Precise remote-monitoring technique of water volume and temperature of a crater lake in Aso volcano, Japan : implications for a sensitive window of a volcanic hydrothermal system

Terada, Akihiko; Hashimoto, Takeshi; Kagiyama, Tsuneomi; Sasaki, Hisashi

doi:10.1186/BF03353134


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Precise remote-monitoring technique of water volume and temperature of a crater lake in Aso volcano, Japan : implications for a sensitive window of a volcanic hydrothermal system

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Title:	Precise remote-monitoring technique of water volume and temperature of a crater lake in Aso volcano, Japan : implications for a sensitive window of a volcanic hydrothermal system
Authors:	Terada, Akihiko Browse this author
	Hashimoto, Takeshi Browse this author →KAKEN DB
	Kagiyama, Tsuneomi Browse this author
	Sasaki, Hisashi Browse this author
Keywords:	Crater lake
	hydrothermal system
	digital surface model
	digital camera
	Aso volcano
Issue Date:	2008
Journal Title:	Earth, Planets and Space
Volume:	60
Issue:	6
Start Page:	705
End Page:	710
Publisher DOI:	10.1186/BF03353134
Abstract:	A high-resolution Digital Surface Model and a commercial digital camera have enabled precise and continuous monitoring of the crater lake at Aso volcano. From July 2006 onwards, infrared (IR) thermometry has been used with this system, enabling more accurate measurements of lake volume and temperature based on simple and intensive observations than has been possible in any other previous studies. The heat discharge remained largely constant at approximately 220 MW, with the exception of an abrupt increase to 280 MW that coincided with a rapid decrease in the water level in August 2007. Simultaneously, an increase in temperature at a shallow depth was suggested by other observations. The crater lake was found to respond to even slight changes in volcanic fluid supply, which can be well quantified by our method. Thus, a crater lake can be monitored more precisely than subaerial fumaroles whose energy estimation is often accompanied by large uncertainties. Our monitoring technique of a crater lake provides information on the subsurface hydrothermal system beneath it, for which any in-situ measurements are practically impossible.
Type:	article
URI:	http://hdl.handle.net/2115/67565
Appears in Collections:	理学院・理学研究院 (Graduate School of Science / Faculty of Science) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

Submitter: 橋本武志

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