Sadanori Higashi scite author profile

In the interest of monitoring the flow of groundwater from heavy rains, we conducted surface resistivity tomography through the vadose zone over several days. The measured data were modeled by 2-D inversion. A laboratory experiment was carried out to estimate the difference in geological characteristics. We measured the effects of groundwater fluctuation using two tank models: one using sand and one using bricks, which represent unconsolidated sediments and jointed rocks, respectively. In the sand model, we succeeded in monitoring water‐level fluctuation as the change in resistivity over time. In the brick model, the water level did not appear as a distinct boundary. Field experiments were carried out in an area in which the near‐surface conditions consisted of heavily weathered rocks with an extensive shear zone several tens of meters thick. Measurements were performed over 42 days, during which we observed changes in resistivity associated with heavy rainfall. It became clear that resistivity decreases of up to 8% were present in highly porous zones in heavily weathered layers. This result suggests a connection between a decrease in resistivity and the infiltration of rainwater. In particular, a pronounced zone of minimum resistivity may indicate infiltration of rainwater into the vadose zone. The relationship between resistivity changes and rainfall was inferred to depend on the permeability of geological structure.

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Nonlinear Site Response in Kushiro during the 1994 Hokkaido Toho-oki Earthquake

Higashi¹

2000

Bulletin of the Seismological Society of America

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Polarization and Frequency-Wavenumber Spectrum Analysis for the Strong-Motion Array Data in Ashigara Valley, Japan.

Higashi

Kudo

1992

J,Phys,Earth

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Special issue “Effect of surface geology on seismic motion: challenges of applying ground motion simulation to seismology and earthquake engineering”

Wen

Bard

Sánchez-Sesma

et al. 2018

Earth Planets Space

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