检查圣海伦火山 22 年的环境地震波场

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-12 DOI:10.1785/0220240079
M. Köpfli, M. Denolle, W. Thelen, Peter Makus, Stephen D. Malone
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引用次数: 0

摘要

在大多数火山爆发之前,地震活动都会增加。虽然基于事件的预报方法已经取得了成功,但有些火山爆发仍然无法预料,从而造成人员伤亡和财产损失。我们的研究充分利用了环境场地震学的最新进展。我们利用传统方法(如峰值地速、峰值地加速度、均方根、中值方根、实时地震振幅测量)和新方法(位移地震振幅比和谱宽)探索了从连续环境场中提取的特征。此外,我们还探索了利用散射网络对高阶小波特征进行无监督学习的方法。我们发现,要想将圣海伦火山的震源效应与结构变化区分开来,必须将所有方法结合起来。虽然与基于事件的方法相比,基于环境波场的方法在圣海伦山并没有产生额外的或更重要的前兆信号,但我们的研究表明,环境波场提供了补充信息,主要是关于结构变化的信息,是对传统方法的补充。环境地震波场为了解长期过程提供了更多信息。我们发现波衰减增强与地球化学测量结果相关。我们将其解释为持续的结构变化,如圆顶增长或火山导管系统的演变。在年度和十年时间尺度上,我们将浅表次表层的季节性地震衰减解释为地下水的波动,附近的灵湖水位观测也证实了这一点。圣海伦山的这种多方法方法揭示了火山系统的潜在动态和结构。
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Examining 22 Years of Ambient Seismic Wavefield at Mount St. Helens
An increase in seismic activity precedes most volcanic eruptions. Whereas event-based forecasting approaches have been successful, some eruptions remain unanticipated, resulting in casualties and damage. Our study leverages the recent advancements in ambient field seismology. We explore features extracted from continuous ambient fields using traditional methods, for example, peak ground velocity, peak ground acceleration, root mean square, root median square, real-time seismic amplitude measurement, and novel methods (displacement seismic amplitude ratio and spectral width). In addition, we explore unsupervised learning of higher order wavelet features using scattering networks. We find that combining all the methods was necessary to disentangle the effects of seismic sources from structural changes at Mount St. Helens. Although the ambient wavefield-based approach does not yield additional or more significant precursory signals than event-based methods at Mount St. Helens, our study demonstrates that the ambient wavefield provides supplementary information, mainly about structural changes and complements traditional methods. The ambient seismic wavefield offers additional insights into long-lasting processes. We find enhanced wave attenuation correlating with geochemical measurements. We interpret this as ongoing structural changes, such as dome growth or the evolution of the volcanic conduit system. On annual and decadal timescales, we interpret seasonal seismic attenuation in the shallow subsurface as groundwater fluctuations, corroborated by observations at the nearby Spirit Lake level. This multimethod approach at Mount St. Helens sheds light on a volcanic system’s underlying dynamics and structure.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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