MT法による黒松内地域の地下構造

平田, 貴一; 茂木, 透; 山谷, 祐介; 長谷, 英彰; 市原, 寛


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Hokkaido University Collection of Scholarly and Academic Papers >
Graduate School of Science / Faculty of Science >
北海道大学地球物理学研究報告 = Geophysical bulletin of Hokkaido University >
第72号 >

MT法による黒松内地域の地下構造

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Please use this identifier to cite or link to this item:https://doi.org/10.14943/gbhu.72.387

Title:	MT法による黒松内地域の地下構造
Other Titles:	Subsurface structure of the Kuromatsunai area using MT survey
Authors:	平田, 貴一¹ Browse this author
	茂木, 透² Browse this author →KAKEN DB
	山谷, 祐介³ Browse this author
	長谷, 英彰⁴ Browse this author
	市原, 寛⁵ Browse this author
Authors(alt):	Hirata, Kiichi¹
	Mogi, Toru²
	Yamaya, Yusuke³
	Hase, Hideaki⁴
	Ichihara, Hiroshi⁵
Issue Date:	15-Mar-2009
Publisher:	北海道大学大学院理学研究院自然史科学部門（地球物理学）
Journal Title:	北海道大学地球物理学研究報告
Journal Title(alt):	Geophysical bulletin of Hokkaido University
Volume:	72
Start Page:	387
End Page:	398
Abstract:	A magnetotelluric (MT) survey was conducted in the Kuromatsunai area to identify resistivity structures and their features. A basin that formed in the Kuromatsunai lowland area during the Miocene contains a thick Miocene to Plio-Pleistocene sediments. On the west side of the lowland is an active fault zone that is experiencing ongoing, east-down displacement. Three magnetic field components and two horizontal electrical field components were observed over 20-40 hours at eleven sites, and magnetotelluric impedances were calculated for a frequency range of 320-0.00034 Hz. The strike direction of dominant resistivity structures was determined using a phase tensor estimation (Caldwell et al., 2004). A two-dimensional resistivity structure was obtained through a two-dimensional inversion with smoothness constraints and static shift corrections (Ogawa and Uchida, 1996). The results show that relatively resistive Plio-Pleistocene to upper Miocene strata occupy the shallow subsurface of the lowland. Conductive lower to middle Miocene strata underlie the Plio-Pleistocene units. Resistive granitic rocks present at greater depth below the lowland differ from the material present at similar depth outside of the lowland area. Granitic rocks are also exposed at the eastern end of the lowland. Induction vectors observed in the MT survey at Komagatake Volcano (Yamaya et al., 2004) suggest that telluric current flows toward the Japan Sea from the Pacific side of Funka Bay through a conductive layer at the back of the bay. It is likely that this conductive unit corresponds to the thick Miocene strata of the Kuromatsunai area.
Type:	bulletin (article)
URI:	http://hdl.handle.net/2115/38169
Appears in Collections:	北海道大学地球物理学研究報告 = Geophysical bulletin of Hokkaido University > 第72号

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