汶川地震前失稳过程的重力场观测证据

doi:10.3969/j.issn.0253-4967.2021.06.002

地震地质 ›› 2021, Vol. 43 ›› Issue (6): 1368-1380.DOI: 10.3969/j.issn.0253-4967.2021.06.002

汶川地震前失稳过程的重力场观测证据

郭树松¹⁾(), 祝意青¹⁾^,^*(), 徐云马¹⁾, 刘芳¹⁾, 赵云峰¹⁾, 张国庆¹⁾, 朱辉²⁾

1)中国地震局第二监测中心, 西安 710054
2)中国有色金属工业西安勘察设计研究院有限公司, 西安 710054

收稿日期:2020-07-21 修回日期:2020-12-10 出版日期:2021-12-20 发布日期:2022-01-29
通讯作者: 祝意青
作者简介:郭树松, 男, 1980年生, 2007年于中国科学院精密测量科学与技术创新研究院获固体地球物理学专业硕士学位, 高级工程师, 主要从事流动重力数据处理与预报分析工作, E-mail: 158102970@qq.com。
基金资助:
国家重点研发计划项目(2018YFC1503305);国家自然科学基金(41874092);国家自然科学基金(U1939205);国家自然科学基金(61627824)

GRAVITY EVIDENCE OF META-INSTABLE STATE BEFORE THE 2008 WENCHUAN EARTHQUAKE

GUO Shu-song¹⁾(), ZHU Yi-qing¹⁾^,^*(), XU Yun-ma¹⁾, LIU Fang¹⁾, ZHAO Yun-feng¹⁾, ZHANG Guo-qing¹⁾, ZHU Hui²⁾

1) The Second Monitoring and Application Center, China Earthquake Administration, Xi'an 710054, China
2) Xi'an Engineering Investigation & Design Research Institute of China National Nonferrous Metals Industry Co., Ltd., Xi'an 710054, China

Received:2020-07-21 Revised:2020-12-10 Online:2021-12-20 Published:2022-01-29
Contact: ZHU Yi-qing

摘要/Abstract

摘要：

文中应用1996—2007年龙门山断裂带上的重力观测资料, 分析了汶川地震前亚失稳阶段的重力场变化特征, 根据震前失稳过程的重力场观测证据探讨应用重力场识别断层进入亚失稳阶段的证据和方法。研究结果表明: 1)汶川地震前沿龙门山断裂带的时变重力场在1996—2001期间呈正常态变化, 2001—2004期间出现区域性区重力异常, 2004—2007期间出现较明显的反向变化, 震前一年变化较弱, 呈现闭锁状态。这种变化过程较好地对应了岩石变形实验中由稳态加载阶段到失稳阶段中的线性稳态、偏离线性稳态、亚失稳状态的过程。2)龙门山断裂东侧接近四川盆地上的测点时序变化平缓无序, 西侧后山断裂带上的测点在2002年开始出现一致性较好的“同升同降”变化特征。汶川地震发生在后山断裂带上, 震后余震的分布和该断裂带的走向一致, 说明该断裂带是断层的主要失稳位置, 该断层的失稳导致该区域测点的重力场变化一致, 符合实验研究中断层由稳态进入亚失稳状态的物理场协同化演化的判定依据。3)重力剖面点的时空变化显示, 2008年汶川8.0级地震前在龙门山断裂西侧可观测到一次断层活动协同化过程。

关键词: 亚失稳阶段, 汶川地震, 龙门山断裂带, 重力变化, 协同化活动

Abstract:

