新丰江地震震源机制解及构造应力场

本文根据新丰江无线遥测台网1983年10月1日——1987年4月30日165次小震中的83次8个子台都记录到的 P 波初动资料,按 P 波初动的异同,划分出37个类型,把相同类型叠加作成震源机制解且归为5个大类.根据5个大类的各应力轴及节面的特征来讨论本区的现今构造应力场.显然,与前人认识是不同的,与笔者1981年提出的结果类似,但更显示了以南北向挤压为特征的构造应力场.      

The techniques of inverse for tectonic stress field in Chao-Shan area using data of sliding faults

The neotectonic stress field in Chao-Shan area is analyzed with the fault striation analysis method. At least four types of stress states are detected, which are in close connection with their locations relative to the basin. Generally, from the subsidence centres to places far from them, horizontal tectonic stress varies from tensile to compressive. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,14, 36–41, 1992.     

Characteristics of recent tectonic stress field in Jiashi, Xinjiang and adjacent regions

Introduction The Pamirs region where Jiashi is located is one of the most active regions of continental plate dynamics in China. Frequent earthquakes here, especially several strong earthquakes oc- curred in 1997 and 2003, have provided excellent conditions for studying the tectonic stress field in this region and a large number of results (GAO and WEN, 2000; GAO et al, 2004; XU, 2001; ZHOU et al, 2001) have been obtained. Although different methods and data were used, under- standings …     

The possible changes of tectonic stress fields in North China in 16–17th centuries

The ancient tectonic stress field in North China during 16–17th centuries were recovered by studying seismogenic faults of four great earthquakes. Three of them are dip slip events, the direction of the maximum principal stress is vertical, and that of the minimum principal stress is in the NW—SE direction and nearly horizontal tensile stress. Another earthquake is a complicated one which includes thrust and dip-slip activities. The above-stated character is quite different from that of present stress field, it is inferred that the stress field has significantly changed since 16th century, the main stress axis revolved an angle of 90 degrees nearly. The mantle upheaval in the faulted basins in North China during 16–17th centuries may cause the tensile stress field and a series of great earthquakes. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,14, 144–148, 1992.     

Basic characteristics of recent tectonic stress field in southwest China

Direction and structure characteristics of 58 tectonic stress tensors have been determined in 41 surveyed areas (points) in the southwestern district of China through a calculation method for inversion of tectonic stress tensors from sliding direction of faults, and, in combination with seismic mechanism solution andin-situ stress measurements, the following characteristics of the recent tectonic stress fields in the southwestern district of China have been defined: (1) the stress fields in this district have remained stable since the end of early to mid-Pleistocene; (2) the effect of such tectonic stresses is mainly horizontal; (3) the orientation of the maximum principal stress axis shows a trend of regular rotation from north to south, i. e. from NEE-SWW in northern Songpan and Longmen Shan areas to sub-EW in the central part of western Sichuan, and further to NNW-SWW or sub-SN in Yunnan; (4) the regional tectonic stress fields are of distinct division character; (5) there is well concordance between the main direction and type of stress structures in the stress tate both in deep and shallow parts of the crust. In addition, studies of staged tectonic stress tensors preliminarily show that in early Quaternary the southwestern district was mainly affected by lateral compression of Indian plate, under which the regional tectonic stress fields mainly display NE-sub-EW compression. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,15, 407–417, 1993.     

The stress field in the area from the west of Beijing to the Shanxi-Hebei-Nei Mongol border region

According to conditions of seismogeological structure and the data on seismicity in the area from the west of Beijing to the Shanxi-Hebei-Nei Mongol border region, the tectonic stress field and the seismic stress field in this area are studied by using the finite element method and the dislocation theory. In the light of the distribution features of these stress fields and the characteristics of recent activity of small earthquakes, it is inferred that there are two relative stress concentration zones in the area, they are (1) the zone which is bounded on the south by the Heishansi fault, on the west by the Niuxinchuan-Sihuizhuang fault and on the north by the Liangjiazhuang fault; and (2) the zone with a NW long axis, which is surrounded by the intersection zone of the Tianzhenbei, Jiucaigou-Huangtugudui, and Zhanggao faults. Of these, in the first relative stress concentration zone, a strong earthquake will be more probable to occur in future to the west of Huailai at the place where the Xiahuayuan, Hunjingdong and Sangganhe faults converge together but do not intersect, or in its surrounding area. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,13, 307–318, 1991. The English version of this paper is improved by Dr. Zhixin Zhao.     

