Development and testing of polar weather research and forecasting (WRF) model. Part I: Greenland ice sheet meteorology

Abstract

A polar-optimized version of the fifth-generation Pennsylvania State University-National Center for Atmospheric Research Mesoscale Model (MM5) was developed to fill climate alid synoptic needs of the polar science community and to achieve an improved regional performance. to continue the goal of enhanced polar mesoscale modeling, polar optimization should now be applied toward the state-of-the-art Weather Research and Forecasting (WRF) Model. Evaluations and optimizations are especially needed for the boundary layer parameterization, cloud physics, snow surface physics, and sea ice treatment. Testing and development work for Polar WRF begins with simulations for ice sheet surface conditions using a Greenland-area domain with 24-km resolution. The winter month December 2002 and the summer month June 2001 are simulated with WRF, version 2.1.1, in a series of 48-h integrations initialized daily at 0000 UTC. The results motivated several improvements to Polar WRF, especially to the Noah land surface model (LSM) and the snowpack treatment. Different physics packages for WRF are evaluated with December 2002 simulations that show variable forecast skill when verified with the automatic weather mation observations. The WRF simulation with the combination of the modified Noah LSM, the Mellor-Yamada-Janjić boundary layer parameterization, and the WRF single-moment microphysics produced results that reach or exceed the success standards of a Polar MM5 simulation for December 2002. For summer simulations of June 2001, WRF simulates an improved surface energy balance, and shows forecast skill nearly equal to that of Polar MM5. © 2008 American Meteorological Society.