JpGU-AGU Joint Meeting 2017

講演情報

[JJ] ポスター発表

セッション記号 S (固体地球科学) » S-VC 火山学

[S-VC48] [JJ] 火山の熱水系

2017年5月25日(木) 10:45 〜 12:15 ポスター会場 (国際展示場 7ホール)

コンビーナ:藤光 康宏(九州大学大学院工学研究院地球資源システム工学部門)、鍵山 恒臣(京都大学理学研究科)、大場 武(東海大学理学部化学科)

[SVC48-P06] 近年の草津白根山の活動に伴う火口湖「湯釜」における溶存硫黄化学種濃度の変化

*木川田 喜一1平山 愉子2濱田 修平2 (1.上智大学理工学部、2.上智大学)

キーワード:草津白根山、湯釜、火口湖、湖底噴気、ポリチオン酸、硫黄オキシアニオン

The Kusatsu-Shirane volcano is one of the most famous active volcanoes in Japan. Yugama, an active crater lake located on the pyroclastic cone of the volcano, is filled with high acidity water due to the injection of hydrothermal fluids from subaqueous fumaroles. Yugama has been the center of recent volcanic activity. We have been monitoring the water chemistry of Yugama over the past five decades.

The volcano has been in an active period since the late 2000s, and the activity has increased further since March 2014. In 2014, an earthquake swarm was observed around Yugama crater with inflation at shallow depth beneath Yugama. The concentrations of chloride ion and dissolved sulfur species in the Yugama water started increasing sharply in September 2014, immediately after the end of the earthquake swarm. We estimated the total amount of polythionate ions in the Yugama water as the difference between the sulfate ion content determined by ion chromatography and total sulfur content determined by ICP-OES. Our analytical results reveal that polythionate ions, which had not been observed for few years, have appeared with remarkable amounts in the Yugama water in September 2014, and their total amount has drastically increased to 3000 mg/L on a sulfate basis within seven months. Resultantly, more than a half amount of dissolved sulfur in Yugama has existed as polythionate species since mid-2015. This high proportion of polythionate species to the total sulfur species in Yugama is comparable to that observed in the 1970s before the 1982-1983 phreatic eruptions at Yugama. The changes in ORP in the Yugama water in and after 2014 suggest that increasing of SO2/H2S ratio in the volcanic gasses from the subaqueous fumaroles induce a production of polythionate species. The chemistry of polythionates in the Yugama water may be more complex than we thought.