Abstract
Geoelectric voltages have been continuously observed at Kakioka, Kanoya, and Memambetsu for more than 50 years. The geoelectric fields obtained at the three sites for a recent 11-year period (2000 to 2011) were examined. The fields are mainly induced by variations in the geomagnetic field at periods of less than 105 s. The instability of the observation system causes a long-term trend in the longer period band. This long-term trend can be estimated and removed using the robust Kalman filter procedure which we modified to accommodate data containing outliers. The magnetotelluric (MT) impedance at the three sites was estimated using the original geoelectric field and the geomagnetic field at periods of 6 to 104 s, and the period was extended to 107 s at Kakioka and Memambetsu. Although the geomagnetically induced currents (GIC) at these sites may potentially be estimated using the MT impedance and geomagnetic data (if technological network information is available), the distortion effect should be corrected in order to obtain the correct regional geoelectric field. The eastward component of the geoelectric field at Kakioka shows a severe distortion effect, and the amplification factor was estimated to be approximately 10 from comparison with the C response at Kakioka. Conversely, the distortion effect on the eastward component of the geoelectric field at Memambetsu is almost none. The amplification factor for the northward component of the geoelectric field has not been estimated because of the lack of an independent response for comparison, although the MT response indicates a potentially large distortion at Memambetsu. Numerical modeling would be a useful tool to enable an improved estimation of this distortion.
Highlights
Induced currents (GIC) triggered by geomagnetic disturbances are widely recognized as potential threats to electric power networks and pipe lines at high latitudes (e.g., Bolduc 2002; Molinski 2002; Kappenman 2007)
The geoelectric voltages observed by the Kakioka Magnetic Observatory (KMO), Japan Meteorological Agency, are unique
If regional geoelectric fields can be monitored from the three sites, they will be used for studies of Geomagnetically induced currents (GIC) in Japan
Summary
Induced currents (GIC) triggered by geomagnetic disturbances are widely recognized as potential threats to electric power networks and pipe lines at high latitudes (e.g., Bolduc 2002; Molinski 2002; Kappenman 2007). Concerns have been raised in mid-latitude regions such as Japan (where geomagnetic disturbances are generally too weak to cause harmful GIC), given the possibility of an extreme magnetic storm event occurring (e.g., Pulkkinen et al 2012). The geoelectric voltages observed by the Kakioka Magnetic Observatory (KMO), Japan Meteorological Agency, are unique. The observatory has continuously measured the geoelectric voltage and the geomagnetic field at Kakioka (KAK, 36°13′56′′N, 140°11′11′′E), Kanoya (KNY, 31°25′27′′N, 130°52′48′′E), and Memambetsu (MMB, 43° 54′36′′N, 144°11′19′′E) for more than 50 years (Figure 1). The geoelectric field data at KAK, KNY, and MMB were used to investigate tectonic signals and to estimate the Earth’s conductivity distribution around the sites (e.g., Yokoyama 1962; Yoshimatsu 1957). If regional geoelectric fields can be monitored from the three sites, they will be used for studies of GIC in Japan
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