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ID 118764
Title Alternative
Social Implementation of Tsunami Prediction System on Wakayama by Using DONET Information
Author
Ishibashi, Masanobu Wakayama prefectural government
Takahashi, Narumi Japan Agency for Marine-Earth Science and Technology|National Research Institute for Earth Science and Disaster Resilience
Imai, Kentaro Japan Agency for Marine-Earth Science and Technology
Keywords
津波予測
地域防災
社会実装
和歌山県
tsunami prediction
Regional Disaster Prevention
social implementation
Wakayama Prefecture
Content Type
Journal Article
Description
High possibility of occurrence of earthquake with M9 or lager in the Nankai subduction zone was pointed out by Cabinet Office of Japanese government. Local governments along the area revised estimation of tsunami damages and attempt to reconstruct action plans for the disaster prevention. However, according to Cabinet office of Japanese government, the coastal area near the rupture zone receives huge tsunami within a few minutes after the earthquake happens. To take actions against the severe situation, we need a high-speed, and high-accurate tsunami prediction system. Baba et al. (2014) investigated the possibility for use of a concept of tsunami amplification in the early tsunami prediction. They computed tsunami waveforms at the twenty pressure gauges of dense ocean floor network system for earthquakes and tsunamis (DONET) and at prediction points near shore. They found clear correlations between them because tsunami height basically depends on the topography (bathymetry) during its propagation. In this study, an early tsunami prediction system using the concept of tsunami amplification was societally implemented in 6 regional areas in Wakayama Prefecture. We constructed a tsunami database that contains pre-computed tsunamis offshore and nearshore from 1506 earthquake scenarios may occur in the Nankai subduction zones. The new system detects first arrivals of earthquake and tsunami from DONET data in real time, and calculate average value of absolute observed pressure values among twenty DONET stations. The value is used to select an appropriate scenario from the tsunami database. Prediction accuracy of the system was also investigated by using cases of the 1944 Tonankai earthquake and the scenario earthquake provided by the Cabinet office. As a result, we found that predicted inundation area to be overestimated as the safety of the prediction.
Description Alternative
南海トラフの沈み込み帯において,M9クラス巨大地震とそれにともなう巨大津波の発生の可能性が内閣府により指摘されて久しい。この津波被害想定によると,地震域近傍の沿岸地域では地震発生から数分後に巨大な津波が到達してしまうため,津波防災に向けた行動計画の再構築や人的被害軽減のための迅速な対応策の検討が極めて重要になる。その対応策のひとつとして,高速かつ高精度な即時津波予測が有効と考えられる。本研究では,地震と津波観測に向けた稠密海底観測網(DONET)による沖合観測網を利用した即時津波予測システムを構築し,和歌山県沿岸6地域において実装を行い,その有効性の検討を行った。本システムにより,地震と津波の初動到達時間を即時評価できること,沿岸津波高や浸水域の即時予測が可能であることを示した。さらに,1944年昭和東南海地震の事例と内閣府のM9クラス巨大地震の波源シナリオを用いて本システムの予測精度を検証した。本システムで即時予測される沿岸津波高や浸水域面積はやや過大評価傾向にあるものの,おおむね安全側の予測結果となり,津波防災上有効なシステムであることを示した。
Journal Title
Journal of Japan Society for Natural Disaster Science
ISSN
24341037
02866021
NCID
AN10165274
Publisher
日本自然災害学会
Volume
37
Issue
1
Start Page
125
End Page
142
Published Date
2018
EDB ID
DOI (Published Version)
URL ( Publisher's Version )
FullText File
language
jpn
TextVersion
Publisher
departments
Science and Technology