Magmatic hydrothermal system inferred from the resistivity structure of Kusatsu-Shirane Volcano

摘要

The Kusatsu-Shirane volcano is a Quaternary andesitic-to-dacitic active volcano located on the central Honshu Arc. The volcano is known to have had repeated phreatic eruptions in last 200 years. A number of geochemical and geophysical studies have been conducted around the Yugama crater lake, the focus of current volcanic activity. However, the 2018 unexpected phreatic eruption occurred at Mt. Motoshirane, a different pyroclastic cone from that which hosts Yugama. There were also frequent magmatic eruptions until 1500 years ago at this cone and the magma produced at that time has not yet cooled and solidified. A better understanding of the magmatic hydrothermal system of this volcano requires structural information gathered over a larger area, and to greater depths, than has been achieved to date. Here, we describe the three-dimensional (3-D) electrical resistivity structure around Mt. Motoshirane down to a depth of -10 km using broadband magnetotelluric (MT) data (320-0.0005 Hz) collected in 2015 and 2016. The 3-D resistivity structure model shows an extensive low-resistivity layer at depths of 1-3.5 km beneath the summit. However, structures characteristic of the presence of magma are not observed beneath this layer. It could be too deep or too small to be detected. Combining the new data with results of previous geochemical and geophysical studies, we interpret the conductor as a hydrothermal fluid reservoir that supplies fluids to the crater lake and to hot springs on the eastern and western flanks of the volcano. The existence of a fluid reservoir that extends from the vicinity of the Yugama crater lake to the subsurface beneath an inactive pyroclastic cone that has produced repeated magmatic eruptions in the past suggests that a large-scale magmatic hydrothermal system is developing beneath the volcano. (C) 2019 Elsevier B.V. All rights reserved.