DETAILED TEMPORAL-SPATIAL DISTRIBUTION OF INDUCED EARTHQUAKES BY WATER INJECTION IN RONGCHANG, CHONGQING

doi:10.3969/j.issn.0253-4967.2018.03.002

Abstract

Abstract: Based on the seismic data collected from regional permanent stations and 6 temporal stations, we analyzed the seismic activity from October 2008 to July 2011 in Rongchang area. On the basis of HypoDD relocated results, we used Match&Locate method to detect and located the micro-earthquakes. We obtained the focal mechanism solutions of some earthquakes with M_L ≥ 3.5 by using CAP method. Then we analyzed the temporal-spatial distribution of earthquakes and discussed the characteristics of micro-seismicity before the M_L5.1 earthquake occurring on September 10, 2010. We totally detected 3 354 micro-earthquake events, which are nearly 5 times of the earthquakes in the seismic catalog issued by China Earthquake Networks Center. The magnitude of the detected events is mostly from M_L-1 to 1, and the focal depth is from 2 to 4km. The magnitude-frequency analysis shows that the catalog completeness is obviously improved after adding the detected earthquakes, with the lowest magnitude decreasing from M_L1.0 to 0.3. The earthquakes hypocenters are mainly clustered along faults or buried faults and in a dominant depth range consistent with the depth of injection wells, and also show a tendency of lateral extension from injection wells. The focal mechanism solutions of 9 earthquakes of M_L ≥ 3.5 presented reverse faulting, as the same as the preexisting faults, indicating that earthquakes were surely related to reactivation of the faults. The strike, dip and rate of the causative faults separated in wide ranges, which indicates not only obvious changes in structure and strike of preexisting faults but also the effect of increasing pore pressure on the local stress field. Before the M_L5.1 earthquake on September 10 of 2010, seismicity firstly showed clustering in time and covered the most part of the seismogenic fault in space. Then an obvious seismic quiescence occurred and lasted about 3 months. The phenomenon is consistent with the mechanism of creep sliding and resistance-uniformization along the fault zone, suggested on the basis of laboratory experiments, and it may be one of patterns of sub-instability along fault zone. However, such explanation needs to be further confirmed.

Key words: earthquake relocation, microearthquake detection, focal mechanism, induced earthquake, Rongchang

摘要： 基于区域固定地震台站和6套流动加密台站的观测资料，对重庆荣昌地区2008年10月—2011年7月期间的地震活动性进行了分析。在双差定位的基础上，采用匹配定位方法（M&L）对微小地震进行检测与定位；采用CAP（Cut and Paste）方法，反演获得了M_L≥3.5地震的震源机制解。在此基础上，分析地震活动的时空分布特征、震源特征及其与地质构造的关系，并讨论了2010年9月10日M_L5.1地震前后的小震活动特征。通过匹配定位方法共检测到3 354次微地震事件，约为中国地震台网中心地震目录的5倍，震级集中于M_L-1.0～1.0之间，震源深度大部分处于2～4km范围内；震级-频次统计分析表明，地震目录更加完整，震级下限从M_L1.0降低到M_L0.3。地震活动主要集中在几条隐伏断层附近，并具有从注水井向外扩展的特征；9次M_L≥3.5地震震源机制解均为逆断层型，与该区区域应力场协调，并与已有断层性质一致，表明地震活动与注水活动导致已有断层的再活动有关。而发震断层方向、倾角及滑动角散布范围较大表明流体孔隙压力增加对局部应力场有较大影响，使不同产状的断层活化。M_L5.1地震发生之前，地震活动首先表现为时间上丛集，空间上分布于大部分发震断层段上，随后出现了约3月的平静期，这与基于实验结果提出的"蠕滑-均匀化"机制一致，可能是断层亚失稳的一种表现形式，但这种解释需要进一步的工作论证。

关键词: 地震定位, 微地震检测, 震源机制, 诱发地震, 荣昌

CLC Number:

P315.72⁺8

WANG Zhi-wei, WANG Xiao-long, MA Sheng-li, LEI Xing-lin, LIU Pei-xun. DETAILED TEMPORAL-SPATIAL DISTRIBUTION OF INDUCED EARTHQUAKES BY WATER INJECTION IN RONGCHANG, CHONGQING[J]. SEISMOLOGY AND GEOLOGY, 2018, 40(3): 523-538.

