12A.2
Air-sea heat fluxes and the dynamics of intraseasonal variability
Adam H. Sobel, Dept of Applied Mathematics and Applied Physics, and Dept. of Earth and Environmental Sciences, Columbia Univ., new York, NY; and E. D. Maloney, G. Bellon, and D. M. W. Frierson
We argue for the hypothesis that interactive feedbacks involving surface enthalpy fluxes are important to the dynamics of tropical intraseasonal variability. Cloud-radiative feedbacks and surface turbulent flux feedbacks appear to be comparably important, and play similar roles; both act to transport enthalpy from the ocean to the atmosphere. Evidence in favor of this hypothesis includes the observed spatial distribution of intraseasonal variance in precipitation and outgoing longwave radiation, the observed relationship between intraseasonal latent heat flux and precipitation anomalies in regions where intraseasonal variability is strong, and sensitivity experiments performed with a small number of general circulation and idealized models.
Session 12A, Coupled ocean-atmosphere interactions and their contribution to climate variability on all time scales: Part 1
Thursday, 15 January 2009, 8:30 AM-9:45 AM, Room 128A
Previous paper Next paper