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1.
In the paper, the feature of strong earthquake orderly distribution in time, space and intensity before the Western Kunlun Mountain Pass M=8.1 earthquake is preliminarily studied. The modulation and triggering factors such as the earth rotation, earth tides are analyzed. The results show that: the giant earthquakes with the magnitude more than 8 occurred about every 24 years and the earthquakes with the magnitude more than 7 about every 7 years in Chinese mainland. The Western Kunlun Mountain M=8.1 earthquake exactly occurred at the expected time; The spatial distance show approximately the same distances between each two swarms. The earth rotation, earth tide, sun tide and sun magnetic field have played a role of modulation and triggering in the intensity. At last, the conditions for earthquake generation and occurrence are also discussed. 相似文献
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In the paper, the feature of strong earthquake orderly distribution in time, space and intensity before the Western Kunlun
Mountain Pass M=8.1 earthquake is preliminarily studied. The modulation and triggering factors such as the earth rotation, earth tides are
analyzed. The results show that: the giant earthquakes with the magnitude more than 8 occurred about every 24 years and the
earthquakes with the magnitude more than 7 about every 7 years in Chinese mainland. The Western Kunlun Mountain M=8.1 earthquake exactly occurred at the expected time; The spatial distance show approximately the same distances between
each two swarms. The earth rotation, earth tide, sun tide and sun magnetic field have played a role of modulation and triggering
in the intensity. At last, the conditions for earthquake generation and occurrence are also discussed.
Foundation item: State Key Project of Science and Technology of China (2001BA601B01) and State 863 Plan of China. 相似文献
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1966~1976年华北地震的时间特性及相关触发因素 总被引:7,自引:1,他引:6
阐述了1966~1976年华北地震的时间特性及其相关触发因素--地球自转和引潮力。这是300年来华北地区发生的最强烈的一组地震,强震发生的时间有一个共同的特性;在年尺度上大多数地震发生在季节性地球自转速度极在值或极小值时间点附近,即极点附近(或称极点时段),在月惊工上多数地震发生在朔望附近(或称朔望时段),在日尺度上半数地震发生在极大水平引潮力时刻附近。表明这些地震与地球自转和日月引潮力关系密切。 相似文献
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Introduction An M=8.1 earthquake occurred to the west of the Kunlun Mountain Pass on November 14, 2001 (Kunlun Mountain earthquake for short). It is the largest earthquake during the latest 50 years in Chinese mainland since the 1951 Dangxiong, Tibet M=8.0 earthquake, and it broke the status that there had not occurred any M7.0 earthquake during the subsequent 4 years since the 1997 Mani, Tibet M=7.5 earthquake. Hereafter, the preparation and evolution process of large earthquakes, the v… 相似文献
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黎凯武 《地震学报(英文版)》1998,(5)
IntroductionUntilnow,manyobservationsandstudiesshowthatinacertainareasandduringacertainperiodmajorearthquakesfrequentlyocured... 相似文献
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中国西部北纬35°线附近地区7.0级以上强震分析 总被引:1,自引:0,他引:1
自1990年以来我国西部及邻近地区先后发生了6次7.0级以上地震,这些地震的震中位于35°N线附近,其纬度界于34.4°~36.2 °N之间,平均纬度为35.45 °N. 美国哈佛大学给出的震源机制表明,这些地震的主压应力轴方位一致性较好,都为NE向,似乎说明这些地震的发生是在统一的应力场作用下的结果,可能与印度板块对我国大陆的推挤作用有关. 结合地质构造和余震分布确定了发震断层,计算了它们产生的应力场,根据库仑破裂应力变化,分析了它们之间的相互影响. 结果显示,在这些地震中,对后续发生的地震可能具有促震作用. 根据引潮力在震源断层面上产生的有效剪切应力, 分析了引潮力对这些地震的触发效应, 结果没有显示这些地震的发生受到明显的引潮力触发. 相似文献
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基于1900—2015年中国大陆地区浅源地震阴历目录,依据地震活跃特征确定固体潮调制阴历日期和调制比阈值,并利用固体潮调制比时空扫描方法回顾性地研究近年来西北地区发生的3次中强地震,即2013年甘肃岷县漳县MS6.6、2015年内蒙古阿拉善MS5.8和2016年青海门源MS6.4地震前, 区域小震的固体潮调制比时空演化过程.研究结果显示:岷县漳县MS6.6和阿拉善MS5.8地震前震中区域出现固体潮调制比异常,门源MS6.4地震前震中附近的固体潮调制比异常演化时间较长; 西北地区3次中强震均发生在固体潮调制比时空扫描的高值异常集中地区及周围区域,扫描时间窗长度和固体潮调制比异常区域的大小可能与中强震的强度有一定的相关性. 相似文献
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应用有限单元方法,计算了2015年尼泊尔MS8.1大地震发生产生的同震变形和应力变化.计算中考虑地球为球体以确保远场应力场变化得到可靠结果,采用PREM模型的地球分层模型,考虑了中国地震局(CEA)和美国地质调查局(USGS)各自提供的断层滑动模型.结果表明:尼泊尔MS8.1地震是一个比较典型的低角度逆冲地震,水平位移和应力降较大;地震造成南北方向上的水平位移最突出,且集中在首都加德满都附近区域.USGS断层滑动模型地表最大位移量达到3.5m,CEA滑动模型最大为1.2m;东西向和垂直方向上的同震位移相对较小;同震位移量级在0.1m的影响区域可达300km;地震造成尼泊尔地区最大库仑应力变化可达到MPa量级,地震危险性依然较大.此次MS8.1地震对我国西藏地区有一定影响,特别是雅鲁藏布江地区和拉萨块体南北走向的正断层,库仑应力变化为正,量级可达数千帕乃至十余千帕,应该注意该区被诱发中强震的可能性. 相似文献
