Details

Autor(en) / Beteiligte

• Lawrence, David M.
• Fisher, Rosie A.
• Koven, Charles D.
• Oleson, Keith W.
• Swenson, Sean C.
• Bonan, Gordon
• Collier, Nathan
• Ghimire, Bardan
• Kampenhout, Leo
• Kennedy, Daniel
• Kluzek, Erik
• Lawrence, Peter J.
• Li, Fang
• Li, Hongyi
• Lombardozzi, Danica
• Riley, William J.
• Sacks, William J.
• Shi, Mingjie
• Vertenstein, Mariana
• Wieder, William R.
• Xu, Chonggang
• Ali, Ashehad A.
• Badger, Andrew M.
• Bisht, Gautam
• Broeke, Michiel
• Brunke, Michael A.
• Burns, Sean P.
• Buzan, Jonathan
• Clark, Martyn
• Craig, Anthony
• Dahlin, Kyla
• Drewniak, Beth
• Fisher, Joshua B.
• Flanner, Mark
• Fox, Andrew M.
• Gentine, Pierre
• Hoffman, Forrest
• Keppel‐Aleks, Gretchen
• Knox, Ryan
• Kumar, Sanjiv
• Lenaerts, Jan
• Leung, L. Ruby
• Lipscomb, William H.
• Lu, Yaqiong
• Pandey, Ashutosh
• Pelletier, Jon D.
• Perket, Justin
• Randerson, James T.
• Ricciuto, Daniel M.
• Sanderson, Benjamin M.
• Slater, Andrew
• Subin, Zachary M.
• Tang, Jinyun
• Thomas, R. Quinn
• Val Martin, Maria
• Zeng, Xubin

Titel

The Community Land Model Version 5: Description of New Features, Benchmarking, and Impact of Forcing Uncertainty

Ist Teil von

• Journal of advances in modeling earth systems, 2019-12, Vol.11 (12), p.4245-4287

Ort / Verlag

Washington: John Wiley & Sons, Inc

Erscheinungsjahr

2019

Quelle

Wiley-Blackwell Full Collection

Beschreibungen/Notizen

• The Community Land Model (CLM) is the land component of the Community Earth System Model (CESM) and is used in several global and regional modeling systems. In this paper, we introduce model developments included in CLM version 5 (CLM5), which is the default land component for CESM2. We assess an ensemble of simulations, including prescribed and prognostic vegetation state, multiple forcing data sets, and CLM4, CLM4.5, and CLM5, against a range of metrics including from the International Land Model Benchmarking (ILAMBv2) package. CLM5 includes new and updated processes and parameterizations: (1) dynamic land units, (2) updated parameterizations and structure for hydrology and snow (spatially explicit soil depth, dry surface layer, revised groundwater scheme, revised canopy interception and canopy snow processes, updated fresh snow density, simple firn model, and Model for Scale Adaptive River Transport), (3) plant hydraulics and hydraulic redistribution, (4) revised nitrogen cycling (flexible leaf stoichiometry, leaf N optimization for photosynthesis, and carbon costs for plant nitrogen uptake), (5) global crop model with six crop types and time‐evolving irrigated areas and fertilization rates, (6) updated urban building energy, (7) carbon isotopes, and (8) updated stomatal physiology. New optional features include demographically structured dynamic vegetation model (Functionally Assembled Terrestrial Ecosystem Simulator), ozone damage to plants, and fire trace gas emissions coupling to the atmosphere. Conclusive establishment of improvement or degradation of individual variables or metrics is challenged by forcing uncertainty, parametric uncertainty, and model structural complexity, but the multivariate metrics presented here suggest a general broad improvement from CLM4 to CLM5. Plain Language Summary The Community Land Model (CLM) is the land component of the widely used Community Earth System Model (CESM). Here, we introduce model developments included in CLM version 5 (CLM5), the default land component for CESM2 which will be used for the Coupled Model Intercomparison Project (CMIP6). CLM5 includes many new and updated processes including (1) hydrology and snow features such as spatially explicit soil depth, canopy snow processes, a simple firn model, and a more mechanistic river model, (2) plant hydraulics and hydraulic redistribution, (3) revised nitrogen cycling with flexible leaf stoichiometry, leaf N optimization for photosynthesis, and carbon costs for plant nitrogen uptake, (4) expansion to six crop types (global) and time‐evolving irrigated areas and fertilization rates, (5) improved urban building energy model, and (6) carbon isotopes. New optional features include a demographically structured dynamic vegetation model, ozone damage to plants, and fire trace gas emissions coupling to the atmosphere. Model performance is generally improved for most assessed variables and metrics, though clear establishment of improvement or degradation is challenging due to model complexity as well as observational data limitations. Nonetheless, CLM5 is increasingly suited for research into a broad range of societally relevant scientific questions related to the terrestrial system. Key Points Updated Community Land Model has more hydrological and ecological process fidelity and more comprehensive representation of land management. The model is systematically evaluated using International Land Model Benchmarking system and shows marked improvement over prior versions.