan Province

Investigation has been made for the upper crust structure and seismotectionic environments in Yunnan Province using the plentiful DSS data of the four profiles.The derived velocity model has a good relationship with the ex-posed basins,uplifts and faults.The low velocity anomaly corresponding to the volcano also has been revealed.There exits a prominent lateral inhomogeneity within the upper crust of Yunnan region.The depth of crystalline basement generally ranges from 0km to 5km,and the bedrocks are exposed on the ground directly in some places,nevertheless the thickness of sedimentary cover also can reack to 8km or even 12km at some targe depressions.Although the Changning-Shuangjiang fault is a boundary between two first class tectonic units,its incision depth within the crust maybe shallow.On the other hand,known as the plates‘seam,the Honghe fault has a distinct evi-dence of extending into the mid-lower crust.The widely spread activity of the volcanoes in the geological era has a close relationship with the earthquake‘s occurrence nowadays.Despite of the ceasing of the volcanoes in some places on the ground,the material in the mid-lower crst is still active,and there still exists strong upward stress-As the ceasing of the volcanoes on the surface,most parts of the power from the lower crust and the upper mantle cannot be released;therefore it accumulates at some appropriate tectonic locations.Moreover,the saturation of the water from the basin,the action of other fluids,and the effects of the outer stress maybe another direct reason ac-count for the strong earthquakes‘occurrence in Yunnan region.     

Analysis of Geological Background of Seismic Activity in the Chengdu Plain from Data of Seismic Prospecting for Oil

Summarizing the existing data of seismological and geological investigations and of strong and intermediate-strong earthquakes in‘ the Sichuan basin and its adjacent areas accumulated by the seismological and petroleum organizations in Sichuan and of the results of seismic prospecting and detailed exploration in Chengdu depression during the last 20 years permitted us to studythe types and distribution of hidden structures in Chengdu depression and its adjacent areas, in particular, to identify in, detail the “hidden faults” in the Chenngdu-Deyang area on the one hand; The obtained data indicate that the NE-trending Xinjin fault ruus northward and dies out in the south of Penzhen town of Shuangliu County; Meanwhile, we studied genetic relations of seismic activity to active faults and their corresponding movernent charaeteristics on the other hand, Moreover, the Surface faults and deep-seated faults are clearly defined and outlined,and 5 types of seismogenic faults suggestd. The knowledge thus obtained enables us to delimit the focal zones for potential strong earthquakes in Chengdu depression. The study suggests that a zone of 40 km wide and more than 100 km long on sides along the Chengu Deyang lim bas a stable seismogeological background and good engineering-seismological conditions.     

Changes in source parameters of foreshocks and aftershocks of the 2001 Ms=6.0 Yajiang,Sichuan, earthquake

In this paper changes in focal mechanisms) parameters of wave spectra, and stress drops for the Ms=5.0 forcshock and Ms=6.0 mainshock in February 2001 in Yajiang County, Sichuan, and seismicity in cpiccntral region are studied. Comparison of focal mechanisms for the Yajiang earthquakes with distribution patterns of aftcrshocks, the nodal plane Ⅰ, striking in the direction of NEN, of the Yajiang M=5.0 event is chosen as the faulting plane, the nodal plane Ⅱ, striking in the direction of WNW, of the M=6.0 event as the faulting plane. The strikes of the two faulting planes are nearly perpendicular to each other. The level of stress drops in the cpicentral region before the occurrence of the M=6.0 earthquake increases, which is consistent with increase of seismicity in the epicentral region. The rate decay of the Yajiang earthquake sequence, changes in wave spectra for foreshocks and aftershocks,and focal mechanisms are complex.     

Research on the 3—D Seismic Structures in Qinghai—Xizang Plateau

Based on the recording data from the analogue and broadband digital seismic stations in and around Qinghai-Xizang (Tibet)Platean,the three dimensiomal 3-D) seismic velocity stroctures in Qinghai-Xizang Plateau were obtained by using the regional body wave tomography and surface wave tomography.The results from these two tomography methods have similar characteristics for P-and S-wave velocity structures in crust and upper mantle.They show that there are remarkahle low velocity zones in the upper crust of L hasa block in the southern Qinghai-Xizang Plateau and the lower crust and upper mantle of Qiangtang block in the northern Qinghai-Xizang Plateau.These phenomena may be related to the different steps of collision process in southern and northern Qinghai-Xizang Plateau.     