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玛尼7.9级地震对昆仑山口西8.1级地震的触发作用及动力背景初探 总被引:6,自引:1,他引:6
根据库仑静应力变化的概念,对青藏块体中部地区1997年11月8日玛尼7.9级地震及2001年11月14日昆仑山口西8.1级地震的应力触发作用进行了初步研究。不同震源机制解计算结果表明,玛尼地震造成了昆仑地震断层面上10^-3MPa量级的库仑应力增量,该变化仅使得昆仑地震的发生提前了最长10年左右,表明当前地壳应变能水平可能并不很低。对照20世纪初以来全球7级以上强震频度和强度演化特征与地球自转变化的关系,认为地球自转幅度衰减、变化频率升高是近期强震活动的重要控制因素。昆仑山口西8.1级地震的发生,可能是地球自转持续加速阶段后期,青藏块体内部区域应力场逐渐强化,及玛尼地震应力触发的结果。 相似文献
12.
Kai-Wu Li 《地震学报(英文版)》1998,11(5):637-644
Studies by many scientists show that Hebei, China is an area with strong correlation between the tidal force and the occurrences
of major earthquakes, the Xingtai earthquake of 1966, the Hejian earthquake of 1967 and the Tangshan earthquake of 1976 were
triggered by the tidal force, in this paper the study on the common characteristics of their occurrence times confirms these
facts. The computed times of maximum horizontal of the semi diurnal solid tide tidal force show that the occurrence times
of the above mentioned earthquakes were close to the times of maximum horizontal tidal force of the semi diurnal solid tide
at new moon or full moon. The Longyao earthquake of M=6.8, the Ningjin earthquake of M=7.2 and the Hejian earthquake of M=6.3 occurred tens of minutes after the maximum horizontal tidal force of the semi diurnal solid tides, and the Tangshan earthquake
of M=7.8 occurred 16 minutes before the maximum horizontal tidal force. The tidal forces were directed to the west. This is their
temporal characteristic. It is generally accepted that the 1969 Bohai earthquake of M=7.4 and the 1975 Haicheng earthquake were not triggered by the tidal force. These events did not show such characteristics.
The temporal characteristics of the earthquakes indicate that the occurrences of these events were not random, but were controlled
by the tidal force from the sun and the moon, and triggered by the tidal force. These facts agree with the triggering mechanism
of the tidal force, are evidences of earthquakes triggered by tidal force. 相似文献
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选取新疆地区2016年以来发生的3次MS 6.0以上浅源地震,对发震前震中区小震调制比变化进行系统对比分析,发现3次地震前均出现不同程度的固体潮调制比异常:①2016年12月8日呼图壁MS 6.2地震仅在震前2年于震中出现调制比高值异常;②2017年8月9日精河MS 6.6地震震中于发生前2年、1年、0.5年均落于调制比高值异常区域,受调制作用较明显;③2020年1月19日伽师MS 6.4地震于发生前2年、1年,在震中位置附近出现调制比异常。 相似文献
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Based on Coulomb static stress variation, the stress trigging action of the Mani ( Ms7.9, Nov.1997) earthquake on the West Kuulun Mountains Pass (MsS.1, Nov. 2001 ) earthquake is researched. Results of different source mechanism resolutions show that a 10_3 MPa Coulomb stress due to the Mani earthquake was added to the fracture fault of the Kunlun earthquake, and this may shift the broken date to about 10 years earlier, and infer that the stress level in the crust is not low. Comparing the relationship between strong earthquake strength and frequency and earth rotation change, it is shown that the strength‘s decrease and the variation period‘ s shortening of earth rotation are important controlling factors on strong earthquake activity. This great event with Ms = 8.1 took place probably due to a gradual strengthening background of regional stress field within the Qinghai-Xizang block in the period of acceleration of change of day‘s length and stress triggering from the Mani earthquake. 相似文献
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Following the theory and definition of the Corioli force in physics, the Corioli force at the site of the M=8.1 Kunlun Mountain Pass earthquake on November 14, 2001, is examined in this paper on the basis of a statistical research on relationship between the Corioli force effect and the maximum attershock magnitude of 20 earth-quakes with M≥7.5 in Chinese mainland, and then the variation tendency of attershock activity of the M=8.1 earthquake is discussed. The result shows: a) Analyzing the Corioli force effect is an effective method to predict maximum attershock magnitude of large earthquakes in Chinese mainland. For the sinistral slip fault and the reverse fault with its hanging wall moving toward the right