Spatiotemporal distribution of seismic activity in East Asia and its relation to regional stress field

Tectonic forces from the relative movements between plates are transmitted into the continental crust, and then they create the earthquake generating stress field there. The space-time distribution of the seismic activity including the small earthquakes in a region reflects the variation of the stress field in the region. According to this idea, the characteristics of the stress fields in the various regions of East Asia have been analyzed in detail in this paper based on a lot of solutions of focal mechanisms and data of seismic activity during the last 500 years. The results indicate that the tectonic forces from the subduction of the Pacific Ocean plate underneath the Eurasian plate control the stress field in the region from North China to the northern part of the North-South Seismic Belt. The variation of the regional stress field shown by the variation of seismic activity in some regions of Japan has also been discussed based on characteristics of variation of the seimicity of small earthquakes. Synchronous variations of seismicity in the past 100 years or so in West China and in the boundary region between the Indo-Australian and Eurasian plates implicate that there is the transmission of tectonic forces into West China through the collision between the Indo-Australian and Eurasian plates. The active seismic activity in the boundary region between the Indo-Australian and the Eurasian plates and in West China is continuing consistently. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,13, 287–294, 1991.     

Deep mantle flow, global tectonic pattern and the background of seismic stress field in China

In this paper we investigate the sources of two kinds of forces to form the stress field in the lithosphere. These are the drag force caused by mantle flow and the force system along plate boundaries. The results show that both forces control the basic stress pattern in China and compressive stresses can fit with the stress patterns constructed by focal mechanisms,in-situ stress measurements in boreholes and that deduced from other geophysical and geological observation. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,13, 295–306, 1991. This research is sponsored by the Chinese Joint Seismological Science Fundation.     

Recent tectonic stress field zoning in Sichuan-Yunnan region and its dynamic interest

In this paper, we have carefully determined the stress zones in the Sichuan-Yunnan region with reference to the in-situ stress data of hydraulic fracturing and the inverted fault slip data by using the step-by-step convergence method for stress zoning based on focal mechanism solutions. The results indicate that the tectonic stress field in the Sichuan-Yunnan region is divided into 3 stress zones by 2 approximately parallel NNW-trending stress transition belts. The area between the 2 belts is the Sichuan-Yunnan stress zone where the maximum principal stress σ1 is just in the NNW direction. The eastern boundary of Sichuan-Yunnan stress zone （the eastern stress transition belt） is basically consistent with the eastern boundary of Sichuan-Yunnan rhombic block. The western boundary of Sichuan-Yunnan stress zone （the western stress transition belt） is not totally consistent with the western boundary of Sichuan-Yunnan rhombic block. The northern segment of the western stress transition belt extends basically along the Jinshajiang fault and accords with the western boundary of Sichuan-Yunnan rhombic block, while its southern segment does not extend along the southwestern boundary of the rhombic block, i.e., Honghe fault and converge with the eastern stress transition belt, but stretches continuously in the NNW direction and accords with the Yingpanshan fault. We therefore consider that under the combined influence from the northward motion of India Plate, the southeastward shift of east Qinghai-Xizang Plateau and the strong obstruction of South China block, the tectonic stress field in the Sichuan-Yunnan region might not be totally controlled by the previous tectonic frame and new stress transition belt may have possibly formed.     

