The Global Energy Balance as represented in Atmospheric Reanalyses

The representation of the global mean energy balance components in 10 atmospheric reanalyses is assessed and compared with recent reference estimates as well as the ones simulated by the latest generation of climate models from the 6^th phase of the coupled model intercomparison project (CMIP6). Despite the assimilation of comprehensive observational data in reanalyses, the spread amongst the magnitudes of their global energy balance components generally remains substantial, up to more than 20 Wm^-2 in some quantities, and their consistency is typically not higher than amongst the much less observationally constrained CMIP6 models. Relative spreads are particularly large in the reanalysis global mean latent heat fluxes (exceeding 20%) and associated representation of the intensity of the global water cycle, as well as in the energy imbalances at the Top-of-Atmosphere and surface. A comparison of reanalysis runs in full assimilation mode with corresponding runs constrained only by sea surface temperatures reveals marginal differences in their global mean energy balance components. This indicates that discrepancies in the global energy balance components caused by the different model formulations amongst the reanalyses are hardly alleviated by the imposed observational constraints from the assimilation process. Similar to climate models, reanalyses overestimate the global mean surface downward shortwave radiation and underestimate the surface downward longwave radiation by 3 - 7 Wm^-2. While reanalyses are of tremendous value as references for many atmospheric parameters, they currently may not be suited to serve as references for the magnitudes of the global mean energy balance components.

 

Published as:

Wild, M., and  Bosilovich, M., 2024: The Global Energy Balance as Represented in Atmospheric Reanalyses, Surveys in Geophysics,  45, 1799–1825. https://doi.org/10.1007/s10712-024-09861-9