A COMPARATIVE ANALYSIS BETWEEN INSTRUMENTAL INTENSITY AND SURVEY SPOT INTENSITY OF LUSHAN M7.0 EARTHQUAKE

doi:10.3969/j.issn.0253-4967.2014.02.018

Abstract

Abstract: Lushan M7.0 earthquake on April 20, 2013 occurred on the southern segment of Longmen Shan Fault zone. It is another strong earthquake after the Wenchuan M8.0 earthquake, rather than an aftershock. A total of 196 people died in Lushan M7.0 earthquake, 21 people missing, and 13019 injured. In this paper, we use the April 20, 2013 Lushan M7.0 earthquake strong motion records to calculate equivalent peak acceleration A_0.5 and convert it into the instrumental intensity. Then, we carry out the comparative analysis of instrumental intensity and surveyed intensity at the spots in the range of 5 kilometers around the stations. The results show a coincidence degree of 58.6% between the instrumental intensity and surveyed intensity, with the deviation less than ±1 degree. Meanwhile, we also recognize that there is a big dispersion of the observed ground motion parameters, even in the same macro-intensity. It is uncertain about the corresponding relationship between the individual station measured ground motion parameter values and the seismic intensity. The damage may be caused by earthquake ground motion characteristics, building types and site conditions and other factors, and therefore the difference between instrument intensity and actual seismic intensity cannot be ignored. On the whole, instrumental seismic intensity has potential for determining the range of seismic intensity, thus to provide quantitative reference, especially, in the absence of earthquake site investigation initially.

Key words: Lushan M7.0 earthquake, seismic intensity, instrumental intensity, survey spot intensity

摘要： 2013年4月20日四川芦山7.0级地震发生在龙门山断裂带南段，该地震是继汶川8.0级地震后的1次强震，但并非余震。文中利用2013年4月20日芦山地震的强震记录计算等效峰值加速度A_0.5换算地震仪器烈度，并且将地震仪器烈度与强震台站周边5km内调查点烈度对比分析。结果表明，芦山地震的仪器烈度与周边调查点烈度吻合度58.6%，且偏差不超过1度。然而，即使宏观烈度相同，观测地面运动参数也存在较大离散度。但在缺少现场调查的震后初期，地震仪器烈度有可能为地震烈度范围判断提供定量的参考指标。

关键词: 芦山地震, 地震烈度, 仪器烈度, 调查点烈度

CLC Number:

P316

FENG Wei, JIANG Li-xin, YANG Tian-qing, LI Yang, ZHENG Tong-yan. A COMPARATIVE ANALYSIS BETWEEN INSTRUMENTAL INTENSITY AND SURVEY SPOT INTENSITY OF LUSHAN M7.0 EARTHQUAKE[J]. SEISMOLOGY AND GEOLOGY, 2014, 36(1): 222-229.

冯蔚, 姜立新, 杨天青, 李洋, 郑通彦. 芦山7.0级地震强震台仪器烈度与调查点烈度的对比分析[J]. 地震地质, 2014, 36(1): 222-229.