Inversion of stress field in Guangdong and its adjacent area

We determine the stress field of Guangdong and its adjacent area by using focal mechanism solutions of 137 earthquakes and obtain tectonic stress tensors in 12 zones. The result shows that the azimuth of maximum principal stress σ1 is approximately WNW in southwestern Fujian, southern Jiangxi, Guangdong’s Heyuan and the Pearl River Delta, NW in Guangdong’s Yangjiang, and nearly NNW in the two zones of eastern Guangxi and Beibuwan Gulf (the Northern Gulf), varying clockwise in WNW-NW-NNW from east to west. The azimuth of minimum principal stress σ3 varies from NNE to ENE. The relative magnitude of medium principal stress σ2 (R value), is the smallest in Beibuwan and largest in Longyan of Fujian. Strike-slip faulting is dominated in the study area.     

Mathematical simulation of geotemperature field and thermal stress field in Sanjiang region of Yunnan

By the mathematical simulation of geotemperature field, deep quasi-stable thermal state and shallow thermal characteristics are reproduced in Sanjiang region of Yunnan. Faults are treated in two ways, 1) as constant heat source in terms ofq=μτ, that is, the quantity of frictional generated heat is constant, in order to simulate frictional heat generated by fault moving; 2) as heat conduits with high thermal conductivities to simulate such a phenomenon that there exist thermal fluids (for example, magma) in fault zones during tectonic movement. And then, through the simulation of thermal stress, the quantity (several bars to hundred bars) and the pattern of thermal stress vectors are obtained, which provides a new clue to the explanation and prediction of earthquakes. And larger tensional and shear stresses occur where the variation of geotemperature and the thickness of thermal lithosphere gradient belt. The stresses are concentrated in the temperature gradient belt. The shear belts of studied area are temperature gradient belts where the variation of the lithosphere thickness is larger and deep heat flow is high and thermal stresses concentrated. All of these may explain the facts that most of the earthquakes, hot springs occur along the fault zones. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,15, 313–321, 1993. The study was financially supported by Chinese Natural Sciences Funds Item Ancient Tethys Tectonic Evolution in Western Yunnan and by centre for Remote sensing, Ministry of Metallurgy.     

Characteristics of present-day active strain field of Chinese mainland

On the basis of the GPS data obtained from repeated measurements carried out in 2004 and 2007,the horizontal principal strain of the Chinese mainland is calculated,which shows that the direction of principal compressive strain axis of each subplate is basically consistent with the P-axis of focal mechanism solution and the principal compressive stress axis acquired by geological method.It indicates that the crustal tectonic stress field is relatively stable in regions in a long time.The principal compressive stress axes of Qinghai-Tibet and Xinjiang subplates in the western part of Chinese mainland direct to NS and NNE-SSW,which are controlled by the force from the col-lision of the Eurasia Plate and India Plate.The principal compressive strain axes of Heilongjiang and North China subplates in the eastern part direct to ENE-WSW,which shows that they are subject to the force from the collision and underthrust of the Eurasia Plate to the North America and Pacific plates.At the same time,they are also af-fected by the lateral force from Qinghai-Tibet and Xinjiang subplates.The principal compressive strain axis of South China plate is WNW-ESE,which reflects that it is affected by the force from the collision of Philippine Sea Plate and Eurasia Plate and it is also subject to the lateral force from Qinghai-Tibet subplate.It is apparent from the comparison between the principal compressive strain axes in the periods of 2004～2007 and 2001～2004 that the acting directions of principal compressive stress of subplates in both periods are basically consistent.However,there is certain difference between their directional concentrations of principal compressive stress axes.The sur-face strain rates of different tectonic units in both periods indicate that the events predominating by compressive variation decrease,while the events predominating by tensile change increase.     

Study on in-situ stress measurement around coastal marginal land in Fujian

Introduction The southeast coastal margin of Chinese mainland is important to understand the mutual movement, matter exchange and energy transfer between ocean and land lithospheres, as well as their effects. The coastal area in Fujian Province is advanced in economy development but it has frequent earthquakes, or even strong earthquakes. Therefore, the current study on in-situ stress state measurement is of great significance for studying continental dynamics, marginal sea dy- namics, seismo…     

