Redirigiendo al acceso original de articulo en 19 segundos...
ARTÍCULO
TITULO

Nearshore Dynamics of Storm Surges and Waves Induced by the 2018 Typhoons Jebi and Trami Based on the Analysis of Video Footage Recorded on the Coasts of Wakayama, Japan

Yusuke Yamanaka    
Yoshinao Matsuba    
Yoshimitsu Tajima    
Ryotaro Shibata    
Naohiro Hattori    
Lianhui Wu and Naoko Okami    

Resumen

In this study, field surveys along the coasts of Wakayama Prefecture, Japan, were first conducted to investigate the coastal damage due to storm surges and storm-induced waves caused by the 2018 Typhoons Jebi and Trami. Special focus was placed on the characteristic behavior of nearshore waves through investigation of observed data, numerical simulations, and image analysis of video footage recorded on the coasts. The survey results indicated that inundation, wave overtopping, and drift debris caused by violent storm-induced waves were the dominant factors causing coastal damage. Results of numerical simulations showed that heights of storm-induced waves were predominantly greater than storm surge heights along the entire coast of Wakayama in both typhoons. However, computed gradual alongshore variations in wave and surge heights did not explain locally-concentrated inundation and run-up heights observed along the coasts. These results indicate that complex nearshore hydrodynamics induced by local nearshore bathymetry might have played a significant role in inducing such local wave characteristics and the associated coastal damage. Analysis of video footage recorded during Typhoon Jebi, for example, clearly showed evidence of amplified infragravity wave components, which could enhance inundation and wave run-up.

 Artículos similares

       
 
Luigi Gifuni, Paola de Ruggiero, Daniela Cianelli, Enrico Zambianchi and Stefano Pierini    
The hydrology and circulation in the northwestern part of the Gulf of Naples are analyzed during the transition period from spring to summer (April?June) 2016 through numerical simulations and in situ observations. The simulations were performed with the... ver más

 
Pushpa Dissanayake, Marissa L. Yates, Serge Suanez, France Floc?h and Knut Krämer    
Wave dynamics contribute significantly to coastal hazards and were thus investigated at Vougot Beach by simulating both historical and projected future waves considering climate change impacts. The historical period included a major storm event. This per... ver más

 
Cyprien Bosserelle, Shari L. Gallop, Ivan D. Haigh and Charitha B. Pattiaratchi    
Natural formations of rock and coral can support geologically controlled beaches, where the beach dynamics are significantly influenced by these structures. However, little is known about how alongshore variations in geological controls influence beach m... ver más

 
Guihao Li, Qinqin Song, Pengfei Zheng, Xiaoli Zhang, Songbao Zou, Yanfang Li, Xuelu Gao, Zhao Zhao and Jun Gong    
Marine Synechococcus are an ecologically important picocyanobacterial group widely distributed in various oceanic environments. Little is known about the dynamics and distribution of Synechococcus abundance and genotypes during seasonal hypoxia in coasta... ver más

 
Ping Wang and Jun Cheng    
The displacement of a large amount of water in a moderate-sized estuary by a fast-moving mega-ship can generate tsunami-like waves. Such waves, generated by cruise ships, were observed in Tampa Bay, Florida, USA. Two distinct, long tsunami-like waves wer... ver más