Lei Xinglin, Su Jinrong, Wang Zhiwei
Geological Survey of Japan, National Institute of Advanced Industrial Science and Technology (AIST), Higashi 1-1-1, Tsukuba, Ibaraki, 305-8567 Japan.
Earthquake Monitoring Centre, Sichuan Earthquake Administration, Chengdu, 610041 China.
Sci China Earth Sci. 2020;63(11):1633-1660. doi: 10.1007/s11430-020-9646-x. Epub 2020 Sep 22.
In the Sichuan Basin, seismic activity has been low historically, but in the past few decades, a series of moderate to strong earthquakes have occurred. Especially since 2015, earthquake activity has seen an unprecedented continuous growth trend, and the magnitude of events is increasing. Following the 5.7 Xingwen earthquake on 18 Dec. 2018, which was suggested to be induced by shale gas hydraulic fracturing, a swarm of earthquakes with a maximum magnitude up to M6.0 struck Changning and the surrounding counties. Questions arose about the possible involvement of industrial actions in these destructive events. In fact, underground fluid injection in salt mine fields has been occurring in the Sichuan Basin for more than 70 years. Disposal of wastewater in natural gas fields has also continued for about 40 years. Since 2008, injection for shale gas development in the southern Sichuan Basin has increased rapidly. The possible link between the increasing seismicity and increasing injection activity is an important issue. Although surrounded by seismically active zones to the southwest and northwest, the Sichuan Basin is a rather stable region with a wide range of geological settings. First, we present a brief review of earthquakes of magnitude 5 or higher since 1600 to obtain the long-term event rate and explore the possible link between the rapidly increasing trend of seismic activity and industrial injection activities in recent decades. Second, based on a review of previous research results, combined with the latest data, we describe a comprehensive analysis of the characteristics and occurrence conditions of natural and injection-induced major seismic clusters in the Sichuan Basin since 1700. Finally, we list some conclusions and insights, which provide a better understanding of why damaging events occur so that they can either be avoided or mitigated, point out scientific questions that need urgent research, and propose a general framework based on geomechanics for assessment and management of earthquake-related risks.
Supplementary material is available for this article at 10.1007/s11430-020-9646-x and is accessible for authorized users.
在四川盆地,历史上地震活动一直较少,但在过去几十年里,发生了一系列中强地震。特别是自2015年以来,地震活动呈现出前所未有的持续增长趋势,且震级不断增大。在2018年12月18日发生5.7级兴文地震(有人认为是页岩气水力压裂诱发的)之后,长宁及周边县发生了一系列最大震级达M6.0的地震群。工业活动是否可能与这些破坏性事件有关引发了诸多疑问。事实上,四川盆地盐矿田的地下流体注入已持续了70多年。天然气田的废水排放也持续了约40年。自2008年以来,四川盆地南部页岩气开发的注入量迅速增加。地震活动增加与注入活动增加之间的可能联系是一个重要问题。尽管四川盆地西南和西北被地震活跃带环绕,但它是一个地质环境多样的相当稳定的地区。首先,我们简要回顾自1600年以来5级及以上地震,以获取长期事件发生率,并探讨近几十年来地震活动快速增长趋势与工业注入活动之间的可能联系。其次,基于对以往研究结果的回顾,结合最新数据,我们全面分析了自1700年以来四川盆地天然和注入诱发的主要地震群的特征及发生条件。最后,我们列出一些结论和见解,以便更好地理解破坏性事件为何发生,从而能够避免或减轻这些事件,指出需要迫切研究的科学问题,并提出一个基于地质力学的评估和管理地震相关风险的总体框架。
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