Last Update 10/05 2009
Research: 1. Geological studies on dynamics of pyroclastic density currents, eruption column, and lava dome during volcanic eruption. 2. Studies on tsunamis generated by volcanic eruption, based on geological and numerical analyses. Publications: 前野深・谷口宏充, 薩摩硫黄島におけるカルデラ形成期以降の噴火史, 火山, 50, 71--85, 2005. Maeno, F. and H. Taniguchi, Silicic lava dome growth in the 1934-1935 Showa Iwo-jima eruption, Kikai caldera, south of Kyushu, Japan., Bulletin of Volcanology, 68, 673--688, 2006. Maeno, F., F. Imamura and H. Taniguchi, Numerical simulation of tsunamis generated by caldera collapse during the 7.3 ka Kikai eruption, Kyushu, Japan., Earth Planets Space, 58, 1013--1024, 2006. Maeno, F. and Imamura, F., Numerical investigations of tsunamis generated by pyroclastic flows from the Kikai caldera, Japan, Geophys. Res. Lett., 34, L23303, , 2007. Maeno, F. and H. Taniguchi, Spatiotemporal evolution of a marine caldera-forming eruption, generating a low-aspect ratio pyroclastic flow, 7.3 ka, Kikai caldera, Japan: implication from near-vent eruptive deposits., J. Volcanol. Geotherm. Res., 167, 212--238, 2007. Maeno, F. and H. Taniguchi, Sedimentation and welding processes of dilute pyroclastic density currents and fallout during a large-scale silicic eruption, Kikai caldera, Japan, Sedimentary Geology, 220, 227--242, 2009. 前野深, 大規模珪長質マグマ噴火におけるカルデラ形成のダナミクス, 火山, 54, 3, 113--121, 2009. 今村文彦・前野 深, 第3章6節 火山性津波. 井田喜明・谷口宏充編「火山爆発に迫る−噴火メカニズムの解明と火山災害の軽減−」, 東京大学出版会, 2009. |
