2016年8月河北唐山发生震群活动,具有频次高、持续时间长等特点。利用首都圈数字化地震台网监测的2016年1月—2017年5月河北唐山地区ML≥2.5地震,采用遗传算法反演震源参数,计算相应地震视应力值。分析结果如下:①此次地震序列为前震—主震—余震型;②视应力值在震群发生前明显增高,发生过程中出现高低相间现象,在ML 4.3主震出现峰值,震源区应力状态不稳定,震后视应力恢复正常;③震群视应力与震级呈现一定正相关。
Earthquake swarm activity occurred in Tangshan, Hebei in August, 2016. The earthquake swarms have the characteristics of high frequency and long duration. From January 2016 to May 2017, a series of ML ≥ 2.5 earthquakes recorded by digital seismic network of the capital region. After inversion of source parameters by genetic algorithm, the apparent stress in this region is calculated. The result shows that, Firstly, the earthquake sequence was of foreshock-main shock-after-shock type. Secondly, the apparent stress value increased obviously before earthquake swarm occurred and there is a phenomenon of occurrence of high and low phases in the occurrence of earthquake swarms. The highest value appears in main shock of ML 4.3 earthquake. The stress state in the focal region is unstable, the apparent stress returned to normal after the earthquake. Finally, the apparent stress and earthquake magnitude of earthquake swarms are positively related in general.
2018,39(3): 52-58 收稿日期:2017-07-19
DOI:10.3969/j.issn.1003-3246.2018.03.008
基金项目:河北省地震局地震科技星火计划(项目编号:DZ20160408048);中国地震局监测预报司测震台网青年骨干培养专项(项目编号:CEA-JC/QNCZ-18041)
作者简介:王宁(1988-),女,工程师,主要从事地震监测和大震速报工作
参考文献:
陈学忠,王小平,王林瑛,等.地震视应力用于震后趋势快速判定的可能性[J].国际地震动态,2003,(7):1-4.
陈学忠,李艳娥,郭祥云.河北文安MS 5.1地震前首都圈及邻区震源动力学参数时空变化特征[J].地震,2011,31(4):15-25.
李艳娥,陈学忠,王恒信.汶川8.0级地震前四川地区地震视应力时空变化特征[J].地震,2012,32(4):113-122.
李赫,刘文兵,王熠熙,等. 2010年滦县地震序列视应力变化研究[J].地震,2015,35(1):47-54.
刘红桂,刘杰,丁页岭,等.地震视应力在云南地震序列中的前兆特征[J].地震学报,2006,28(5):462-471.
刘杰,郑斯华,黄玉龙.利用遗传算法反演非弹性衰减系数、震源参数和场地响应[J].地震学报,2003,25(2):211-218.
秦嘉政,钱晓东.云南地区地震视应力的时间和空间分布研究[J].地震学报,2006,28(3):221-229.
吴忠良,黄静,林碧苍.中国西部地震视应力的空间分布[J].地震学报,2002,24(3):293-301.
吴忠良.由宽频带辐射能量目录和地震矩目录给出的视应力及其地震学意义[J].中国地震,2001,17(1):8-15.
杨志高. 2015年9月14日河北昌黎 4.2 级地震及震中附近应力状态分析[J].中国地震,2016,32(4):729-737.
张国民,傅征祥,桂燮泰,等.地震预报引论[M].北京:科学出版社,2001:12-16.
中国地震局监测预报司.中国大陆地震序列研究[M].北京:地震出版社,2007:112-154.
Andrews D J. Objective determination of source parameters and similarity of earthquakes of different size[C]. Das S, Boatwright J, Schola C H. Earthquake Source mechanics. Washington:AGU, 1986:259-267.
Choy G L, Boatwright J L. Global patterns of radiated seismic energy and apparent stress[J]. J Geophys Res, 1995, 100(18):218-228.
Newman A V, Okal E A. Teleseismic Estimates of RadiatedSeismic Energy:The E/M0 Discriminant for Tsunami Earthquakes[J]. J Geophys Res, 1998, 103(B11):26 885-26 898.
Pulido N, Irikura K. Est imation of dynamicrupture parameters from the radiated seismic energyand apparent stress[J]. Geophys Res Lett, 2000, 27(23):3 945-3 948.
Wyss M, Brune J N. Seismic Moment, Stress and Source Dimensions for Earthquakes in the California-Nevada Region[J]. J Geophys Res, 1968, 73(4):4 681-4 694.
Wyss M. Stress Estimates for South American Shallow and Deep Earthquakes[J]. J Geophys Res, 1970, 75(8):1 529-1 544.
