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Evolution of the Convective Boundary Layer in a WRF Simulation Nested Down to 100 m Resolution During a Cloud‐Free Case of LAFE, 2017 and Comparison to Observations

Hans‐Stefan Bauer, Florian Späth, Diego Lange, Rohith Thundathil, Joachim Ingwersen, Andreas Behrendt, Volker Wulfmeyer

2023Journal of Geophysical Research Atmospheres16 citationsDOI

Abstract

Abstract The Weather Research and Forecasting model was applied in a nested configuration from the convection‐permitting resolution of 2.5 km, via an intermediate resolution of 500 m down to the 100 m turbulence‐permitting scale to investigate the spatial and temporal evolution of the convective boundary layer and their interaction with the underlying land surface. This included detailed comparisons with observations collected during the Land‐Atmosphere Feedback Experiment, performed at the Central Facility in Oklahoma. The simulation was driven by the operational analysis of the European Center for Medium‐range Weather Forecasting for a cloud‐free case on 23 August 2017 for which the measurement operation was extended into the following night to include the evening decay of the daytime convective boundary layer. The mesoscale 2.5 km resolution was capable to represent the correct boundary layer height and its temporal evolution. Details of the morning and evening transitions between the nighttime and daytime boundary layer as well as its internal structure were only simulated by the 100 m turbulence‐permitting simulation. Although systematic differences between the simulation and lidar observations were found, the model captured the temporal and spatial structure and the statistics of turbulence rather well. Comparison with data from Eddy‐Covariance stations showed that the model was able to reproduce the evolution of many near‐surface meteorological fields. Systematically higher surface temperatures and related differences in the surface fluxes suggest weaknesses in the representation of land surface processes although the simulation was initialized with accurate and high‐resolution initial fields.

Topics & Concepts

Weather Research and Forecasting ModelConvective Boundary LayerMesoscale meteorologyBoundary layerMeteorologyDaytimeTurbulencePlanetary boundary layerConvectionEnvironmental sciencePotential temperatureLarge eddy simulationAtmospheric sciencesGeologyPhysicsMechanicsMeteorological Phenomena and SimulationsWind and Air Flow StudiesAtmospheric aerosols and clouds
Evolution of the Convective Boundary Layer in a WRF Simulation Nested Down to 100 m Resolution During a Cloud‐Free Case of LAFE, 2017 and Comparison to Observations | Litcius