The fault will experience different stress states in the process from compression to final rupture(earthquake outbreak). Researchers have defined the fault in meta-instability stage as the stress changes from quasi-static release to irreversible quasi-dynamic release. Meta-instability stage is the last stage of instability before earthquake and means earthquake is sure to break out. Various rock deformation experiments in laboratory show that there are observable meta-instability stage and evident synergism activity of physical field. Observing the evolution characteristics and laws of relevant physical parameters is fundamental and helpful for identifying short-term signals indicating earthquakes. In this paper, based on the theoretical characteristics of meta-instability stage obtained in laboratory and the results of repeated absolute and relative gravity measurements in Longmen Mountains area during 1996—2007, we analyze the characteristics of gravity variation in the meta-instable state before the 2008 Wenchuan M_S8.0 earthquake and propose a basis or method for determining the meta-instability fault using gravity data. The results are as follows:
(1)Gravity field variations of Longmenshan fault zone before the Wenchuan M_S8.0 earthquake showed a normal-state change during 1996 to 2001, regional anomaly occurred in 2001—2004, then an obvious reverse change appeared in 2004—2007, but the change was small and the faults were in a locking state for a year before the earthquake. The 2008 Wenchuan M_S8.0 earthquake occurred at the high gravity change belts and the epicenter was located near the zero isoline of the gravity converting from positive value to negative value. The patterns of the gravity variation with time match well with the linear steady-state, the deviation from linear steady-state and the meta-instability state in the process of steady-state loading to instability stage of rock experiments in the laboratory. The dynamic changes of gravity reflect the local gravity anomaly near the epicenter, thus help to judge the instability location.
(2)The time series of gravity variation of some stations adjacent to the epicenter are obtained. Gravity time-series variations are disordered and irregular in the east side of the fault zone near the Sichuan Basin, but increased and decreased simultaneously since 2002 on the west of the fault zone in the observation stations over the Houshan Fault. The 2008 Wenchuan M_S8.0 earthquake occurred on the Houshan Fault and the distribution of aftershocks was consistent with the strike of the fault. This shows the Houshan Fault is the main instability position of Longmenshan fault zone. The instability of the fault led to the consistent change of the gravity field of the measuring stations in this area. The characteristic of this change satisfies the conditions for determining the degree of synergism which is an indicator for identifying the stress state. Combined with other research results we can confirm that Houshan Fault is in a critical state of meta-instability stage since 2002.
(3)The spatio-temporal variations of gravity in the measuring stations on the west of the Longmenshan fault zone showed a synergism activity process before the 2008 Wenchuan M_S8.0 earthquake. It began with the gravity rise centered on station 607 and 612 in 2002 and expanded to station 606, 607 and 612 in 2006. Station 606 and 607 are located near Yingxiu Town, closest to the epicenter of Wenchuan earthquake and also in the instability area.
In summary, the retrospective research on the regional gravity field before the 2008 Wenchuan M_S8.0 earthquake using the meta-instability fault theory indicates that the evolution of the time-varying gravity field corresponds well to the processes of rock deformation and instability in the laboratory experiment, and the time-series variation of gravity stations generally reflects the synergism characteristics of physical field, which is a key indicator to identify a fault in a meta-instable stress state. Seismicity evolution varies in different tectonic positions, so more earthquake cases should be investigated profoundly when we are trying to find the gravity anomaly related to the meta-instability stage. Next, we will carry out a profound study, such as gravity observation and analysis of fixed-point stations, intensive absolute gravity measurement, and research on gravity time series changes of measuring stations near the epicenter before and after strong earthquakes.

Key words: meta-instable stage, the Wenchuan earthquake, Longmenshan fault zone, gravity change, synergism activity

中图分类号:

P315.72⁺6

郭树松, 祝意青, 徐云马, 刘芳, 赵云峰, 张国庆, 朱辉. 汶川地震前失稳过程的重力场观测证据[J]. 地震地质, 2021, 43(6): 1368-1380.

GUO Shu-song, ZHU Yi-qing, XU Yun-ma, LIU Fang, ZHAO Yun-feng, ZHANG Guo-qing, ZHU Hui. GRAVITY EVIDENCE OF META-INSTABLE STATE BEFORE THE 2008 WENCHUAN EARTHQUAKE[J]. SEISMOLOGY AND EGOLOGY, 2021, 43(6): 1368-1380.

图/表 7

图 1 岩石变形失稳的示意图(据马瑾, 2016) 字母表示关键变形时刻: L 起始点; M 屈服开始点; N 强屈服点;O 强度极限点; A 准静态阶段向准动态阶段的转折点; B 失稳点

Fig. 1 Conceptual cartoon to illustrate different deformation stages of rock experiments in laboratory(after MA Jin, 2016).

图 2 龙门山地区的重力测量路线

Fig. 2 Gravity surveying route of the Longmenshan fault zone.

图 3 龙门山地区的重力变化等值线图(单位: μgal)

Fig. 3 Gravity field dynamic variation images in one-year and three-year time scale(unit: μgal).

图 4 断层东侧的重力点时序变化图

Fig. 4 Curves of gravity time-variation on the east side of Longmenshan fault zone.

图 5 断层西侧的重力点时序变化图

Fig. 5 Curves of gravity time-variation on the west side of Longmenshan fault zone.

表1 黏滑过程中不同变形阶段的时间分配表(据马瑾等, 2012)

Table1 Time allocation of different deformation stages in the process of stick-slip(after MA Jin et al., 2012)

变形阶段	平稳变形	偏离线性	亚失稳Ⅰ	亚失稳Ⅱ	失稳	失稳后
所占时间/%	87	8.9	0.2	0.13	0.37	3.4

图 6 断层西侧重力剖面点的时空变化

Fig. 6 Variations of gravity with time at measured points on the west of the fault zone.

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汶川地震前失稳过程的重力场观测证据

GRAVITY EVIDENCE OF META-INSTABLE STATE BEFORE THE 2008 WENCHUAN EARTHQUAKE

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