Statistical analysis on temporal-spatial correlativity within temporal doublets of strong earthquakes in North China and its vicinity

In order to unify the time and the space attributes into temporal-spatial distance, the temporal-spatial proportional coefficient fTS is proposed in this paper. In accordance with the new distance concept, the temporal-spatial correlativity within temporal doublets of strong earthquakes in North China and its vicinity since AD 1500 has been analyzed. The computation results indicate that doublets of strong earthquake can be divided into two groups when fTS is endowed with 10 km/a in the new distance formula. The temporal-spatial distance between two points of doublet generally cannot exceed 140 km when two strong quakes in doublet have some causative relation. And those doublets with temporal-spatial distance exceeding 280 km are probably independent seismic events in doublets. This character can be the reference to the migration law summarization and trend prediction.

Dynamic variation of ambient shear stress field before and after three strong earthquakes in Yunnan

A method calculating relative shear stress values in seismic source areas using data of seismic wave is used in thispaper which is introduced by PEI-SHAN CHEN, based on a rupture model studying seismic rupture process fromtheory of fracture mechanics. The shear stress values τ0 in mid-small earthquakes occurred in 1986~June of 1997in Yunnan and its adjacent areas are used to trace the variation process of ambient shear stress field before andafter three strong earthquakes in Yunnan and China-Myanmar border areas. The results show that there exists abackground of high values in ambient shear stress field. In the development process of a strong earthquake, theambient shear stress field in and nearby its potential source area increases obviously, for a long time, experiences aprocess of multiple down - up - down - up. The pattern of dynamic variation of ambient shear stress field hasreflected the multi-source fields of seismogenesis in and nearby Yunnan. There exist multi-increased areas of ambient shear slress fields synchronously in southwest, northwest. west and east of Yunnan, and three strong eathquakes of magnitude about 7 occurred in the most obviously increased areas of ambient shear stress fields.

Geomagnetic diurnal-variation anomalies and their relation to strong earthquakes

The diurnal-variation anomalies of the vertical-component in geomagnetic field are mainly the changes of phase and amplitude before strong earthquakes. On the basis of data recorded by the network of geomagnetic observato- ries in China for many years, the anomalous features of appearance time of the minima of diurnal variations (i.e, low-point time) of the geomagnetic vertical components and the variation of their spatial distribution (i.e, phe- nomena of low-point displacement) have been studied before over 30 strong earthquakes with MS≥6.6 such as Kunlunshan MS=8.1 earthquake on November 14, 2001; Bachu-Jashi MS=6.8 earthquake on February 24, 2003; Xiaojin MS=6.6 earthquake on September 22, 1989, etc. There are good relations between such rare phenomena of geomagnetic anomalies and the occurrence of earthquakes. It has been found that most earthquakes occur in the vicinity of the boundary line of sudden change of the low-point displacement and generally within four days before and after the 27th or 41st day counting from the day of appearance of the anomaly. In addition, the anomalies of diurnal-variation amplitude near the epicentral area have been also studied before Kunlunshan MS=8.1 earthquake and Bachu-Jiashi MS=6.8 earthquake.

Temporal-spatial Variations of Dynamic Source Parameters in the Capital Circle Region and Its Surrounding Areas before the 2006 M_S5.1 Wenan Earthquake in Hebei Province

Source spectra,corner frequency and zero frequency amplitudes in near-source conditions were measured using waveform data from 989 earthquakes with magnitudes larger than ML2.0 observed by the Beijing Digital Telemetry Seismic Network in the Capital Circle Region of China and its surrounding areas from January 2002 to June 2006 by the Brune model.Relevant formulas that were used for the calculation of dynamic source parameters include rupture radius,seismic moment,seismic energy,stress drop,and apparent stress.Scaling relations and characteristics of temporal-spatial variations of these dynamic parameters before the MS5.1 Wenan earthquake in Hebei Province that occurred on July 20,2006 were analyzed.Results show that apparent stress,stress drop,and the ratio of seismic energy to the rupture radius had relatively high values in some areas before the Wenan earthquake.These high-value concentration areas were mainly distributed in the North China Plain seismic zone.As is seen from the time curves,parameters,such as apparent stress,stress drop,and ratio of seismic energy to rupture radius underwent significant ascending processes before the Wenan earthquake,but the variation in the corner frequency showed a descending trend.This result might be related to the enhancement of stress in the North China Plain seismic zone before the earthquake.

