EGU21-10915, updated on 09 Jan 2023
https://doi.org/10.5194/egusphere-egu21-10915
EGU General Assembly 2021
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Improving the representation of cropland sites in the Community Land Model (CLM) version 5.0

Theresa Boas1,2, Heye Bogena1,2, Thomas Grünwald3, Bernard Heinesch4, Dongryeol Ryu5, Marius Schmidt1, Harry Vereecken1,2, Andrew Western5, and Harrie-Jan Hendricks-Franssen1,2
Theresa Boas et al.
  • 1Forschungszentrum Jülich, IBG3, Germany (t.boas@fz-juelich.de)
  • 2Centre for High-Performance Scientific Computing in Terrestrial Systems: HPSC TerrSys, Geoverbund ABC/J, 52425 Jülich, Germany
  • 3Technische Universität Dresden (TU Dresden): Institute of Hydrology and Meteorology, 01062 Dresden, Germany
  • 4University of Liège: Gembloux Agro-Bio Tech (GxABT), 5030 Gembloux, Belgium
  • 5University of Melbourne: Department of Infrastructure Engineering, Parkville VIC 3010, Australia

The incorporation of a comprehensive crop module in land surface models offers the possibility to study the effect of agricultural land use and land management changes on the terrestrial water, energy and biogeochemical cycles. It may help to improve the simulation of biogeophysical and biogeochemical processes on regional and global scales in the framework of climate and land use change. In this study, the performance of the crop module of the Community Land Model version 5 (CLM5) was evaluated at point scale with site specific field data focussing on the simulation of seasonal and inter-annual variations in crop growth, planting and harvesting cycles, and crop yields as well as water, energy and carbon fluxes. In order to better represent agricultural sites, the model was modified by (1) implementing the winter wheat subroutines after Lu et al. (2017) in CLM5; (2) implementing plant specific parameters for sugar beet, potatoes and winter wheat, thereby adding the two crop functional types (CFT) for sugar beet and potatoes to the list of actively managed crops in CLM5; (3) introducing a cover cropping subroutine that allows multiple crop types on the same column within one year. The latter modification allows the simulation of cropping during winter months before usual cash crop planting begins in spring, which is an agricultural management technique with a long history that is regaining popularity to reduce erosion and improve soil health and carbon storage and is commonly used in the regions evaluated in this study. We compared simulation results with field data and found that both the new crop specific parameterization, as well as the winter wheat subroutines, led to a significant simulation improvement in terms of energy fluxes (RMSE reduction for latent and sensible heat by up to 57 % and 59 %, respectively), leaf area index (LAI), net ecosystem exchange and crop yield (up to 87 % improvement in winter wheat yield prediction) compared with default model results. The cover cropping subroutine yielded a substantial improvement in representation of field conditions after harvest of the main cash crop (winter season) in terms of LAI magnitudes and seasonal cycle of LAI, and latent heat flux (reduction of winter time RMSE for latent heat flux by 42 %). Our modifications significantly improved model simulations and should therefore be applied in future studies with CLM5 to improve regional yield predictions and to better understand large-scale impacts of agricultural management on carbon, water and energy fluxes.

How to cite: Boas, T., Bogena, H., Grünwald, T., Heinesch, B., Ryu, D., Schmidt, M., Vereecken, H., Western, A., and Hendricks-Franssen, H.-J.: Improving the representation of cropland sites in the Community Land Model (CLM) version 5.0, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-10915, https://doi.org/10.5194/egusphere-egu21-10915, 2021.

Displays

Display file