Scientific Exploration of Induced SeisMicity and Stress (SEISMS)

IF 1.6 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Scientific Drilling Pub Date : 2017-11-30 DOI:10.5194/SD-23-57-2017

H. Savage, J. Kirkpatrick, J. Mori, E. Brodsky, W. Ellsworth, B. Carpenter, Xiaowei Chen, F. Cappa, Y. Kano

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引用次数: 18

Abstract

Abstract. Several major fault-drilling projects have captured the interseismic and postseismic periods of earthquakes. However, near-field observations of faults immediately before and during an earthquake remain elusive due to the unpredictable nature of seismicity. The Scientific Exploration of Induced SeisMicity and Stress (SEISMS) workshop met in March 2017 to discuss the value of a drilling experiment where a fault is instrumented in advance of an earthquake induced through controlled fluid injection. The workshop participants articulated three key issues that could most effectively be addressed by such an experiment: (1) predictive understanding of the propensity for seismicity in reaction to human forcing, (2) identification of earthquake nucleation processes, and (3) constraints on the factors controlling earthquake size. A systematic review of previous injection experiments exposed important observational gaps in all of these areas. The participants discussed the instrumentation and technological needs as well as faults and tectonic areas that are feasible from both a societal and scientific standpoint.

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诱发地震活动性和应力的科学探索

摘要几个主要的断层钻探项目已经捕捉到了地震的震间期和震后期。然而，由于地震活动的不可预测性，地震前和地震中断层的近场观测仍然难以捉摸。诱发地震活动性和应力科学探索(SEISMS)研讨会于2017年3月召开，讨论了在可控流体注入诱发地震之前对断层进行仪器测量的钻井实验的价值。研讨会参与者阐述了这样一个实验可以最有效地解决的三个关键问题:(1)对人类强迫反应中地震活动性倾向的预测性理解，(2)地震成核过程的识别，以及(3)控制地震大小的因素的约束。对以往注射实验的系统回顾揭示了所有这些领域的重要观察空白。与会者讨论了仪器和技术需求，以及从社会和科学的角度来看可行的断层和构造区域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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