Volcanic plume measurements using a UAV for the 2014 Mt. Ontake eruption

Mori Toshiya; Hashimoto Takeshi; Terada Akihiko; Yoshimoto Mitsuhiro; Kazahaya Ryunosuke; Shinohara Hiroshi; Tanaka Ryo

タイトル	en Volcanic plume measurements using a UAV for the 2014 Mt. Ontake eruption
作成者	en Mori, Toshiya en Hashimoto, Takeshi NRID 1000070283588 en Terada, Akihiko en Yoshimoto, Mitsuhiro en Kazahaya, Ryunosuke en Shinohara, Hiroshi en Tanaka, Ryo
アクセス権	open access
権利情報	http://creativecommons.org/licenses/by/4.0/ en Creative Commons Attribution 4.0 International
主題	Other en Mt. Ontake Other en The 2014 eruption Other en Phreatic eruption Other en Volcanic plume Other en Sulfur dioxide Other en Hydrogen sulfide Other en Volcanic gas flux Other en UAV Other en MultiGAS NDC 450
内容注記	Abstract en A phreatic eruption of Mt. Ontake, Japan, started abruptly on September 27, 2014, and caused the worst volcanic calamity in recent 70 years in Japan. We conducted volcanic plume surveys using an electric multirotor unmanned aerial vehicle to elucidate the conditions of Mt. Ontake’s plume, which is flowing over 3000 m altitude. A plume gas composition, sulfur dioxide flux and thermal image measurements and a particle sampling were carried out using the unmanned aerial vehicle for three field campaigns on November 20 and 21, 2014, and June 2, 2015. Together with the results of manned helicopter and aircraft observations, we revealed that the plume of Mt. Ontake was not directly emitted from the magma but was influenced by hydrothermal system, and observed SO2/H2S molar ratios were decreasing after the eruption. High SO2 flux of >2000 t/d observed at least until 20 h after the onset of the eruption implies significant input of magmatic gas and the flux quickly decreased to about 130 t/d in 2 months. In contrast, H2S fluxes retrieved using SO2/H2S ratio and SO2 flux showed significantly high level of 700–800 t/d, which continued at least between 2 weeks and 2 months after the eruption. This is a peculiar feature of the 2014 Mt. Ontake eruption. Considering the trends of the flux changes of SO2 and H2S, we presume that majority of SO2 and H2S are supplied, respectively, from high-temperature magmatic fluid of a deep origin and from hydrothermal system. From the point of view of SO2/H2S ratios and fumarolic temperatures, the plume degassing trend after the 2014 eruption is following the similar course as that after the 1979 eruptions, and we speculate the 2014 eruptive activity will cease slowly similar to the 1979 eruption.
出版者	en Springer
日付	Issued2016-03-22
言語	eng
資源タイプ	journal article
出版タイプ	VoR
資源識別子	HDL http://hdl.handle.net/2115/61987
関連	isIdenticalTo DOI https://doi.org/10.1186/s40623-016-0418-0
収録誌情報	PISSN 1343-8832 EISSN 1880-5981 NCID AA11211921 en Earth, Planets and Space 巻68 号1 開始ページ49
ファイル	fulltext Mori_et_al_2016_EPS.pdf 4.23 MB (application/pdf) Issued2016-03-22
コンテンツ更新日時	2023-07-26