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Title: Evaluation of faults stability due to passing seismic waves: Study case of groundwater level changes induced by the 2011 Tohoku earthquake in Central Japan

Journal Article · · Journal of Hydrology X
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In the study, we analyze changes in groundwater pressure observed in several boreholes drilled in and around the Mizunami Underground Research Laboratory (MIU) induced by the 2011 off the Pacific coast of Tohoku Earthquake (Mw 9.0). The aim of this project is a development of methodology to evaluate systematic fault activity by numerical analysis. To reach this goal we investigate the behavior of the fault zones present in the area during the passing of seismic waves. We built a simplified hydrogeological model of the MIU site and performed a series of fluid flow simulations with TOUGH2 flow numerical code. We investigate how changes in permeability along three faults present in the study area: the Tsukiyoshi Fault, the Hiyoshi Fault and the Main-Shaft Fault may have influence the groundwater level monitored in boreholes intervals. We also test the influence of the cone of depression at the MIU site and the hydraulic connectivity between the sedimentary cover and the granite aquifers. Our results suggest that two main mechanisms are responsible for the observed changes in groundwater pressure: (1) crustal dilation induced by the Tohoku earthquake causing a groundwater recharge from the sedimentary aquifers to the Toki granite aquifer where the sedimentary cover is thick; and (2) permeability increase along faults critically oriented for shear reactivation and oriented in the direction of the passing seismic wave. In this case, the seismic wave increases the shear stress acting on the fault promoting slip and a change in permeability through a mechanism of slip-induced dilation. Faults not critically stressed and faults critically oriented for shear reactivation but oriented perpendicular to the passing seismic wave are not reactivated.

Research Organization:
Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Biological and Environmental Research (BER)
Grant/Contract Number:
AC02-05CH11231
OSTI ID:
1821252
Alternate ID(s):
OSTI ID: 1894051
Journal Information:
Journal of Hydrology X, Journal Name: Journal of Hydrology X Vol. 13 Journal Issue: C; ISSN 2589-9155
Publisher:
ElsevierCopyright Statement
Country of Publication:
Netherlands
Language:
English

References (27)

Earthquake-related water-level changes at 16 closely clustered wells in Tono, central Japan journal June 1999
Coseismic response of water level in Changping well, China, to the Mw 9.0 Tohoku earthquake journal December 2015
Seismic waves increase permeability journal June 2006
The response of well-aquifer systems to seismic waves journal August 1965
A permeability-change model for water-level changes triggered by teleseismic waves: A permeability-change model for water level changes journal July 2011
Seismically induced water level fluctuations in the Wali Well, Beijing, China journal January 1989
Dynamic Stresses, Coulomb Failure, and Remote Triggering journal February 2008
Increased pressure from rising bubbles as a mechanism for remotely triggered seismicity journal September 1994
Coseismic hydrological changes associated with dislocation of the September 21, 1999 Chichi earthquake, Taiwan: COSEISMIC HYDROLOGICAL CHANGES journal September 2002
Post-earthquake ground movements correlated to pore-pressure transients journal July 2003
Internal deformation due to shear and tensile faults in a half-space journal April 1992
Persistent water level changes in a well near Parkfield, California, due to local and distant earthquakes journal January 1998
Permeability changes associated with large earthquakes: An example from Loma Prieta, California journal January 1992
Earthquakes instrumentally recorded in artesian wells* journal April 1935
Groundwater pressure changes in Central Japan induced by the 2011 off the Pacific coast of Tohoku Earthquake journal January 2012
Post-seismic fluid flow and Coulomb stress changes in a poroelastic medium journal August 2005
Earthquake Triggering by Static, Dynamic, and Postseismic Stress Transfer journal May 2005
A permeability and compliance contrast measured hydrogeologically on the San Andreas Fault: HYDROGEOLOGIC ARCHITECTURE OF FAULT ZONE journal March 2016
Aquifers switched from confined to semiconfined by earthquakes journal November 2016
Mechanism of water level changes during earthquakes: Near field versus intermediate field: WATER LEVEL CHANGES DURING EARTHQUAKES journal June 2008
Regression analysis for anomalous changes of ground water level due to earthquakes journal June 1992
Hydrological response to earthquakes in the Haibara well, central Japan - II. Possible mechanism inferred from time-varying hydraulic properties journal December 2003
Water Wells as Possible Indicators of Tectonic Strain journal August 1975
Coseismic response of groundwater level in the Three Gorges well network and its relationship to aquifer parameters journal June 2013
A mechanism for sustained groundwater pressure changes induced by distant earthquakes journal January 2003
A study of a well gauge as a seismograph* journal October 1935
Water-level changes in response to the 20 December 1994 earthquake near Parkfield, California journal April 1997

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58 GEOSCIENCES
remote earthquake
fault stability
groundwater table variation
changes in fault permeability
Tohoku earthquake
Mizunami underground research laboratory