Assessment of Climate Change Impact on Sediment Runoff and Sediment-Related Hazards Employing Integrated Simulation of Sediment Production and Runoff
Author:
Affiliation:
1. 京都大学防災研究所
2. Corresponding author
3. 砂防・地すべり技術センター、京都大学名誉教授
Publisher
The Japanese Society for Multiphase Flow
Link
https://www.jstage.jst.go.jp/article/jjmf/37/4/37_2023.T013/_pdf
Reference27 articles.
1. [1] Mizuta, R., Murata, A., Ishii, M., Shiogama, H., Hibino, K., Mori, et al., Over 5,000 Years of Ensemble Future Climate Simulations by 60-km Global and 20-km Regional Atmospheric Models, Bull. Amer. Meteor. Soc., Vol. 98(7), 1383-1398 (2017).
2. [2] Arai, R., Watanabe, S., Wei, Z. and Ikeuchi, K., Estimation of Future Flood Risk Throughout Japan Using d4PDF Runoff Data and Some Issues in the Method, J. of JSCE, Ser. B1 (Hyd. Eng.), Vol. 75(2), I_1069-I_1074 (2019).
3. [3] Harada, M. and Taki, K., River Basin Scale Analysis on Flood Characteristics Based on Flood Runoff Model with d4PDF NHRCM, J. of JSCE, Ser. B1 (Hyd. Eng.), Vol. 77(2), I_475-I_480 (2021).
4. [4] Toda, A., Ozaki, T., Ishigaki, T., Hashimoto, A. and Toda, K., Analysis of Pluvial Flood Based on Future Rainfall from d4PDF, J. of JSCE, Ser. B1 (Hyd. Eng.), Vol. 76(2), I_727-I_732, (2020).
5. [5] Wu, Y., Nakakita E. and Kunitomo, M., Future Change of Rainfall-Triggered Landslide Risk Using NHRCM05 Based on Critical Line Method, J. of JSCE, Ser. B1 (Hyd. Eng.), Vol. 76(2), I_67-I_72 (2020).
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