Spatio-temporal variation and focal mechanism of the Wenchuan M_S8.0 earthquake sequence

Based on abundant aftershock sequence data of the Wenchuan Ms8.0 earthquake on May 12, 2008, we studied the spatio-temporal variation process and segmentation rupture characteristic. Dense aftershocks distribute along Longmenshan central fault zone of NE direction and form a narrow strip with the length of 325 krn and the depth between several and 40 km. The depth profile （section of NW direction） vertical to the strike of aftershock zone （NE direction） shows anisomerous wedgy distribution characteristic of afiershock concentrated regions; it is related to the force form of the Longmenshan nappe tectonic belt. The stronger aftershocks could be divided into northern segment and southern segment apparently and the focal depths of strong aftershocks in the 50 km area between northern segment and southern segment are shallower. It seems like ＇to be going to rupture＇ segment. We also study focal mechanisms and segmentation of strong aftershocks. The principal compressive stress azimuth of aftershock area is WNW direction and the faulting types of aftershocks at southern and northern segment have the same proportion. Because afiershocks distribute on different secondary faults, their focal mechanisms present complex local tectonic stress field. The faulting of seven strong earthquakes on the Longmenshan central fault is mainly characterized by thrust with the component of right-lateral strike-slip. Meantime six strong aftershocks on the Longmenshan back-range fault and Qingchuan fault present strike-slip faulting. At last we discuss the complex segmentation rupture mechanism of the Wenchuan earthquake.

Short-term and imminent geomagnetic anomalies of the Wenchuan M_S8.0 earthquake and exploration on earthquake forecast

The diurnal variation of the geomagnetic vertical component is exhibited mainly by changes of phase and amplitude before strong earthquakes. Based on data recorded by the network of geomagnetic observatories in China for many years, the anomalous features of the appearance time of the minima of diurnal variations （i.e, low-point time） of the geo- magnetic vertical components and the variation of their spatial distribution （i.e, phenomena of low-point displacement） have been studied before the Wenchuan Ms8.0 earthquake. The strong aftershocks after two months＇ quiescence of M6 aftershocks of the Ms8.0 event were forecasted based on these studies. There are good correlativities between these geomagnetic anoma- lies and occurrences of earthquakes. It has been found that most earthquakes occur near the boundary line of sudden changes of the low-point time and generally within four days before or after the 27th or 41st day counting from the day of the appearance of the anomaly. In addition, the imminent anomalies in diurnal-variation amplitudes near the epicentral areas have also been studied before the Wenchuan earthquake.

青藏高原中强地震前的地电场变异及构成解析

青藏高原及邻区的地电场常态波形存在场地的选择性现象,场地的岩石结构、裂隙及裂隙水、构造活动等因素影响地电场的常态波形,较大湖泊有助于附近出现TGF-A波形,在第四纪沉积层较厚、岩石含水度高和透水性强的地区多出现TGF-B波形,而构造活动剧烈的基岩山区易出现无日变形态的地电场.该地区中强地震前,地电场的短临异常存在时间上或同步或有十余天差的丛集现象,而在空间上可分布于该区多个断层附近,表现出离散现象,这种时间上丛集、空间上离散的现象是该区域地电场短临前兆特征.引入Σ-Δ求和方法从地电场观测数据中解析出自然电场通常的稳定性,说明了中强地震之前部分地电场的背景值跃变是一种自然电场变化现象;建立潮汐谐波振幅比TA值的概念及计算方法,从定量角度说明了青藏高原地区TGF-A、TGF-B和无日变波形的潮汐影响在逐次降低;使用一阶差分ΔE方法,解析出地电场分钟数量级的高频电磁成分,通常这种高频突跳表现出一定程度的随机性、有限性.三种不同的分析方法,从地电场的构成中解析出自然电场、大地电场和高频电磁成分的特征,为地电场的物理解析提供了理论和方法上的基础.

地磁日变化异常与强震的关系

强震前地磁垂直分量日变化异常主要表现在幅度与相位上的变化 .本文利用中国地磁台网多年观测资料 ,研究了 2 0 0 1年 1 1月 1 4日昆仑山口西 8.1级地震、2 0 0 3年 2月 2 4日巴楚 伽师 6.8级地震和 1 989年 9月 2 2日小金 6.6级等 3 0多次 6.6级以上强震前 ,地磁垂直分量日变极小值出现的时间 (低点时间 )在空间分布上的异常特征 ,即低点位移现象 .这种少见的异常现象与强震发生有较好的相关性 .发震日期为异常日后的第 2 7天或 41天的前后 4天 ,强震发生地区在低点位移突变分界线附近 .此外 ,还研究了昆仑山口西 8.1级地震和巴楚 伽师 6.8级地震临震前 ,震中周围出现的地磁日变幅异常现象 .

