从近场宽带地震观测推断阿苏火山潜水式喷发的机制
Mechanism of Phreatic Eruptions at Aso Volcano Inferred from Near-Field Broadband Seismic Observations.
作者信息
Kaneshima S, Kawakatsu H, Matsubayashi H, Sudo Y, Tsutsui T, Ohminato T, Ito H, Uhira K, Yamasato H, Oikawa J, Takeo M, Iidaka T
机构信息
S. Kaneshima, Department of Earth and Planetary Physics, Faculty of Science, University of Tokyo, Bunkyo-ku, Tokyo 113, Japan. H. Kawakatsu, H. Matsubayashi, J. Oikawa, M. Takeo, T. Iidaka, Earthquake Research Institute, University of Tokyo, Bunkyo-ku, Tokyo 113 Japan. Y. Sudo and T. Tsutsui, Aso Volcanological Laboratory, Faculty of Science, Kyoto University, Aso, Kumamoto 869-14, Japan. T. Ohminato and H. Ito, Geological Survey of Japan, Tsukuba, Ibaraki 305, Japan. K. Uhira, Japan Meteorological Agency, Chiyoda-ku, Tokyo 110, Japan. H. Yamasato, Meteorological Research Institute, Tsukuba, Ibaraki 305, Japan.
出版信息
Science. 1996 Aug 2;273(5275):642-5. doi: 10.1126/science.273.5275.642.
Broadband seismometers deployed at Aso volcano in Japan have detected a hydrothermal reservoir 1 to 1.5 kilometers beneath the crater that is continually resonating with periods as long as 15 seconds. When phreatic eruptions are observed, broadband seismograms elucidate a dynamic interplay between the reservoir and discharging flow along the conduit: gradual pressurization and long-period (approximately20 seconds) pulsations of the reservoir during the 100 to 200 seconds before the initiation of the discharge, followed by gradual deflation of the reservoir concurrent with the discharging flow. The hydrothermal reservoir, where water and heat from the deeper magma chamber probably interact, appears to help control the surface activity at Aso volcano.
部署在日本阿苏火山的宽带地震仪探测到火山口下方1至1.5公里处有一个热液储层,该储层持续以长达15秒的周期共振。当观测到蒸汽喷发时,宽带地震图揭示了储层与沿管道排放流之间的动态相互作用:在排放开始前的100至200秒内,储层逐渐增压并出现长周期(约20秒)脉动,随后储层随着排放流逐渐减压。热液储层可能是来自更深岩浆房的水和热量相互作用的地方,它似乎有助于控制阿苏火山的地表活动。
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