王志伟, 王小龙, 马胜利, 雷兴林, 刘培洵. 重庆荣昌地区注水诱发地震的时空分布特征[J]. 地震地质, 2018, 40(3): 523-538.

References

邓起东. 2007. 中国活动构造图(1: 400万)［Z］. 北京:地震出版社. DENG Qi-dong. 2007. Active Tectonics Map of China(1: 4,000,000)［Z］. Seismological Press, Beijing(in Chinese).
丁仁杰, 李克昌. 2004. 重庆地震研究曁《重庆 1: 50万地震构造图》［M］. 北京:地震出版社. DING Ren-jie, LI Ke-chang. 2004. Seismological Research in Chongqing and the 1: 500,000 Scale Seismotectonic Map of Chongqing［M］. Seismological Press, Beijing(in Chinese).
黄世源, 魏红梅, 朱丽霞. 2007. 2006年荣昌地震活动与注水关系［J］. 高原地震, 19(2):8-11. HUANG Shi-yuan, WEI Hong-mei, ZHU Li-xia. 2007. Relationship between the Rongchang earthquake 2006 and water injection［J］. Plateau Earthquake Researth, 19(2):8-11(in Chinese).
雷兴林, 李霞颖, 马胜利, 等. 2014. 沉积岩储藏系统小断层在油气田注水诱发地震中的作用:以四川盆地为例［J］. 地震地质, 36(3):625-643. doi:10.3969/j.issn.0253-4967.2014.03.007. LEI Xing-lin, LI Xia-ying, MA Sheng-li, et al. 2014. Role of immature faults in injection-induced seismicity in oil/gas reservoirs:A case study of the Sichuan Basin, China［J］. Seismology and Geology, 36(3):625-643(in Chinese).
李圣强, 陈棋福, 赵里, 等. 2013. 2011年5月中国东北M_W5.7深震的非同寻常震源机制:区域波形反演与成因探讨［J］. 地球物理学报, 56(9):2959-2970. LI Sheng-qiang, CHEN Qi-fu, ZHAO Li, et al. 2013. Anomalous focal mechanism of the May 2011 M_W5.7 deep earthquake in Northeastern China:Regional waveform inversion and possible mechanism［J］. Chinese Journal of Geophysics, 56(9):2959-2970(in Chinese).
吕坚, 王晓山, 苏金蓉, 等. 2013. 芦山7.0级地震序列的震源位置与震源机制解特征［J］. 地球物理学报, 56(5):1753-1763. LÜ Jian, WANG Xiao-shan, Su Jin-rong, et al. 2013. Hypocentral location and source mechanism of the M_S7.0 Lushan earthquake sequence［J］. Chinese Journal of Geophysics, 56(5):1753-1763(in Chinese).
马瑾, 马胜利, 刘力强. 1995. 地震前异常的阶段性及其空间分布特征［J］. 地震地质, 17(4):363-371. MA Jin, MA Sheng-li, LIU Li-qiang. 1995. The stages of anomalies before an earthquake and the characteristics of their spatial distribution［J］. Seismology and Geology, 17(4):363-371(in Chinese).
马瑾, Sherman S I, 郭彦双. 2012. 地震前亚失稳应力状态的识别:以5°拐折断层变形温度场演化的实验为例［J］. 中国科学(D辑), 42(5):633-645. MA Jin, Sherman S I, GUO Yan-shuang. 2012. Identification of meta-instable stress state based on experimental study of evolution of the temperature field during stick-slip instability on a 5° bending fault［J］. Science in China(Ser D), 55(6):869-881.
马胜利, 蒋海昆, 扈小燕, 等. 2004. 基于声发射实验结果讨论大震前地震活动平静现象的机制［J］. 地震地质, 26(3):426-435. doi:10.3969/j.issn.0253-4967.2004.03.007. MA Sheng-li, JIANG Hai-kun, HU Xiao-yan, et al. 2004. A discussion on mechanism for seismic quiescence before large earthquakes based on experimental results of acoustic emission［J］. Seismology and Geology, 26(3):426-435(in Chinese).
秦万成, 罗正富. 1980. 华蓥山断裂带地震地质条件的探讨［J］. 西南师范学院学报, (1):45-58. QIN Wan-cheng, LUO Zheng-fu. 1980. A discussion on the seismogeological conditions of the Huayingshan fault zone［J］. Journal of Southwest China Normal University, (1):45-58(in Chinese).
