Atmospheric reanalyses have greatly improved our ability to analyse past climate variability.Further improvements to reanalyses, including expansion to encompass the ocean, land and sea-ice domains, hold promise for extending their use in climate change studies, research and applications.Other developments, such as the assimilation of observed cloud and coupled reanalysis, are needed before the considerable potential for providing reliable surface fluxes for the ocean is realized.
Michael G. Bosilovich, M. Rixen, P.J. van Oevelen, Ghassem Asrar, Gilbert P. Compo, Kazutoshi Onogi, A. J. Simmons, Kevin E Trenberth, Dave Behringer, Tanvir Bhuiyan, Shannon L. Capps, Ayan H. Chaudhuri, Junye Chen, Linling Chen, Nicole Colasacco-Thumm, Maria Gabriela Escobar, Craig R. Ferguson, Toshiyuki Ishibashi, Margarida L. R. Liberato, Jesse Meng, Andrea Molod, Paul Poli, Joshua K. Roundy, Kate M. Willett, Jack Wollen
Michael G. Bosilovich, M. Rixen, P.J. van Oevelen, Ghassem Asrar, Gilbert P. Compo, Kazutoshi Onogi, A. J. Simmons, Kevin E Trenberth, Dave Behringer, Tanvir Bhuiyan, Shannon L. Capps, Ayan H. Chaudhuri, Junye Chen, Linling Chen, Nicole Colasacco-Thumm, Maria Gabriela Escobar, Craig R. Ferguson, Toshiyuki Ishibashi, Margarida L. R. Liberato, Jesse Meng, Andrea Molod, Paul Poli, Joshua K. Roundy, Kate M. Willett,
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