Poster #076, Seismology
Coseismic hydrogeologic response to the 2019 Ridgecrest Earthquake in the fault system at Devils Hole, Nevada
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Poster Presentation
2020 SCEC Annual Meeting, Poster #076, SCEC Contribution #10731 VIEW PDF
te rock aquifer while the AM-5 well is completed in the Valley Fill Aquifer unit, which is a subunit of the Basin Fill Aquifer. Coseismic groundwater decline of about 0.3 ft is observed at Devils Hole through July 2020. In comparison to previous major California earthquakes such as the Mw7.3 Landers and the Mw7.1 Hector Mine, groundwater response from Ridgecrest Earthquake shows a persistent offset. This could indicate a persistent change in hydrogeologic parameters at Devils Hole. No coseismic water level offset was identified at the shallow monitoring well. This might indicate strong heterogeneity in hydrogeologic properties between the fault-zone system at Devils Hole and the AM-5 monitoring well. Analysis of the tidal response of both water levels shows positive phase shifts (leading) of about 12 to 15 degrees, suggesting possible vertical leakage of the aquifers. Temporal fluctuations in phase shift might indicate variations in degrees of leakage in the fault-system. A significant drop of phase shift is observed after the Ridgecrest Earthquake at the AM-5 well. On the contrary, no significant change in phase shift was observed at Devils Hole. We suspect the difference in groundwater observatory setting between the fractured carbonate rock aquifer and the Valley Fill aquifer is producing the heterogeneous hydrogeologic response to earthquakes observed in the Devils Hole region. In addition to the groundwater analysis, seismological observation from local stations is used for monitoring variations in shallow seismic structure associated with the Ridgecrest Earthquake, providing understandings about the earthquake-caused local site effect modification.
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