Faulting on the Anninghe fault zone, Southwest China in Late Quaternary and its movement model

The Anninghe fault is one of the significant earthquake-generating fault zones in the Southwest China. Local his-torical record shows that a M≥7 strong earthquake occurred in the year of 1536. On the basis of the detailed air-photographic interpretation and field investigation, we have acquired the following knowledge: 1 The average sinistral strike-slip rate since the Late Pleistocene is about 3~7 mm/a; 2 There is important reverse faulting along the fault zone besides the main left-lateral strike-slip motion, and the shortening rate across the Anninghe fault zone due to the reverse faulting is about 1.7~4.0 mm/a. If the Xianshuihe fault zone is simply partitioned into the Anninghe and Daliangshan faults, we can also get a slip rate of 3~7 mm/a along the Daliangshan fault zone, which is the same as that on the Anninghe fault zone. Moreover, on the basis of our field investigation and the latest knowledge concerning the active tectonics of Tibetan crust, we create a dynamic model for the Anninghe fault zone.     

A Study on Shear Wave Splitting for the Sequence of the Aftershocks of the Yao''''an M_S6.5 Earthquake in Yunnan Province

INTRODUCTIONS wavesplittingisnotonlystudiedintheory,buthasalsobeenthesubjectofalotoffieldobser vationsandcomputersimulationsinceCrampin (1978)raisedtheExtensiveDilatancyAnisotropy(EDA) .Thoseinvestigationstriedtotestifythecorrectnessofthehypothesis,namelythatthevertical lyparallelcracksappliedunderthestresshaveeffectiveanisotropy,whichcanresultinshearwavesplitting.Sincethe 1980s,thedigitalseismometerwithbroadbandandhighaccuracyhasbeenusedwidelyinseismicobservations,andtheprocessingtechn…     

Magnetostratigraphic and paleoclimatic studies on the Red Earth Formation from the Chengdu Plain in Sichuan Province,China

Two red earth sections from the Chengdu Plain in Sichuan Province are dated using geomagnetic methods. The Brunhes/Matuyama (B/M) reversal boundary is recognized within the upper parts of the two sections,and the Jaramillo normal subzone occurs in the middle-lower parts of the vermiculated red soil (VRS),which indicate that the parent material for the VRS deposited in the middle Quaternary. Sedimentologic and geochemical studies suggest that the Chengdu Clay and part of the parent material for the VRS are of aeolian origin. Pollen analysis indicates that the Chengdu Plain was mainly covered by needle-leaved forest with a cool to cool temperate humid climate when the parent material for the VRS deposited. The relatively cool to cool temperate climatic condition in the Chengdu Plain in the middle Quaternary,which may be caused by the uplift of the Tibetan Plateau,was a response to the geo-environmental changes of global significance.     

Preliminary Study on Paleoearthquake Chronology on the Northern Liulengshan Piedmont Fault in Yangyuan, Hebei Province, China

The northern Liulengshan piedmont fault is located along the southern margin of the Yangyuan basin and represents a dip-slip normal fault,generally NEE-trending and NNW-dipping.Landforms offset by the fault are fairly developed and well preserved in the Dushanpu area of Yangyuan County,Hebei Province.Two trenches were excavated in front of a scarp of the northern Liulengshan piedmont fault at Dushanpu and two paleoseismic events were revealed in the trenches,from which several samples were collected for dating.The samples were dated using the IRSL dating technique.The preliminary result shows the possible ages of the two paleoseismic events.     

Study on the Relationship Between Recent Crustal Deformation and the Temporal-Spatial Distribution of Strong Earthquakes ( Ms ≥6.0) in the Sichuan-Yunnan Region

Analysis of deformation data measured across the faults, regional vertical deformation data and GPS measurements in the Sichuan-Yunnan region made since the 1980s permitted us to conclude that the crustal deformation in the region during this period of time was relatively weak and caused the occurrence of earthquakes (Ms≥6.0), which were not distributed along the major boundary active faults in the region after the 1981 I)awu Ms 6.9 earthquake and that the seismic activity is characterized by quasi-clockwise migration. Thus, it follows that earthquake prediction research should be focused on the central part of the Sichuan-Yunnan region in the coming years. Finally, a concept of temporal division of the region into active blocks is suggested and the preliminary result of the division is given in the paper.