汶川M_S8.0地震前地磁短临异常与强震预测探索

强震前地磁垂直分量日变化异常主要表现在幅度与相位上的变化.利用中国地磁台网多年观测资料,研究了2008年5月12日四川汶川8.0级地震前,地磁垂直分量日变极小值出现的时间(低点时间)在空间分布上的异常特征,即低点位移现象;并用此方法预测了汶川8.0级地震6级余震平静2个月后的一组6级强余震.这种少见的异常现象与强震发生有较好的相关性.发震日期为异常出现后的第27天或第41天的前后4天,强震发生地区在低点位移突变分界线附近.此外,还研究了汶川8.0级地震临震前,震中周围出现的地磁日变幅异常现象.

川滇地区7级大震前中强震震源机制变化

分析了 70年代以来 ,川滇地区发生的 8次 7级大震前 5年内 ,发生在大震孕震区和震源区内的中强震震源机制解时空分布。结果表明 ,最早中强震发生在大震震源区或其附近 ,其发震应力场与区域构造应力场一致 ,与大多数大震发震应力场一致或接近。大多数中强震震源破裂特征与大震明显不同。之后有多次中强震发生在距大震震源区较远的大震孕震区内其他地方 ,它们的发震应力场往往经历了与区域构造应力场和大震应力场一致与不一致的多次交替变化。大震前最后 1个中强震也发生在距大震震源区较近的地方 ,其发震应力场与大震发震应力场明显不一致 ,偏转了 30°～ 5 0° ,或更多 ,大多数也与区域构造应力场不一致 ,有的中强震发震断裂破裂特征与大震不一致。大震前中强震震源机制的变化 ,反映了大震孕育过程的不同阶段 ,区域构造应力场的时空调整变化和增强过程 ,以及由此引发的构造断裂异常活动 。

地磁“低点位移”现象与强震预测研究

利用中国地磁台网40年观测资料,研究了2008年3月21日新疆于田7.3级地震,2001年11月14日昆仑山口西8.1级地震等108次强震前,地磁垂直分量日变极小值出现的时间在空间分布上的异常特征即'低点位移'现象。这种少见的异常现象与强震发生有较好的相关性,发震日期为异常日后的第27天或41天前后4天,强震发生地区在低点位移突变分界线附近。此外,还研究了于田7.3级、昆仑山口西8.1级临震前震中周围出现的地磁日变幅异常现象。地磁低点位移是复杂的地球物理现象,受多种因素影响,其'探测-感应-触发'机理仍处在探索之中。

云南地区波速变化与强震孕育

利用2007年11月至2010年5月云南测震台网46个台站共31个月的连续测震记录,采用背景噪声瑞利面波层析成像方法得到云南地区不同周期瑞利面波的相速度背景图像;用滑动时窗得到当前不同时段瑞利面波相速度图像,将当前速度图像减去背景速度图像,得到当前速度扰动图像;将不同时段的速度扰动图像与云南中强地震作对比研究,发现在该区域中强地震发生前,在10～25s周期的相速度扰动图像中,川滇菱形块体中段瑞利面波波速都有明显升高现象。

地震电性变化及其物理机理初步讨论

依据典型震例中的视电性异常变化,介绍了视电性变化各向异性与震源机制解最大主压应力的关系,讨论了电性变化的物理机理。结果表明,视电性变化与饱水裂隙电阻率ρf、固架电阻率ρ0和裂隙率v有关,与DD模式预言的震源区扩容阶段电阻率变化过程,岩(土)标本加载过程中视电阻率变化相吻合,地震电性变化主要是由于孕震晚期阶段震源区及附近扩容裂隙快速发展、导电通道串通、导电流体活跃而引起的。我国地震地电阻率观测确实检测到了这一变化。

1999年至2001年云南几次中强震前应力场方向动态变化及其预测意义

利用小震综合节面解资料,分析研究了云南近期6次中强震前多分区、多时段应力场方向动态变化,并以多个震例表明,强震前应力场方向存在时空变化,对强震危险性预测具有指示意义。

云南孟连西7.3级、武定6.5级、丽江7.0级三次强震前地震波振幅比的时空演化特征

１９９５年７月１２日至１９９６年２月３日短短７个月，云南地区连续发生了孟连西中缅边境７．３级、武定５．５级、丽江７．０级３次强震，本文研究了近期这几次强震前５个地震台地震图垂直分量Ｓ、Ｐ波最大振幅比的时空演化特征，动态追踪了振幅比明显偏离平稳态的突变过程。发现主震前５—８年，７级大震震中１００ｋｍ范围出现振幅比高（低）值突变，６级强震震中１３０ｋｍ范围出现振幅比高值突变，当振幅比的突变在缓升（降）的背景上骤升（降），或突变异常的地震次数明显增加，则中长期异常进入中短期阶段。在强震震中１３０ｋｍ范围内的地震台（近台）振幅比值高达１５．２以上，而远离强震震中２５０ｋｍ以外的地震台（远台）振幅比最大值仅为９．８，近台的突变幅度至少比远台大３０％。而强震成组发生前一年半时间内，位于强震震中１１０ｋｍ范围内的近台振幅比的突变幅度比远在２５０ｋｍ外远台大５５—７５％。对振幅比的突变和时空演化特征从非线性动力学模型和模拟实验结果进行了初步成因探讨。

