원문정보
피인용수 : 0건 (자료제공 : 네이버학술정보)
초록
영어
Saga Plain faces the Ariake Sea whose tidal range is largest in Japan. It is significantly difficult to manage storm surge and flood damage in this area because of the unique terrain condition. Under the increase of natural hazard intensity due to climate change, etc., a traditional flood management system applied to this area is useful for the future increasing natural hazard and risk mitigation. In this study, the characteristics of water-related disasters in Saga Plain are reviewed and the usefulness of the traditional flood management technology is clarified by focusing on the historic remains of the watershed's flood management.
목차
ABSTRACT
Introduction
The Ariake Sea and characteristics of water-related disasters in Saga Plain
The Ariake Sea and tidal phenomena
Storm surge and historical typhoons
Northern Kyushu torrential rain in July, 2017
Northern Kyushu torrential rain in July, 2017
Recorded precipitations and water levels of the rivers
Flood damages in Asakura City
Adaptation measures against increase of natural hazards
Increase of natural hazards and three factors of disaster's risk
Traditional flood management technology in Kase River
Quantitative analysis of the functions of overflow embankment and adjoining retarding basins by using GIS
Conclusions
References
Introduction
The Ariake Sea and characteristics of water-related disasters in Saga Plain
The Ariake Sea and tidal phenomena
Storm surge and historical typhoons
Northern Kyushu torrential rain in July, 2017
Northern Kyushu torrential rain in July, 2017
Recorded precipitations and water levels of the rivers
Flood damages in Asakura City
Adaptation measures against increase of natural hazards
Increase of natural hazards and three factors of disaster's risk
Traditional flood management technology in Kase River
Quantitative analysis of the functions of overflow embankment and adjoining retarding basins by using GIS
Conclusions
References
키워드
저자정보
참고문헌
자료제공 : 네이버학술정보