任雅琼, 刘培洵, 马瑾, 等. 2013. 亚失稳阶段雁列断层热场演化的实验研究［J］. 地球物理学报, 56(7):2348-2357. REN Ya-qiong, LIU Pei-xun, MA Jin, et al. 2013. Experimental study on evolution of thermal field of en echelon fault during the meta-instability stage［J］. Chinese Journal of Geophysics, 56(7):2348-2357(in Chinese).
王小龙, 雷兴林, 勾宪斌, 等. 2015. 用CAP方法研究重庆荣昌2014年2月23日M_L3.8地震震源机制［J］. 中国地震, 31(2):290-296. WANG Xiao-long, LEI Xing-lin, GOU Xian-bin, et al. 2015. Focal mechanism solution of the February 23, 2014, M_L3. 8 Rongchang earthquake with the CAP(Cut and Paste)method［J］. Earthquake Research in China, 31(2):290-296(in Chinese).
王小龙, 马胜利, 雷兴林, 等. 2011. 重庆荣昌地区注水诱发地震加密观测［J］. 地震地质, 33(1):151-156. doi:10.3969/j.issn.0253-4967.2011.01.015. WANG Xiao-long, MA Sheng-li, LEI Xing-lin, et al. 2011. Monitoring of injection-induced seismicity at Rongchang, Chongqing［J］. Seismology and Geology, 33(1):151-156(in Chinese).
王小龙, 马胜利, 雷兴林, 等. 2012. 重庆荣昌诱发地震区精细速度结构及2010年M_L5.1地震序列精确定位［J］. 地震地质, 34(2):348-358. doi:10.3969/j.issn.0253-4967.2012.02.013. WANG Xiao-long, MA Sheng-li, LEI Xing-lin, et al. 2012. Fine velocity structure and relocation of the 2010 M_L5.1 earthquake sequence in Rongchang gas field［J］. Seismology and Geology, 34(2):348-358(in Chinese).
易桂喜, 龙锋, 张致伟. 2012. 汶川M_S8.0地震余震震源机制解时空分布特征［J］. 地球物理学报, 55(4):1213-1227. doi:10.6038/j.issn.0001-5733.2012.04.017. YI Gui-xi, LONG Feng, ZHANG Zhi-wei. 2012. Spatial and temporal variation of focal mechanisms for aftershocks of the 2008 M_S8.0 Wenchuan earthquake［J］. Chinese Journal of Geophysics, 55(4):1213-1227(in Chinese).
张广伟, 雷建设, 梁姗姗, 等. 2014. 2014年8月3日云南鲁甸M_S6.5地震序列重定位与震源机制研究［J］. 地球物理学报, 57(9):3018-3027. ZHANG Guang-wei, LEI Jian-she, LIANG Shan-shan, et al. 2014. Relocations and focal mechanism solutions of the 3th August 2014 Ludian, Yunnan M_S6.5 earthquake sequence［J］. Chinese Journal of Geophysics, 57(9):3018-3027(in Chinese).
张致伟, 程万正, 梁明剑, 等. 2012. 四川自贡-隆昌地区注水诱发地震研究［J］. 地球物理学报, 55(5):1635-1645. ZHANG Zhi-wei, CHEN Wan-zheng, LIANG Ming-jian, et al. 2012. Study on earthquakes induced by water injection in Zigong-Longchang area, Sichuan［J］. Chinese Journal of Geophysics, 55(5):1635-1645(in Chinese).
郑秀芬, 欧阳飚, 张东宁, 等. 2009. "国家数字测震台网数据备份中心"技术系统建设及其对汶川大地震研究的数据支撑［J］. 地球物理学报, 52(5):1412-1417. doi:10.3969/j.issn.0001-5733.2009.05.031. ZHENG Xiu-fen, OUYANG Biao, ZHANG Dong-ning, et al. 2009. Technical system construction of Data Backup Centre for China Seismograph Network and the data support to researches on the Wenchuan earthquake［J］. Chinese Journal of Geophysics, 52(5):1412-1417(in Chinese).
