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Exploration Geophysics Exploration Geophysics Society
Journal of the Australian Society of Exploration Geophysicists
RESEARCH ARTICLE

Electromagnetic exploration in high-salinity groundwater zones: case studies from volcanic and soft sedimentary sites in coastal Japan

Koichi Suzuki 1 4 Yukiko Kusano 2 Ryota Ochi 3 Nariaki Nishiyama 3 Tomochika Tokunaga 2 Kazuhiro Tanaka 3
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- Author Affiliations

1 Central Research Institute of Electric Power Industry, 1646, Abiko, Abiko-shi, Chiba 270–1194, Japan.

2 Department of Environment Systems, The University of Tokyo, 5-1-5, Kashiwanoha, Kashiwa-shi, Chiba 277–8563, Japan.

3 Department of Geosphere Sciences, Facility of Science, Yamaguchi University, 1677-1 Yoshida Yamaguchi-shi, Yamaguchi 753–8512, Japan.

4 Corresponding author. Email: k-suzuki@criepi.denken.or.jp

Exploration Geophysics 48(2) 95-109 https://doi.org/10.1071/EG15121
Submitted: 27 November 2015  Accepted: 30 November 2015   Published: 20 January 2016
Originally submitted to SEGJ 28 July 2014, accepted 6 November 2015  

Abstract

Estimating the spatial distribution of groundwater salinity in coastal plain regions is becoming increasingly important for site characterisation and the prediction of hydrogeological environmental conditions resulting from radioactive waste disposal and underground CO2 storage. In previous studies of the freshwater–saltwater interface, electromagnetic methods were used for sites characterised by unconsolidated deposits or Neocene soft sedimentary rocks. However, investigating the freshwater–saltwater interface in hard rock sites (e.g. igneous areas) is more complex, with the permeability of the rocks greatly influenced by fractures. In this study, we investigated the distribution of high-salinity groundwater at two volcanic rock sites and one sedimentary rock site, each characterised by different hydrogeological features. Our investigations included (1) applying the controlled source audio-frequency magnetotelluric (CSAMT) method and (2) conducting laboratory tests to measure the electrical properties of rock core samples. We interpreted the 2D resistivity sections by referring to previous data on geology and geochemistry of groundwater. At the Tokusa site, an area of inland volcanic rocks, low resistivity zones were detected along a fault running through volcanic rocks and shallow sediments. The results suggest that fluids rise through the Tokusa-Jifuku Fault to penetrate shallow sediments in a direction parallel to the river, and some fluids are diluted by rainwater. At the Oki site, a volcanic island on a continental shelf, four resistivity zones (in upward succession: low, high, low and high) were detected. The results suggest that these four zones were formed during a transgression–regression cycle caused by the last glacial period. At the Saijo site, located on a coastal plain composed of thick sediments, we observed a deep low resistivity zone, indicative of fossil seawater remnant from a transgression after the last glacial period. The current coastal plain formed in historical times, following which fresh water penetrated the upper parts of the fossil seawater zone to form a freshwater aquifer ~200 m in thickness.

Key words: coastal area, deep fluid, electromagnetic exploration, freshwater–saltwater interface, island on a continental shelf, resistivity.


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