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Numerical Simulations of Large-Scale Sediment Transport Caused by the 2011 Tohoku Earthquake Tsunami in Hirota Bay, Southern Sanriku Coast

2016; Taylor & Francis; Volume: 58; Issue: 4 Linguagem: Inglês

10.1142/s0578563416400155

2166-4250

Kei Yamashita, Daisuke Sugawara, Tomoyuki Takahashi, Fumihiko Imamura, Yuichi Saito, Yoshiyuki Imato, Tadashi Kai, Hitoshi Uehara, Toshihiro Kato, Kazuto Nakata, Ryotaro Saka, Asao Nishikawa,

earthquake and tectonic studies

A numerical sediment transport model (STM) was used to investigate coastal geomorphic changes that resulted from the 2011 Tohoku earthquake tsunami in Rikuzentakata City and Hirota Bay on the southern Sanriku Coast of Japan. The simulation was verified using observed inundation processes and heights, measured topographic changes and sediment deposition. Aerial video footage recorded by the Iwate Prefectural Police was also used. The results show that the numerical model was able to predict the spatial distribution and volume of erosion and deposition in Hirota Bay, as well as sediment transport processes. The effects of sediment transport on tsuneimi inundation were also investigated. Numerical results revealed that the majority of the sand dunes were eroded by the first wave, especially during the strong return flow of the receding wave. Large flows and sand dune erosions can occur elsewhere if tsunamis inundate a plain with a limited shore-normal width. These events could cause large-scale morphological changes comparable to those that occurred in Rikuzentakata City.