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Tropical Water Vapor and Cloud Feedbacks in CCSM3.5: A Preliminary Evaluation. D.-Z. Sun and T. Zhang University of Colorado & National Oceanic & Atmospheric Administration In collaboration with R. Neale and P. Rasch National Center for Atmospheric Research. Outline.
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Tropical Water Vapor and Cloud Feedbacks in CCSM3.5: A Preliminary Evaluation D.-Z. Sun and T. Zhang University of Colorado & National Oceanic & Atmospheric Administration In collaboration with R. Neale and P. Rasch National Center for Atmospheric Research
Outline • Findings from Sun et al. (2009) • Corresponding Results from CCSM3.5 (Zhang et al. 2009) • Further analysis/experiments Sun, D.-Z., Y. Yu, and T. Zhang, 2009: Tropical Water Vapor and Cloud Feedbacks in Climate Models: A Further Assessment Using Coupled Simulations. J. Climate, 22, 1287-1304. T. Zhang, D.-Z. Sun, R. Neale, and R. Rasch, 2009: An Evaluation of Feedbacks from Deep Convection in CCSM3.5. J. Climate, in preparation.
Methodology • Use El Nino as the forcing signal and obtain the feedbacks by examining the response of various energy fluxes to El Nino Warming
Summary • An overestimate of the positive feedback from water vapor is a common bias • An underestimate of the negative feedback from cloud albedo is a common bias • A weaker regulatory effect from deep convection is a common bias • But NCAR CCSM3.5 stands out in its strong negative cloud albedo feedback.
Some planned work • Better understand what are behind the improvements in the feedbacks in CCSM 3.5 • Assess whether these improvements are responsible for the improvements in MJO, ENSO, and mean climate in CCSM3.5 • Extend the feedback analysis to CCSM4 • Sensitivity experiments with CCSM to better understand the physical processes that determines the feedbacks from deep convection and its net regulatory effect
Some Other Questions We Are Addressing • What are the impacts of these biases in the cloud and water vapor feedbacks on the large-scale tropical ocean-atmosphere interaction? • Will these biases in the cloud and water vapor feedbacks affect the model’s projection of the response of the coupled tropical climate system to global warming? • What are the implications of the reduced sensitivity of precipitation to SST forcing in the models for the teleconnection between the tropics and the extratropics?
A Feedback Analysis Using Surface Fluxes: Results from NCAR Models
A Feedback Analysis Using Surface Fluxes: Results from other Models
Why Feedbacks? • Feedbacks determine the sensitivity of the climate system to anthropogenic forcing • Feedbacks determine the amplitude of the natural variability in the climate system • Feedbacks determine the equilibrium state of the climate system--the time-mean climate