发震断层对微、宏观震中偏离的影响分析:以新疆地区为例
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摘要
大量震例表明通常情况下地震的微、宏观震中有很大的偏离,如何在震后快速正确估计微、宏观震中偏离的程度,是目前迫切需要解决的重要问题。以新疆地区为例,详细研究了新疆地区M s≥6.5级的历史地震微、宏观震中偏离与发震构造的空间分布关系。新疆地区主要的发震断层类型包括逆断层、逆冲走滑断层及走滑断层3种。针对不同的发震断层类型初步提出了根据发震构造快速估计6.5级以上强震微、宏观震中偏离的模型和方法。微、宏观震中偏离的理想方向取决于破裂的性质(如单侧破裂、双侧破裂),很难确定理想宏观震中在发震断层的确切位置,具有一定的随机性,但是地震微、宏观震中的偏离方向与新疆整体构造应力方向具有一致性,宏观震中位置一般位于发震断层上或其附近,在实际应用过程中可以认为宏观震中就在断层上。
How to estimate the micro-and macro-epicenter deviation is a key problem to earthquake emergency and rescue response.Taking Xinjiang area as an example,this study investigated the relationship between micro-and macro-epicenter deviation and seismogenics structures,and provided a new method for the fast determination of possible macro-epicenter based on the micro-epicenter and seismogenics structures for the earthquakes Ms≥6.5.There are 3 types of faults in Xinjiang,including the thrust fault,the thrust-slip fault and the strike-slip fault.The deviation of the ideal micro-epicenter direction depends on the nature of rupture(such as unilateral rupture,bilateral rupture),so it is difficult to determine the exact location of the ideal micro-epicenter in the seismogenic fault,and it is a certain randomness,but the deviation of the micro-and macro-epicenter is consistent with the overall direction of tectonic stress direction.The macro-epicenter location is located in or near the seismogenic fault in actual application.
How to estimate the micro-and macro-epicenter deviation is a key problem to earthquake emergency and rescue response.Taking Xinjiang area as an example,this study investigated the relationship between micro-and macro-epicenter deviation and seismogenics structures,and provided a new method for the fast determination of possible macro-epicenter based on the micro-epicenter and seismogenics structures for the earthquakes Ms≥6.5.There are 3 types of faults in Xinjiang,including the thrust fault,the thrust-slip fault and the strike-slip fault.The deviation of the ideal micro-epicenter direction depends on the nature of rupture(such as unilateral rupture,bilateral rupture),so it is difficult to determine the exact location of the ideal micro-epicenter in the seismogenic fault,and it is a certain randomness,but the deviation of the micro-and macro-epicenter is consistent with the overall direction of tectonic stress direction.The macro-epicenter location is located in or near the seismogenic fault in actual application.
引文
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[2]Lan X,Tian J,Xie Z,et al.Rapid generation of intensity mapbased on isoseismals of historical earthquake[M]//Guo H D,Wang C L.The 6th International Symposium on Digital Earth(Proceedings Volume).Washington:SPIE,2009:1-6.
[3]中国地震局监测预报司.汶川8.0级地震科学研究报告[M].北京:地震出版社,2009:1-216.
[4]刘吉夫,王晓青,陈颙,等.中国大陆地震宏观震中与速报定位偏离的分区研究[J].地震学报,2006,28(1):37-41.
[5]王晓青,邵辉成,丁香.地震速报参数不确定性的应急灾害损失快速评估模型[J].地震工程与工程振动,2003,23(6):198-201.
[6]李闽峰,李圣强,陈颙.探讨地震宏观破坏场分布的影响因素[J].中国地震,2000,16(4):293-306.
[7]张培震,邓起东,杨晓平,等.天山的晚新生代构造变形及其地球动力学问题[J].中国地震,1996,12(2):127-140.
[8]徐学纯,郑常青,赵庆英.新疆阿尔泰地区冲乎尔递增变质带特征及其演化[J].现代地质,2005,19(3),334-340.
[9]梅冥相,靳卫广.沙漠沉积体系的层序地层学研究——以新疆库车盆地下白垩统为例[J].现代地质,2003,17(1):59-67.
[10]中国地震局震害防御司.中国近代地震目录(公元1912年—1990年)[M].北京:中国科学技术出版社,1999:1-50.
[11]新疆维吾尔自治区地震局.新疆维吾尔自治区地震资料汇编[M].北京:地震出版社,1985:1-260.
[12]张肇诚.中国震例(1966—1975)[M].北京:地震出版社,1988:1-222.
[13]张肇诚.中国震例(1976—1980)[M].北京:地震出版社,1990:1-421.
[14]张肇诚.中国震例(1981—1985)[M].北京:地震出版社,1990:1-294.
[15]张肇诚.中国震例(1986—1988)[M].北京:地震出版社,1999:1-394.
[16]张肇诚.中国震例(1989—1991)[M].北京:地震出版社,2002:1-453.
[17]陈棋福.中国震例(1992—1994)[M].北京:地震出版社,2002:1-429.
[18]陈棋福.中国震例(1995—1996)[M].北京:地震出版社,2002:1-489.
[19]陈棋福.中国震例(1997—1999)[M].北京:地震出版社,2002:1-468.
[20]陈棋福.中国震例(2000—2002)[M].北京:地震出版社,2008:1-570.
[21]《中国地震年鉴》编辑委员会.中国地震年鉴(2003)[M].北京:地震出版社,2004:1-522.
[22]谢富仁,崔效锋,赵建涛,等.中国大陆及邻区现代构造应力场分区[J].地球物理学报,2004,47(4):654-662.
[23]张国民,汪素云,李丽,等.中国大陆地震震源深度及其构造含义[J].科学通报,2002,47(9):663-670.
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