Litcius/Paper detail

Modeling of land-surface interactions in the PALM model system 6.0: Land surface model description, first evaluation, and sensitivity to model parameters

Katrin Frieda Gehrke, Matthias Sühring, Björn Maronga

202019 citationsDOIOpen Access PDF

Abstract

Abstract. In this paper the land-surface model embedded in the PALM model system is described and evaluated against in-situ measurement data in Cabauw. For this, two consecutive clear-sky days are simulated and the components of surface energy balance, as well as near-surface potential temperature, humidity and horizontal wind speed are compared against observation data. For the simulated period, components of the energy balance agree well during day- and nighttime, and also the daytime Bowen ratio agrees fairly well compared to the observations. Although the model simulates a significantly more stably-stratified nocturnal boundary layer compared to the observation, near-surface potential temperature and humidity agree fairly well during day. Moreover, we performed a sensitivity study in order to investigate how much the model results depend on land-surface and soil specifications, as well as atmospheric initial conditions. By this, we find that a false estimation of the leaf area index, the albedo, or the initial humidity causes a serious misrepresentation of the daytime turbulent sensible and latent heat fluxes. During night, the boundary-layer characteristics are mostly affected by grid size, surface roughness, and the applied radiation schemes.

Topics & Concepts

Environmental scienceAlbedo (alchemy)Sensible heatDaytimeAtmospheric sciencesEnergy balanceMeteorologyPlanetary boundary layerLatent heatWind speedHumidityAtmosphere (unit)Sensitivity (control systems)Surface layerLeaf area indexSurface roughnessTurbulenceLayer (electronics)GeologyMaterials scienceGeographyPhysicsEngineeringEcologyArtArt historyPerformance artElectronic engineeringThermodynamicsComposite materialBiologyPlant Water Relations and Carbon DynamicsClimate variability and modelsMeteorological Phenomena and Simulations