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Parameterizing Subgrid Variations of Land Surface Heat Fluxes to the Atmosphere Improves Boreal Summer Land Precipitation Simulation With the NCAR CESM1.2

Wenqi Sun, Bin Wang, Yong Wang, Guang J. Zhang, Yilun Han, Xu Wang, Mengmiao Yang

2020Geophysical Research Letters14 citationsDOIOpen Access PDF

Abstract

Abstract Subgrid horizontal variations of land surface heat fluxes to the atmosphere resulting from subgrid land cover heterogeneity are important in land‐atmosphere interaction in global climate models (GCMs). To incorporate it, a parameterization using stochastic sampling based on truncated normal distributions diagnosed from the land model and internal ensemble mean of multiple calls to the planetary boundary layer and deep convection schemes is developed. After its implementation in the National Center for Atmospheric Research (NCAR) Community Earth System Model version 1.2 (CESM1.2), large changes of simulated land precipitation are found to occur in regions where large subgrid variations of surface heat fluxes exist. The simulated precipitation is improved in boreal summer, especially over eastern China and the coastal areas of the Bay of Bengal. The improved precipitation is mainly a result of improved large‐scale moisture convergence and advection by altered vertical diffusion and convection.

Topics & Concepts

Environmental scienceClimatologyAtmosphere (unit)Atmospheric sciencesPrecipitationPlanetary boundary layerAdvectionClimate modelSensible heatConvectionBorealLatent heatAtmospheric modelForcing (mathematics)MeteorologyClimate changeGeologyGeographyTurbulenceThermodynamicsPhysicsPaleontologyOceanographyClimate variability and modelsMeteorological Phenomena and SimulationsAtmospheric and Environmental Gas Dynamics
Parameterizing Subgrid Variations of Land Surface Heat Fluxes to the Atmosphere Improves Boreal Summer Land Precipitation Simulation With the NCAR CESM1.2 | Litcius