Author:
Tanada Toshikazu,Nakamura Yoichi, ,
Abstract
A time domain electromagnetic survey (TDEM method) was conducted to investigate the resistivity structure of the crater, fumarole, and hot spring area of the Nasudake (Chausudake) volcano. The findings of this survey are as follows: (1) Under the crater area, a thin low-resistivity layer (approximately 50 m) was found on the surface, and lens-shaped high-resistivity areas continued to a depth of 800 m below it. The lens-shaped high-resistivity areas are believed to correspond to a thermal volcanic gas region. (2) From the east-west direction survey line crossing the foot of the Nasudake, two or three horizontal resistivity layer structures, which are considered to be caused by the geological structure and surface water, were observed.
Publisher
Fuji Technology Press Ltd.
Subject
Engineering (miscellaneous),Safety, Risk, Reliability and Quality
Reference33 articles.
1. Japan Meteorological Agency, “National Catalogue of the Active Volcanoes in Japan (The Fourth Edition),” Edited by Japan Meteorological Agency and Volcanological Society of Japan, 2013, https://www.data.jma.go.jp/svd/vois/data/tokyo/STOCK/souran/menu_jma_hp.html (in Japanese) [accessed September 9, 2020]
2. T. Hashimoto, W. Kanda, Y. Morita, M. Hayakawa, R. Tanaka, H. Aoyama, and M. Uyeshima, “Significance of Electromagnetic Surveys at Active Volcanoes: Toward Evaluating the Imminence of Wet Eruptions,” J. Disaster Res., Vol.14, No.4, pp. 580-591, doi: 10.20965/jdr.2019.p0580, 2019.
3. S. Takakura, “Estimation of a regional geothermal system by the electromagnetic exploration,” BUTSURI-TANSA (Geophysical Exploration), Vol.67, No.3, pp. 195-203, doi: 10.3124/segj.67.195, 2014 (in Japanese).
4. M. Uyeshima, “Current Topics in Surveys of Electrical Conductivity Structure with the Aid of the Magnetotelluric Method,” Zisin (J. of the Seismological Society of Japan, 2nd ser.), Vol.61, Supplement, pp. S225-S238, doi: 10.4294/zisin.61.225, 2009 (in Japanese).
5. H. Ichihara and M. Ichiki, “An overview of electrical resistivity in the crust and upper mantle: principle of magnetotelluric method, accuracy and resolution of resistivity modeling, and electrical resistivity feature of crustal and mantle rocks and minerals,” Japanese Magazine of Mineralogical and Petrological Sciences, Vol.40, No.3, pp. 73-90, doi: 10.2465/gkk.110131b, 2011 (in Japanese).
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