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  1. 防災科研関係論文

地球物理学的多項目観測から見た噴火過程(<特集>日本火山学会60周年「火山学の最新動向と今後の展望」)

https://nied-repo.bosai.go.jp/records/5381
https://nied-repo.bosai.go.jp/records/5381
97d5d1f1-fff5-43c2-81c4-740f7d1dddd7
Item type researchmap(1)
公開日 2023-03-30
タイトル
言語 ja
タイトル 地球物理学的多項目観測から見た噴火過程(<特集>日本火山学会60周年「火山学の最新動向と今後の展望」)
タイトル
言語 en
タイトル Eruption Process Inferred from Multi-parameter Geophysical Observations(<Special Section>The 60th Anniversary of VSJ "Latest Advances and Future Perspectives in Volcanology")
言語
言語 jpn
著者 中道 治久

× 中道 治久

ja 中道 治久

en NAKAMICHI Haruhisa

Search repository
青山 裕

× 青山 裕

ja 青山 裕

en AOYAMA Hiroshi

Search repository
抄録
内容記述タイプ Other
内容記述 日本火山学会60周年「火山学の最新動向と今後の展望」
言語 ja
抄録
内容記述タイプ Other
内容記述 This paper reviews the eruption processes, as well as the processes leading up to the eruption, as revealed by multi-parameter geophysical observations. First, we briefly describe the history and development of geophysical observational methods in Japan. A prototype of multi-parameter geophysical observation had already been established at a few volcanoes in Japan 50 years ago. To obtain high-quality geophysical data, underground tunnels and boreholes had been constructed around volcanoes, and seismometers, tiltmeters, and strainmeters had been installed in them during the 1980s and 1990s. Broadband seismometers and a data logger with a GPS clock that are small and lightweight, were introduced in the mid-1990s. Combined with large data storage capacity in the data loggers and efficient data transmission using IP protocols, simultaneous multi-parameter geophysical observations have been intensively and continuously conducted since the early 2000s in order to reveal the eruption processes. Since then, various analysis methods suitable for multi-parameter observations have been developed. Although the time scales of volcanic eruptions vary widely, from several seconds to several decades, most of these scales are covered by multi-parameter geophysical observation. We review the advances and challenges for understanding not only the eruption processes, but also the precursory processes leading up to eruptions, which have been revealed by multi-parameter geophysical observations during the past decade. The explosive eruption processes, which include Plinian, Vulcanian, and Strombolian eruptions, and effusive eruptions, which include Hawaiian and dome-forming eruptions, are also reviewed. Physical models for these types of eruptions have been developed experimentally and theoretically, and examined later using geophysical observations. For each type of eruption, we briefly introduce the proposed physical models and describe their progress, mainly from the viewpoint of multi-parameter geophysical observations. The eruption processes of Plinian eruptions have been revealed mainly by worldwide seismic and infrasound observation networks and satellite images. Vulcanian and Strombolian eruptions are most intensively studied by multi-parameter geophysical observations, because of their high-frequency nature and accessibility to the proximity of active craters in deploying monitoring instruments. For example, the precursory processes of Vulcanian eruptions are characterized by inflation, relatively stable, and slight deflation stages of the volcano edifices, which are inferred by continuous crustal deformation measurements. Strombolian eruptions are understood as repeating strong gas bursts at the surface of liquid magma. Recently, new monitoring techniques such as high-speed cameras and portable radar units have been introduced to observe the Strombolian surface activities. Hawaiian eruptions are characterized by explosive lava fountains and large lava flows traveling more than several kilometers. Multi-parameter observations are quite useful for monitoring the locations of dike intrusions and lava fountains. Dome-forming eruptions have the longest time-scales among these eruption styles. Temporal fluctuations of dome growth are well monitored by geodetic and photogrammetric observations. Recent seismic observations of dome-forming have revealed the characteristic repeating earthquakes and provided new insights into the physical mechanisms of dome growth. Our understanding of the physical process of phreatic eruptions is quite limited relative to magmatic eruptions. Recently, tilt changes associated with tremors were sometimes observed before phreatic eruptions at several volcanoes, and may be forerunners of phreatic eruptions. We need much more data to understand the processes leading up to phreatic eruptions. Erupted volumes and rates are inferred from multi-parameter geophysical
言語 en
書誌情報 ja : 火山
en : BULLETIN OF THE VOLCANOLOGICAL SOCIETY OF JAPAN

巻 61, 号 1, p. 119-154
出版者
言語 ja
出版者 日本火山学会
出版者
言語 en
出版者 The Volcanological Society of Japan
ISSN
収録物識別子タイプ ISSN
収録物識別子 0453-4360
DOI
関連識別子 10.18940/kazan.61.1_119
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