ESTIMATION OF ANNUAL MAXIMUM RAINFALLS BASED ON A MASSIVE ENSEMBLE CLIMATE PREDICTIONS IN ACTUAL RIVER BASIN

ESTIMATION OF ANNUAL MAXIMUM RAINFALLS BASED ON A MASSIVE ENSEMBLE CLIMATE PREDICTIONS IN ACTUAL RIVER BASIN

In August 2016, three typhoons continuous attacked Hokkaido and heavy rainfall occurred in various places. As a result floods of rivers and sediment disasters occurred mainly in eastern of Hokkaido. Recently, there is concern that the impact of such climate change will become apparent. In this situa...

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Veröffentlicht in:Doboku Gakkai Ronbunshu. B1, Suikogaku = Journal of Japan Society of Civil Engineers. Ser. B1, Hydraulic Engineering Ser. B1 (Hydraulic Engineering), 2018, Vol.74(5), pp.I_115-I_120
Hauptverfasser: UEMURA, Fumihiko, MASUYA, Shigekazu, YOSHIDA, Takatoshi, OOMURA, Noriaki, CHIBA, Manabu, TOMURA, Sho, YAMAMOTO, Taro, TOKIOKA, Shinji, SASAKI, Hirofumi, HAMADA, Yuki, HOSHINO, Tsuyoshi, YAMADA, Tomohito
Format: Artikel
Sprache:jpn
Schlagworte:
Annual
annual maximum rainfall
Annual rainfall
Climate change
Climate models
Climate prediction
Disasters
Environmental impact
Flood control
Floods
Fluvial sediments
Hurricanes
Hydrologic data
massive ensemble climate prediction data
Model accuracy
Rain
River basins
Rivers
Typhoons
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Zusammenfassung:In August 2016, three typhoons continuous attacked Hokkaido and heavy rainfall occurred in various places. As a result floods of rivers and sediment disasters occurred mainly in eastern of Hokkaido. Recently, there is concern that the impact of such climate change will become apparent. In this situation, flood control measures considering future climate change are required in Japan. The current flood control plan have set up safety standards based on observation data in the past, however it is essential to utilize climate prediction data to respond to events occurring under future climate change. In this study, we estimated annual maximum rainfall averaging per basin from output rainfall of climate model using d4PDF which is a massive ensemble climate predictions, and proposed methods to evaluate accuracy of this model. The results show that climate prediction data has high reproducibility of observation value, in addition its rainfall in subject basin will increase about 1.4 times in the future.
ISSN:2185-467X
2185-467X
DOI:10.2208/jscejhe.74.5_I_115