Title of article
Groundwater-level Anomalies Associated with a Hypothetical Preslip Prior to the Anticipated Tokai Earthquake: Detectability Using the Groundwater Observation Network of the Geological Survey of Japan, AIST
Author/Authors
Norio Matsumoto، نويسنده , , Yuichi Kitagawa، نويسنده , , Naoji Koizumi، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2007
Pages
20
From page
2377
To page
2396
Abstract
We infer the groundwater-level anomalies associated with a hypothetical preslip prior to the
anticipated M 8 Tokai earthquake, and evaluate the detectability of the anomalies using data from seven
groundwater wells. We evaluate the detectability of the anomalies under the following assumptions: (1) an Mw
5.5–6.5 aseismic preslip event occurs at the plate boundary in and around the hypothetical focal zone of the
Tokai earthquake; (2) the total amount of the strain step at each observation associated with the preslip can be
calculated by tensile and shear faulting based on the dislocation model; (3) a normalized strain history associated
with the preslip is defined from the results of numerical simulations based on rate- and state-dependent friction
laws; and (4) the groundwater-level anomaly prior to the earthquake is proportional to the estimated history of
the strain change associated with the preslip. We investigate the detection time of the anomaly at seven wells
given an Mw 5.5, 6.0, or 6.5 aseismic preslip at one of the 272 grid points in and around the area of the
hypothetical focal zone of the Tokai earthquake. As a result, over the time interval between 1 and 48 hours prior
to the hypothetical Tokai earthquake, we are able to detect at each of the seven wells a hypothetical Mw 6.5
preslip at 10–86 of the 272 grid points, an Mw 6 preslip at 0–19 grid points, and an Mw 5.5 preslip at 0–5 grid
points.
Keywords
central Japan. , Tokai Earthquake , Strain , preslip , Noise level , earthquake prediction , groundwater level
Journal title
Pure and Applied Geophysics
Serial Year
2007
Journal title
Pure and Applied Geophysics
Record number
430163
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