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	Provedor de dados ArchiMer (2) Autor Palmer, M. D. (2) Allan, R. P. (1) Alves, O. (1) Awaji, T. (1) Balmaseda, M. A. (1) Barnier, B. (1) Behringer, D. (1) Boyer, T. (1) Caltabiano, A. (1) Chang, Y-s. (1) Chepurin, G. A. (1) Chevallier, M. (1) Desbruyeres, Damien (1) Dupont, F. (1) Ferry, N. (1) Forget, Gael (1) Fujii, Y. (1) Gaillard, Fabienne (1) Good, S. (1) Guinehut, S. (1) Mais... Palavra-chave Heat budget (1) Heat content (1) Heat transports (1) Interannual (1) Surface fluxes (1) Variability (1) Mais... Tipo do documento Text (2) Ano 2017 (1) 2015 (1) País France (2) Idioma Inglês (2)		Ordenar por:  Relevância Autor Título Ano Registros recuperados: 2 Primeira ... 1 ... Última Surface flux and ocean heat transport convergence contributions to seasonal and interannual variations of ocean heat content ArchiMer Roberts, C. D.; Palmer, M. D.; Allan, R. P.; Desbruyeres, Damien; Hyder, P.; Liu, C.; Smith, D.. We present an observation-based heat budget analysis for seasonal and interannual variations of ocean heat content (H) in the mixed layer (H-mld) and full-depth ocean (H-tot). Surface heat flux and ocean heat content estimates are combined using a novel Kalman smoother-based method. Regional contributions from ocean heat transport convergences are inferred as a residual and the dominant drivers of H-mld and H-tot are quantified for seasonal and interannual time scales. We find that non-Ekman ocean heat transport processes dominate H-mld variations in the equatorial oceans and regions of strong ocean currents and substantial eddy activity. In these locations, surface temperature anomalies generated by ocean dynamics result in turbulent flux anomalies that... Tipo: Text Palavras-chave: Heat content; Heat transports; Interannual; Surface fluxes; Variability; Heat budget. Ano: 2017 URL: https://archimer.ifremer.fr/doc/00387/49813/50388.pdf The Ocean Reanalyses Intercomparison Project (ORA-IP) ArchiMer Balmaseda, M. A.; Hernandez, F.; Storto, A.; Palmer, M. D.; Alves, O.; Shi, L.; Smith, G. C.; Toyoda, T.; Valdivieso, M.; Barnier, B.; Behringer, D.; Boyer, T.; Chang, Y-s.; Chepurin, G. A.; Ferry, N.; Forget, Gael; Fujii, Y.; Good, S.; Guinehut, S.; Haines, K.; Ishikawa, Y.; Keeley, S.; Koehls, A.; Lee, T.; Martin, M. J.; Masina, S.; Masuda, S.; Meyssignac, B.; Mogensen, K.; Parent, L.; Peterson, K. A.; Tang, Y. M.; Yin, Y.; Vernieres, G.; Wang, X.; Waters, J.; Wedd, R.; Wang, O.; Xue, Y.; Chevallier, M.; Lemieux, J-f.; Dupont, F.; Kuragano, T.; Kamachi, M.; Awaji, T.; Caltabiano, A.; Wilmer-becker, K.; Gaillard, Fabienne. Uncertainty in ocean analysis methods and deficiencies in the observing system are major obstacles for the reliable reconstruction of the past ocean climate. The variety of existing ocean reanalyses is exploited in a multi-reanalysis ensemble to improve the ocean state estimation and to gauge uncertainty levels. The ensemble-based analysis of signal-to-noise ratio allows the identification of ocean characteristics for which the estimation is robust (such as tropical mixed-layer-depth, upper ocean heat content), and where large uncertainty exists (deep ocean, Southern Ocean, sea ice thickness, salinity), providing guidance for future enhancement of the observing and data assimilation systems. Tipo: Text Ano: 2015 URL: http://archimer.ifremer.fr/doc/00280/39090/37655.pdf Registros recuperados: 2 Primeira ... 1 ... Última

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