The dependence of response spectrum on the tectonic ambient shear stress field

Introduction The acceleration response spectrum and peak ground acceleration are the necessary and im-portant parameters in earthquake-resistant design at present. They are still active research field. With the increase of digital high accurate strong motion observation data, especially the earth-quakes of Loma Prieta (M=7.0) in 1989; Landers (M=7.3) in 1992; Big Bear (M=6.4) in 1994 and Northridge (M=6.7) in 1994 in USA; Kozani (M=6.6) earthquake and afteshocks in 1995 in Greece; Dinar…     

Moment tensor inversion of focal mechanism for the aftershock sequence of 1982 Lulong Ms=6.1 earthquake

Introduction Lulong is located about 70 km to the northeast of Tangshan city, Hebei Province. On October 19, 1982, a MS=6.1 earthquake took place about 4 km to the northeast of Lulong county with the epicenter of 39°57′N, 119°04′E and the original time of 20h45min (Beijing time). Lulong is lo-cated at the connection part of Yanshan block and North China plain block according to the divi-sion of active blocks in Chinese mainland (ZHANG et al, 2003). There is a WNW-trending tec-toni…     

Comparison of the results obtained from different techniques such as overcoring, hydrofracturing, breakouts and focal mechanism solutions

In China, a lot of data derived from focal mechanism solutions, and especially, from overcoring and hydrofracturing stress measurements, as well as borehole breakouts carried out for various aims have contributed to understanding of the state of the crustal stress. We conducted everin situ stress measurements in a borehole with different methods, for the sake of comparison of various measuring techniques. Furthermore, we carried out measurements in different borehole with one or two kinds of techniques. All the observations taken out in these ways showed little variations. So we believe that the data obtained by the techniques can be used to study the tectonic stress field of certain region and thein situ state of the crustal stress. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,14, 149–155, 1992.     

Shear wave splitting and polarization anomaly with deep seismic sounding data

In this paper we study the S wave basement velocity structure and S wave splitting and polarization anomalies using the three component records of deep seismic sounding in the Three Groges Dam area, and further discuss the methods to study the anisotropy of crustal medium, the direction of regional tectonic stress field, and the physical indicator of potential earthquake sources using shear wave splitting and polarization anomalies. It has been demonstrated by analyzing the DSS data in the Three Gorges Dam area that S wave splitting and polarization anomalies are reliable means for studying seismic anisotropy of crustal medium and the direction of regional tectonic stress field. At the same time, it has been shown that DSS data are very useful for widening S wave observing window and distinguishing anomalous body, because DSS data have the advantage that the source position is known prior and S wave ray path can be traced exactly. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,15, 1–3, 1993.     

应力调制与预报研究

在地球动力作用和地壳运动的过程中构造块体呈现出整体运动的特征,表现在大陆地震的动力学特征具有明显的分区性。因而,大陆每个块体的应力场特征方向与强地震发生的主要构造力方向一致性较好。在它的作用下,块体边界或某些部位出现应力不均匀并有应变能的积累。孕震区应变能由线性积累向临界的非线性转化迹象会表现在弱震活动与主构造方向上固体潮交变应力场的呼应上。 交变应力场可加强孕震区应力集中部位的介质疲劳强度,从而在这些部位触发一些弱震,而且在附加应力场分别为正、负构造应力场方向时发生的弱震频次比例失调,这一过程与构造应力场的呼应显示了强震前弱震震源机制一致性较好的前兆特征,这种情形下的地震活动反映了一种应力调制作用,分析了1970年来的华北资料和1980年来的云南省资料,用直接图像分布、数值和等值线等3种方式讨论,表明它对强震有1~3年的中长期预报意义,R值评估均大于0.5。     

The model of double bounds of stochastic stress in seismic risk analysis of faults

In this paper, the major idea is: when seismic stress accumulates to a certain extent, a stick slip earthquake will occur on the fault plane. The seismic stress before and after the stick slip earthquake occurrence are both stochastic variables. According to this idea, the model of double bounds of stochastic stress is proposed, and also it is used to analyse the seismic risk of Xian Shui River Fault Zone in the coming 30 years, the result is similar to what the Seismological Bureau of Sichuan Province has predicted. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,15, 477–483, 1993.