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Learning the Low Frequency Earthquake Activity on the Central San Andreas Fault

Christopher Johnson, Paul A. Johnson

2021Geophysical Research Letters15 citationsDOIOpen Access PDF

Abstract

Abstract Low frequency earthquakes (LFEs) originating below the central San Andreas Fault are associated with slow‐slip beneath the seismogenic zone within the more ductile portion of the crust. Monitoring efforts over 15 years detected >1 million LFEs. We train a gradient boosted tree model using statistical features describing the seismic waveforms to estimate the hourly LFE event count. The burst‐like LFE behavior is reproduced, while lower amplitudes are predicted during the most active periods. The hourly event counts are up to 18% greater than the catalog. The ability to continuously monitor LFE activity provides insight to when geodetic measurements of slow slip are possible, without the need for developing a computational‐intensive template‐matching catalog. Similar waveform statistical features are found between detecting LFEs and tremors, which provides additional evidence tremors are composed of LFEs. The approach extracts information contained in continuous seismic waveforms that might benefit detecting precursory signals.

Topics & Concepts

SeismologyWaveformSan andreas faultGeologyGeodetic datumAmplitudeSlip (aerodynamics)ForeshockCrustGeodesyFault (geology)GeophysicsComputer scienceTelecommunicationsEngineeringAftershockPhysicsAerospace engineeringQuantum mechanicsRadarearthquake and tectonic studiesEarthquake Detection and AnalysisSeismology and Earthquake Studies
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