APPLICATION OF CATCHMENT-BASED GRID TO LAND MODEL IN THE AOGCM-LSM COUPLED SYSTEM
Author:
Affiliation:
1. 東京大学大学院 工学系研究科
2. 東京大学生産技術研究所 大規模実験高度解析推進基盤
Publisher
Japan Society of Civil Engineers
Link
https://www.jstage.jst.go.jp/article/jscejj/80/16/80_23-16097/_pdf
Reference9 articles.
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2. 2) Li, Y., Chen, Q., Wang, X. and Jiao, X. : WLS-ENO remap: Superconvergent and non-oscillatory weighted least squares data transfer on surfaces. Journal of Computational Physics, 417, 109578, 2020.
3. 3) Huang, L., Zhang, S., Niu, G. Y., Wei, N., Yuan, H., Wei, Z., ... and Dai, Y. : A Catchment‐Based Hierarchical Spatial Tessellation Approach to a Better Representation of Land Heterogeneity for Hyper‐Resolution Land Surface Modeling. Water Resources Research, 58(5), e2021WR031589, 2022.
4. 4) Yamazaki, D., Kanae, S., Kim, H. and Oki, T. : A physically based description of floodplain inundation dynamics in a global river routing model. Water Resources Research, 47(4), 2011.
5. 5) Ullrich, P. A. and Taylor, M. A. : Arbitrary-order conservative and consistent remapping and a theory of linear maps: Part I. Monthly Weather Review, 143(6), 2419-2440, 2015.
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