An Unstructured Mesh Generation Tool for Efficient High‐Resolution Representation of Spatial Heterogeneity in Land Surface Models

Fan, Hanwen; Xu, Qingchen; Bai, Fan; Wei, Zhongwang; Zhang, Yonggen; Lu, Xingjie; Wei, Nan; Zhang, Shupeng; Yuan, Hua; Liu, Shaofeng; Li, XianXiang; Li, Xueyan; Dai, Yongjiu

doi:10.1029/2023gl107059

Geophysical Research Letters

2024

DOI: 10.1029/2023gl107059

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An Unstructured Mesh Generation Tool for Efficient High‐Resolution Representation of Spatial Heterogeneity in Land Surface Models

Hanwen Fan,

Qingchen Xu,

Fan Bai

et al.

Abstract: This study develops an unstructured mesh generation tool for land surface modeling using a multi‐scale hexagon discrete mesh. The tool can automatically determine the required mesh resolution for different regions based on multi‐objective criteria such as elevation, slope, land cover, and land use. The refined unstructured meshes demonstrate significant enhancement in the representation of spatial heterogeneity. The tool is coupled with the Common Land Model (CoLM) to enable land surface simulations using unst… Show more

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Global Assessment of Atmospheric Forcing Uncertainties in The Common Land Model 2024 Simulations

Bai,

Wei,

Wei

et al. 2024

JGR Atmospheres

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Offline land surface models (LSMs) require atmospheric forcing data sets for simulating water, energy, and biogeochemical fluxes. However, available forcing data sets remain highly uncertain and can introduce additional differences in LSM simulations. This study explored the impact of various forcing data sets, ranging from widely used to newly developed, on hydrological simulations using the Common Land Model 2024 (CoLM2024). We conducted 12 global experiments using different forcing data sets to force CoLM2024. We evaluated the model's performance against plot‐scale observations and globally gridded reference data. We examined the uncertainties in forcings and their impact on output variables such as latent heat, sensible heat, net radiation, and total runoff. Globally, precipitation has the highest degree of uncertainty at 4.4%. The forcing uncertainties propagate to the model simulations and cause significant differences in simulated variables. Runoff uncertainty is about 15.7% globally, with a greater impact in low latitudes. Our evaluation shows that the newly developed data sets, such as CRUJRA and ERA5LAND, generally outperform the others. However, the optimal forcing data set varies depending on the variable of interest and the targeted region. Partial Least Squares Regression analysis reveals that different simulated variables are associated with dominant forcing variables, highlighting the importance of selecting forcing data sets for specific applications and regions. This study confirms the importance of improving the quality and consistency of meteorological data. This would help reduce simulation biases and guide the improvement of the model structure and parameterization of CoLM2024.

show abstract

Global Assessment of Atmospheric Forcing Uncertainties in The Common Land Model 2024 Simulations

Bai,

Wei,

Wei

et al. 2024

JGR Atmospheres

View full text Add to dashboard Cite

show abstract

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An Unstructured Mesh Generation Tool for Efficient High‐Resolution Representation of Spatial Heterogeneity in Land Surface Models

Cited by 1 publication

References 75 publications

Global Assessment of Atmospheric Forcing Uncertainties in The Common Land Model 2024 Simulations

Global Assessment of Atmospheric Forcing Uncertainties in The Common Land Model 2024 Simulations

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