side oftbe cross-focus meridian plane, their Corioli force pulls the two fault walls apart, decreasing frictional resistance on fault plane during the fault movement and releasing elastic energy of the mainshock fully, so the maximum magnitude of aftershocks would be low. For the dextral slip fault, its Corioli force presses the two walls against each other and increases the frictional resistance on fault plane, prohibiting energy release of the mainshock, so the maximum magnitude of attershocks would be high.b) The fault of the M--8. l Kunlun Mountain earthquake on Nov. 14, 2001 is essentially a sinistral strike-slip fault,and the Corioli force pulled the two fault walls apart. Magnitude of the induced stress is about 0.06 MPa. Alter a comparison analysis, we suggest that the attershock activity level will not be high in the late period of this earth-quake sequence, and the maximum magnitude of the whole aftershocks sequence is estimated to be about 6.0. 相似文献
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Introduction The MS=8.1 earthquake occurred in west of the Kunlun Pass on November 14, 2001. It is the greatest earthquake occurred in China since the last half of the century and is an important event in recent seismic history of China. Some specialists consider that the earthquake occurred in the area where the earthquake monitoring capability is lowest in Chinese mainland; no striking precursory seismicity was found. The study on the precursory seismicity before the earthquake has not b… 相似文献
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2020年2月3日四川省成都市青白江区发生MS5.1地震,震中烈度为Ⅵ度。该地震事件震中位于龙泉山断裂带上,距离成都市中心38 km,是龙泉山断裂带历史上非常罕见的5.0级以上地震事件。针对该事件成因进行了综合分析与研究,具体内容包括:(1)通过收集历史地震资料讨论龙泉山断裂带的地震活动性;(2)利用高质量的波形数据对主震位置进行重定位;(3)根据地震层析成像获得的三维vP、vS以及泊松比(σ)模型分析了孕震构造和流体影响,以及(4)利用固体潮理论模型分析了固体潮与地震触发的相关性。结果表明,本次MS5.1地震发生在龙泉山断裂带北段,震中坐标为(30.732°N,104.529°E),震源深度为15.12 km;震源位于高-低泊松比过渡带附近,并伴随着大范围的低速异常,初步推断与深部流体有关;同时,固体潮在断层面上产生的剪切应力变化,也可能与本次地震的触发密切相关,暗示着在地震发生前龙泉山北段的地震危险性已经达到了较高水平。因此深部流体侵入作用、强震同震效应以及特定孕震构造环境的综合影响可能是导致本次地震触发的主要因素。 相似文献
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通过对北京遥测地震台网近年来记录到的北京及邻区地震的震中分布,地震活动频度及能量释放强度的分析,得到本区地震活动在时间分布上具有“聚堆性”。在年发震频度,地震强度和能释放方面均具有双峰值特征,并且具有较好的一致性和同步性,在空间分布上具有条带特征,且形成北东~南西和北西~南东的两条相互交汇的条带。又通过统计分析得到本区发震概率最大的时间段是每年的10月前后,而地震主要发生在北西~南东带上。 相似文献
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针对2020年2月3日四川青白江5.1级地震发生前的地震活动和地球物理观测异常、构造背景、震源物理参数,以及地震序列特征等进行系统总结。结果表明,青白江5.1级地震发生前存在小震调制比高值、地磁低点位移、重力固体潮高噪声等中短期异常;地震序列活动特征显示,此次地震为一次孤立型地震序列,序列参数计算结果与当前余震活动水平基本相符。另外,青白江地震发生在龙泉山断裂带上,震源机制计算结果显示为一次逆冲型破裂事件,与龙泉山断裂构造性质一致。同时,此次地震发生在四川盆地的少震弱震区,对于川滇及川滇藏交界地区后续7级以上地震的发生具有一定预测意义。 相似文献
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The relation between the local mean lunar time τ of earthquake occurrence and their fault trends is studied in this paper.
The local mean lunar times τ of 53 earthquakes in 24 groups are calculated. Because the tidal generation force arisen by the
moon is a cyclic function of about 12 hours 25 minutes in the main, the two tidal generation forces anywhere in the earth
arising by the moon are equal in general when the moon lies to the two sites of 180° interval of local mean lunar time. Based
on this phenomenon the values Δτ of τ1–τ2 or τ1–τ2 ± 180° of two earthquakes occurring repetitiously in the same place are also calculated. The calculated results show that
if the fault trends of the two earthquakes in the same place is near, the Δτ is usually smaller and if the fault trends of
the two ones is not near, the Δτ is usually larger and the distribution of the local mean lunar time τ of earthquakes in different
places is dispersive even if fault trends of these earthquakes are near, and the τ does not concentrate on the lower and upper
transit of the moon. The above phenomena clear up that the triggering earthquake of earth solid tide arisen by the moon is
relative with the fault trends of earthquakes and we ought to think over the difference of environmental conditions of earthquake
preparation of each seismogenic zone and can not make statistics to earthquakes in different places when we study the relation
between the solid earth tide arisen by the moon and earthquakes. 相似文献