Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

    Future changes in extreme storm surges based on mega-ensemble projection using 60-km resolution atmospheric global circulation model

    New search for: Mori, Nobuhito
    New search for: Shimura, Tomoya
    New search for: Yoshida, Kohei
    New search for: Mizuta, Ryo
    New search for: Okada, Yasuko
    New search for: Fujita, Mikiko
    New search for: Khujanazarov, Temur
    New search for: Nakakita, Eiichi

    This study examines long-term ensemble projections for historical and future climate conditions over 5,000 years using an atmospheric global circulation model. The future climate condition is assumed as a constant +4K in the global mean temperature from before the Industrial Revolution (c.a. 1850), and the historical climate condition is perturbed by observed sea surface temperature (SST) error. A set of ensemble experiments assesses the impact of low probability phenomena, such as tropical cyclones and storm surge in comparison with conventional time-slice experiments. Future changes in storm surge will be severe at 15–35°N in the northern hemisphere, especially around the East Asia region. In addition, Future changes in regional storm surges targeting Tokyo and Osaka Bays project 0.3–0.45 m increase of storm surge height with a 100-year return period.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Future changes in extreme storm surges based on mega-ensemble projection using 60-km resolution atmospheric global circulation model

    New search for: Mori, Nobuhito
    New search for: Shimura, Tomoya
    New search for: Yoshida, Kohei
    New search for: Mizuta, Ryo
    New search for: Okada, Yasuko
    New search for: Fujita, Mikiko
    New search for: Khujanazarov, Temur
    New search for: Nakakita, Eiichi

    This study examines long-term ensemble projections for historical and future climate conditions over 5,000 years using an atmospheric global circulation model. The future climate condition is assumed as a constant +4K in the global mean temperature from before the Industrial Revolution (c.a. 1850), and the historical climate condition is perturbed by observed sea surface temperature (SST) error. A set of ensemble experiments assesses the impact of low probability phenomena, such as tropical cyclones and storm surge in comparison with conventional time-slice experiments. Future changes in storm surge will be severe at 15–35°N in the northern hemisphere, especially around the East Asia region. In addition, Future changes in regional storm surges targeting Tokyo and Osaka Bays project 0.3–0.45 m increase of storm surge height with a 100-year return period.

    Access

    Download

    Future changes in extreme storm surges based on mega-ensemble projection using 60-km resolution atmospheric global circulation model

    New search for: Mori, Nobuhito
    New search for: Shimura, Tomoya
    New search for: Yoshida, Kohei
    New search for: Mizuta, Ryo
    New search for: Okada, Yasuko
    New search for: Fujita, Mikiko
    New search for: Khujanazarov, Temur
    New search for: Nakakita, Eiichi

    This study examines long-term ensemble projections for historical and future climate conditions over 5,000 years using an atmospheric global circulation model. The future climate condition is assumed as a constant +4K in the global mean temperature from before the Industrial Revolution (c.a. 1850), and the historical climate condition is perturbed by observed sea surface temperature (SST) error. A set of ensemble experiments assesses the impact of low probability phenomena, such as tropical cyclones and storm surge in comparison with conventional time-slice experiments. Future changes in storm surge will be severe at 15–35°N in the northern hemisphere, especially around the East Asia region. In addition, Future changes in regional storm surges targeting Tokyo and Osaka Bays project 0.3–0.45 m increase of storm surge height with a 100-year return period.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Document information
    Title:

    Future changes in extreme storm surges based on mega-ensemble projection using 60-km resolution atmospheric global circulation model

    Contributors:

    Mori, Nobuhito (author) / Shimura, Tomoya (author) / Yoshida, Kohei (author) / Mizuta, Ryo (author) / Okada, Yasuko (author) / Fujita, Mikiko (author) / Khujanazarov, Temur (author) / Nakakita, Eiichi (author)

    Published in:

    Coastal Engineering Journal ; 61 ; 295-307

    Publication date:

    2019-07-03

    Size:

    13 pages

    ISSN:

    2166-4250 , 1793-6292

    DOI:

    https://doi.org/10.1080/21664250.2019.1586290

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Climate change , ensemble experiments , GCM , d4PDF , storm surge

    Similar titles

    Ensemble Forecasting of Storm Surges

    Flowerdew, Jonathan | Online Contents | 2009

    Extreme North Sea storm surges and their consequences

    Weisse, Ralf / Tinz, Birger / Rudolph, Elisabeth et al. | HENRY – Federal Waterways Engineering and Research Institute (BAW) | 2020

    Free access

    Die Küste, 63 Global Storm Surges

    Kuratorium für Forschung im Küsteningenieurwesen | HENRY – Federal Waterways Engineering and Research Institute (BAW) | 2001

    Free access

    Modeling of Future Extreme Storm Surges at the NW Mediterranean Coast (Spain)

    Jue Lin-Ye / Manuel García-León / Vicente Gràcia et al. | DOAJ | 2020

    Free access

    ESTIMATION OF EXTREME STORM SURGES USING A SPATIAL LINKAGE ASSUMPTION

    Galiatsatou, P. / Prinos, P. / International Association of Hydraulic Engineering and Research et al. | British Library Conference Proceedings | 2007

    Back to top