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Fluid-injection-induced earthquakes characterized by hybrid-frequency waveforms manifest the transition from aseismic to seismic slip

Hongyu Yu, R. M. Harrington, Honn Kao, Yajing Liu, Bo Wang

2021Nature Communications48 citationsDOIOpen Access PDF

Abstract

Aseismic slip loading has recently been proposed as a complementary mechanism to induce moderate-sized earthquakes located within a few kilometers of the wellbore over the timescales of hydraulic stimulation. However, aseismic slip signals linked to injection-induced earthquakes remain largely undocumented to date. Here we report a new type of earthquake characterized by hybrid-frequency waveforms (EHWs). Distinguishing features from typical induced earthquakes include broader P and S-pulses and relatively lower-frequency coda content. Both features may be causally related to lower corner frequencies, implying longer source durations, thus, either slower rupture speeds, lower stress drop values, or a combination of both. The source characteristics of EHWs are identical to those of low-frequency earthquakes widely documented in plate boundary fault transition zones. The distribution of EHWs further suggests a possible role of aseismic slip in fault loading. EHWs could thus represent the manifestation of slow rupture transitioning from aseismic to seismic slip.

Topics & Concepts

SeismologySlip (aerodynamics)GeologyWaveformSan andreas faultSlow earthquakeCodaEpisodic tremor and slipFault (geology)ForeshockInterplate earthquakeTectonicsPhysicsAftershockVoltageSubductionThermodynamicsQuantum mechanicsearthquake and tectonic studiesEarthquake Detection and AnalysisSeismic Waves and Analysis
Fluid-injection-induced earthquakes characterized by hybrid-frequency waveforms manifest the transition from aseismic to seismic slip | Litcius