强震前的地磁异常现象

震前地磁Z分量的日变化异常主要表现在幅度和相位上的变化,文中利用我国50多个地磁台多年的资料,重点研究了1997年11月8日玛尼7.5级地震和2005年11月26日江西九江5.7级地震。发现玛尼地震和九江地震以及大多数中强地震前,全国地磁台站地磁Z分量日变化幅度的极小值出现时间(低点时间)在空间分布上异常特征,即低点位移现象。这种少见的异常现象与强震发生有较好的相关性。发震日期为异常日后的第27天或第41天的前后4天,强震发生地区在低点位移突变分界线附近。结果显示,在玛尼7.5级地震和江西九江5.7级临震前,震中周围出现区域性Z分量日变化幅度异常现象。

龙岩地震台中强地震前地倾斜异常分析

采用多种数学方法,对龙岩地震台SQ-70型水平摆倾斜仪1989—1998年的观测数据进行处理,并利用EIS2000软件进行绘图分析。得出:龙岩地区两次4.5级以上地震前,龙岩地震台地倾斜观测值均有异常变化。

库尔勒铁门关钻孔应变震前固体潮畸变现象分析

通过对库尔勒铁门关体应变3年的观测资料进行可靠性分析认为本台站资料达到了I类台精度,干扰主要为气压效应和水位干扰,观测资料记录到的固体潮清晰。利用低通滤波和一阶差分的方法,可以识别出固体潮畸变。对识别出的48次固体潮畸变现象进行了统计,统计结果表明,6次畸变为干扰1,3次近震前存在固体潮畸变现象,其余畸变发生在强远震前。经过讨论分析认为观测中记录到的固体潮畸变现象是震前异常信号,但无法区分为近震前的信号还是强远震前的信号。

地球系统10^(-1)年变化原因概述

我们曾论述了地球系统10~0～10~8年变化的原因,唯对10^(-1)年(月一年)的地球系统变化未指出其变化原因。经过近年的研究,现在可以明确地指出,地球内部有两类流体:地外核和岩石圈裂隙中地下流体(地气)的活动是引发10^(-1)年地球系统变化的原因。外核的上升运动会使其上部岩石圈产生上抬和压缩,在地表层就出现3.2 m地温升高和降水减少的"干热异常",经过"孕震三步曲"最终引发构造地震。外核的下降运动会使其上部岩石圈产生下沉和拉张作用,地表层表现为3.2 m地温降低,同时降水增多的"湿冷异常",最终可导致发生陷落地震。外核的脉冲运动是引发岩石圈中形成地热(冷)涡的"源"。地气环流也是旋转地球上的一种流体运动,其特征速度(地下风速)约为0.2 m/s,据此可推得"自然气候周期"约为8个月。地气环流是使地气系统得以"流"的动力源。地热(冷)涡的"源"、"流"相结合是使短期气候呈现纷繁复杂变化的原因。

GPS连续观测站基线与地震危险性分析

根据中国地壳运动观测网络基准站1999—2009年的资料,文中应用小波方法对中国大陆的有关GPS基线时间序列进行了分离,通过对各个频段小波分解结果的分类分析,我们获得如下看法:①在2001年昆仑山口西Ms8.1级与2008年汶川Ms8.0级强震前,部分GPS基线小波分解中低频段(A8,D8,D7,D6,D5)在数月至1年以上的时间内发生较明显的变化,说明浅源大地震的孕育发生与大区域构造活动增强相关;②与北京十三陵(BJSH)相连的BJSH-YANC,BJSH-JIXN,BJSH-TAIN,HLAR-BJSH,CHUN-BJSH基线近期都存在一定程度的异常,显示北京周围地区压性活动增强,首都圈地区2006—2008年大面积垂直形变结果也反映该地区存在一定的异常。目前尚无足够的证据证明这种形变异常变化是否与汶川地震有关。但也许提示2008年华北北部地区的构造活动已从常态活动开始转向异态活动,有可能是强震孕育的信号,应给予密切跟踪研究。