Litcius/Paper detail

Monitoring Seasonal Shear Wave Velocity Changes in the Top 6 m at Garner Valley in Southern California With Borehole Data

Lei Qin, J. H. Steidl, Hongrui Qiu, Nori Nakata, Yehuda Ben‐Zion

2022Geophysical Research Letters19 citationsDOIOpen Access PDF

Abstract

Abstract Subsurface structures play important roles in seismic ground motion, crustal hydrology, stability of the built environment, and more. Constraining temporal changes of subsurface shear wave velocity ( V S ) can provide useful information to all these topics and the growing field of hydrological monitoring with seismic velocity. Using borehole records at Garner Valley, CA, we estimate seasonal subsurface V S variations from impulse response functions (IRFs) of earthquake data (2005–2018) along with IRFs and cross‐correlation of cross‐hole experiment data (2015–2018). The inferred V S variations are up to ∼25% in the top 6 m and ∼10% at 2–5 m in depth. The V S variations correlate strongly with the water table depth changes, suggesting that the changes are mostly due to fluctuations of pore pressure in the shallow material. The shallow velocity changes alter the near‐surface conditions, can affect seismic hazard estimation, and may be improperly attributed to deeper processes without careful analysis.

Topics & Concepts

GeologyBoreholeSeismologyWater tablePore water pressureShear (geology)HydrogeologySeismic velocityWave velocitySeismic hazardGroundwaterGeomorphologyGeotechnical engineeringPetrologySeismic Waves and AnalysisSeismic Imaging and Inversion Techniquesearthquake and tectonic studies