Recent developments in gravity wave effects in climate models, and the global distribution of gravity wave momentum flux from observations and models

Recent observational and theoretical studies of the global properties of small-scale atmospheric gravity waves have highlighted the global effects of these waves on the circulation from the surface to the middle atmosphere. The effects of gravity waves on the large-scale circulation have long been treated via parametrizations in both climate and weather forecasting applications. In these parametrizations, key parameters describe the global distributions of gravity wave momentum flux, wavelengths, and frequencies of the waves. Until recently, global observations could not define the needed parameters because the waves are small in scale and intermittent in occurrence. Recent satellite and other global data sets with improved resolution along with innovative analysis methods are now providing constraints for the parametrizations that can improve the treatment of these waves in climate prediction models. Research using very high resolution global models has also recently demonstrated the capability of resolving gravity waves and their circulation effects, and when tested against observations, these models are showing some very realistic properties. Here we review recent studies on gravity wave effects in stratosphere-resolving climate models, recent observations and analysis methods that reveal global patterns in gravity wave momentum fluxes, and results of the very high resolution model studies, and we outline some future research needs to improve the treatment of these waves in climate simulations. Fil: Alexander, M. J.. NWRA/Colorado Research Association; Estados Unidos Fil: Geller, M.. SUNY-Stonybrook; Estados Unidos Fil: McLandress, C.. University of Toronto; Canadá Fil: Polavarapu, S.. Environment; Canadá Fil: Preusse, P.. Forschungzentrum Jülich; Alemania Fil: Sassi, F.. Naval Research Laboratory; Estados Unidos Fil: Sato, K.. University of Tokyo; Japón Fil: Eckermann, S.. Naval Research Laboratory; Estados Unidos Fil: Ern, M.. Forschungzentrum Jülich; Alemania Fil: Hertzog, A.. UPMC Université Paris 06. Laboratoire de Météorologie Dynamique; Francia Fil: Kawatani, Y.. Japan Agency for Marine-Earth Science and Technology; Japón Fil: Pulido, Manuel Arturo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste. Instituto de Modelado e Innovación Tecnológica. Universidad Nacional del Nordeste. Facultad de Ciencias Exactas Naturales y Agrimensura. Instituto de Modelado e Innovación Tecnologica; Argentina Fil: Shaw, T.. New York University; Estados Unidos Fil: Sigmond, M.. University of Toronto; Canadá Fil: Vincent, R.. University of Adelaide; Australia Fil: Watanabe, S.. Japan Agency for Marine-Earth Science and Technology; Japón