References

雷建成, 高孟潭, 俞言祥. 2007. 四川及邻区地震动衰减关系［J］. 地震学报, 29(5): 500—511.
LEI Jian-cheng, GAO Meng-tan, YU Yan-xiang. 2007. Seismic motion attenuation relations in Sichuan and adjacent areas［J］. Acta Seismologica Sinica, 29(5): 500—511(in Chinese).
李亮. 2011. 基于地震动参数的烈度计算方法研究［D］: [学位论文]. 哈尔滨: 中国地震局工程力学研究所.
LI Liang. 2011. On the computational method of instrumental seismic intensity based on ground motion parameters［D］. Dissertation. Institute of Engineering Mechanics, China Earthquake Administration, Harbin(in Chinese).
李英民, 蔡辉腾, 韩军, 等. 2007. 重庆及邻近地区地震烈度衰减关系研究［J］. 防灾减灾工程学报, 27(1): 17—22.
LI Ying-min, CAI Hui-teng, HAN Jun, et al. 2007. Study on attenuation relation of seismic intensity in Chongqing and its adjacent areas［J］. Journal of Disaster Prevention and Mitigation Engineering, 27(1): 17—22(in Chinese).
李志强, 侯建盛, 李洋, 等.2013.2013年4月20日四川芦山M_S 7.0地震灾害特点分析［J］. 地震地质, 35(2): 399—410.doi: 10.3969/j.issn.0253-4967.2013.02.018.
LI Zhi-qiang, HOU Jian-sheng, LI Yang, et al. 2013. Analysis on the characteristics of the M_S 7.0 Lushan, Sichuan Province, earthquake hazard on April 20, 2013［J］. Seismology and Geology, 35(2): 399—410(in Chinese).
林淋, 孙景江. 2011. 不同地震动参数与地震烈度相关性对比研究［J］. 地震工程与工程振动, 31(1): 6—10.
LIN Lin, SUN Jing-jiang. 2011. Comparative research on correlation between strong ground motion parameters and seismic intensity［J］. Journal of Earthquake Engineering and Engineering Vibration, 31(1): 6—10(in Chinese).
孙继浩, 帅向华. 2011. 川滇及其邻区中强地震烈度衰减关系适用性研究［J］. 地震工程与工程振动, 31(1): 11—18.
SUN Ji-hao, SHUAI Xiang-hua. 2011. Study on moderate-strong seismic intensity attenuation relations in Sichuan-Yunnan and its adjacent areas［J］. Journal of Earthquake Engineering and Engineering Vibration, 31(1): 11—18(in Chinese).
汪素云, 俞言祥, 高阿甲, 等. 2000. 中国分区地震动衰减关系的确定［J］. 中国地震, 16(2): 99—106.
WANG Su-yun, YU Yan-xiang, GAO A-jia, et al. 2000. Development of attenuation relations for ground motion in China［J］. Earthquake Research in China, 16(2): 99—106(in Chinese).
张明. 2010. 仪器烈度计算方法及标准的初步研究［D］: [学位论文]. 哈尔滨: 中国地震局工程力学研究所.
ZHANG Ming. 2010. Preliminary research on the computational method and standards of seismic intensity［D］. Dissertation. Institute of Engineering Mechanics, China Earthquake Administration, Harbin(in Chinese).
Wald D J, Quitoriano V, Heaton T H, et al.1999. Relationship between peak ground acceleration, peak ground velocity, and modified Mercalli intensity in California［J］. Earthquake Spectra, 15(3): 557—564.

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[7]	ZHANG Zhu-qi, CHEN Tao, REN Zhi-kun, WANG Wei-tao. CHARACTERS OF SURFACE DISPLACEMENT DUE TO BLIND CURVED FAULT REVEALED BY NUMERICAL MODELS [J]. SEISMOLOGY AND GEOLOGY, 2013, 35(2): 452-460.
[8]	LÜ Jian, YU Yan-xiang, TANG Lan-rong, GAO Jian-hua, LU Fu-shui. SEISMIC MOTION ATTENUATION RELATION IN JIANGXI PROVINCE AND ITS ADJACENT AREAS [J]. SEISMOLOGY AND GEOLOGY, 2009, 31(1): 122-132.
[9]	YANG Zhu-en, DENG Zhi-hui, MA Wen-tao, SUN Qian, CHEN Gui-hua. SOME DESTRUCTION AND ITS SEISMIC INTENSITY IN MEIZOSEISMAL REGION OF WENCHUAN EARTHQUAKE WITH MAGNITUDE 8, SICHUAN, CHINA [J]. SEISMOLOGY AND GEOLOGY, 2008, 30(2): 349-354.
[10]	Xu Xiwei, Ran Yongkang, Zhou Bengang, Yin Gonming, Li Jianhua, Liu Wuzhou. SEISMOTECTONICS AND MACRODAMAGE FEATURES OF THE ZHANGBEI SHANGYI EARTHQUAKE [J]. SEISMOLOGY AND GEOLOGY, 1998, 20(2): 135-145.
[11]	Cai Huachang, Zhang Sichang, Hu Zhan'an, Li Xiangchun, Sun Xiangrong, Jin Xueshen. A STUDY ON 1720 SHACHENG EARTHQUAKE IN HEBEI PROVINCE [J]. SEISMOLOGY AND GEOLOGY, 1994, 16(4): 380-388.
[12]	Yang Zhe, Cheng Jiayu. CORRELATION ANALYSIS OF PERCENTAGE OF COLLAPSING HOUSES AND SEISMIC INTENSITY OF TANGSHAN EARTHQUAKE [J]. SEISMOLOGY AND GEOLOGY, 1994, 16(3): 283-288.
[13]	Wang Haigang, Feng Shengli. COMPOSITE ZONATION OF NANTONG URBAN AKEA [J]. SEISMOLOGY AND GEOLOGY, 1994, 16(3): 238-242.
[14]	Jin Yan. ON THE RELATION OF GROUND MOTION ATTENUATION IN NPP SITING [J]. SEISMOLOGY AND GEOLOGY, 1993, 15(4): 341-346.
[15]	Shi Zhenliang, Wang Jian. ON THE MAXIMUM INTENSITY OF HISTORICAL EARTHQUAKE IN NUCLEAR POWER PLANT SITING [J]. SEISMOLOGY AND GEOLOGY, 1993, 15(4): 323-326.