郑勇, 马宏生, 吕坚, 等. 2009. 汶川地震强余震(M_S ≥ 5.6)的震源机制解及其与发震构造的关系［J］. 中国科学(D辑), 38(4):413-426. ZHENG Yong, MA Hong-sheng, LÜ Jian, et al. 2009. Source mechanism of strong aftershocks(M_S ≥ 5.6)of the 2008/05/12 Wenchuan earthquake and the implication for seismotectonics［J］. Science in China(Ser D), 38(4):413-426(in Chinese).
朱丽霞, 黄世源, 魏红梅. 2007. 荣昌地区注水地震研究［J］. 大地测量与地球动力学, 27(6):86-90. ZHU Li-xia, HUANG Shi-yuan, WEI Hong-mei. 2007. On fluid-injection induced earthquake in Rongchang area［J］. Journal of Geodesy and Geodynamics, 27(6):86-90(in Chinese).
卓燕群, 郭彦双, 汲云涛, 等. 2013. 平直走滑断层亚失稳状态的位移协同化特征:基于数字图像相关方法的实验研究［J］. 中国科学(D辑), 43(10):1643-1650. ZHUO Yan-qun, GUO Yan-shuang, JI Yun-tao, et al. 2013. Slip synergism of planar strike-slip fault during meta-instable state:Experimental research based on digital image correlation analysis［J］. Science in China(Ser D), 56(11):1881-1887.
Lei J S, Zhao D P. 2009. Structural heterogeneity of the Longmenshan fault zone and the mechanism of the 2008 Wenchuan earthquake(M_S8.0)［J］. Geochemistry, Geophysics, Geosystems, 10(10):Q10010.
Lei X L, Huang D J, Su J R, et al. 2017. Fault reactivation and earthquakes with magnitudes of up to M_W4.7 induced by shale-gas hydraulic fracturing in Sichuan Basin, China［J］. Scientific Reports, 7(1):7971.
Lei X L, Ma S L, Chen W K, et al. 2013. A detailed view of the injection-induced seismicity in a natural gas reservoir in Zigong, southwestern Sichuan Basin, China［J］. Journal of Geophysical Research:Solid Earth, 118(8):4296-4311.
Lei X L, Yu G Z, Ma S L, et al. 2008. Earthquakes induced by water injection at~3km depth within the Rongchang gas field, Chongqing, China［J］. Journal of Geophysical Research, 113(B10):B10310.
Rubinstein J L, Mahani A B. 2015. Myths and facts on wastewater injection, hydraulic fracturing, enhanced oil recovery, and induced seismicity［J］. Seismological Research Letters, 86(4):1060-1067.
Waldhauser F, Ellsworth W L. 2000. A double-difference earthquake location algorithm:Method and application to the northern Hayward Fault, California［J］. Bulletin of the Seismological Society of America, 90(6):1353-1368.
Zhang M, Wen L X. 2015. An effective method for small event detection:Match and locate(M&L)［J］. Geophysical Journal International, 200(3):1523-1537.
Zhao L S, Helmberger D V. 1994. Source estimation from broadband regional seismograms［J］. Bulletin of the Seismological Society of America, 84(1):91-104.
Zhu L P, Ben-Zion Y. 2013. Parametrization of general seismic potency and moment tensors for source inversion of seismic waveform data［J］. Geophysical Journal International, 194(2):839-843.
Zhu L P, Helmberger D V. 1996. Advancement in source estimation techniques using broadband regional seismograms［J］. Bulletin of the Seismological Society of America, 86(5):1634-1641.

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