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Geophysical Fluid Dynamics Laboratory Review

This review explores the development of high-resolution atmospheric models and their ability to project changes in extreme weather events. It investigates the interface between atmospheric dynamics research and model development, highlighting the importance of these connections. Ongoing research on atmospheric dynamics, including studies on hurricane genesis and intensity, tropical precipitation sensitivity, and the positioning of midlatitude surface westerlies, is presented.

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Geophysical Fluid Dynamics Laboratory Review

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  1. Geophysical Fluid Dynamics Laboratory Review June 30 - July 2, 2009

  2. Atmospheric Dynamics – Introduction and Overview Presented by Isaac Held

  3. Major themes and questions weaving through this section: Can we improve regional climate change projections? Development of high resolution atmospheric models to date is very encouraging. Can our models provide useful projections of changes in extreme weather events? We are making rapid progress on the effects of warming on tropical cyclones. How does research into atmospheric dynamics interface with our model development process? Several examples illustrate the importance of these connections.

  4. A variety of high resolution atmospheric models are under development Cn => cubed-sphere grid with n x n points in each face of cube HIRAM2.1 C90/100km C180/50km C360/25km hydrostatic non-hydrostatic Alternative sub-grid closures being actively pursued to optimize model at different resolutions C720/13km C2000/5km M180 AM2.1/LM2 (NARCCAP) => C90 and C180 AM2.1/LM3 Lin, Zhao, Wyman, Held, Lau, …

  5. Ongoing tropical cyclone/global warming modeling at GFDL Downscaled with GFDL hurricane prediction system (coupled, multiple mesh) Zetac regional model of Atlantic hurricane season Rotating radiative-convective equilibrium C360/720 track/intensity forecasts C90 global model C180 global model (Knutson, Zhao, Garner, Sirutis, Bender, Held, Vecchi, Lin)

  6. A sampling of ongoing research on atmospheric dynamics with a spectrum of models • Are there useful idealized geometries in which to study hurricane genesis and intensity? • How sensitive is tropical precipitation to extratropical thermal forcing (aerosols, ice sheets)? • What determines the position of the midlatitude surface westerlies?

  7. Tropical storm models in idealized geometries provideimportant insights into tropical cyclogenesis These two models are identical, except that: one has realistic geometry and boundary conditions; the other is homogeneous and doubly periodic on an f-plane Surface wind speed Zhao, Held, Lin, Vecchi, in review 20,000 X 20,000km f = 10N Precipitation Surface pressure Held and Zhao, JAS, 2008

  8. The response of tropical rainfall to high latitude heating/cooling is very sensitive to cloud feedbacks (Important for response to aerosols, ice age ice sheets, variations in Atlantic overturning) When the atmosphere is cooled in high latitudes in one hemisphere and warmed in the other, in an idealized “slab-ocean, aqua-planet” version of AM2: the ITCZ moves to the warmed hemisphere, but the size of the movement is sensitive to cloud feedbacks (Kang, Zhang, Held, Frierson). Response of different versions of the model Control ITCZ

  9. Stormtracks/droughts are linked to the latitude of surface westerlies; idealized models isolate factors that can alter this latitude “Roaring 40’s” are moving polewards Ozone hole or global warming? observations Surface westerlies move polewards as surface friction is reduced (Chen, Held, Robinson, 2007).Research suggests that, surprisingly, the same dynamics may be at play in both cases.

  10. Upcoming talks in this section: Morris Bender The GFDL Hurricane Prediction System Gabriel Lau Some applications of high resolution atmospheric modeling Ming Zhao Global simulations of hurricane climatology/variability/change Shian-Jiann Lin Dynamical cores and seamless global/regional model development Other key contributors: Bruce Wyman, Steve Garner, Chris Kerr, Tim Marchok, Mary Jo Nath, Jeff Ploshay+students+post-docs

  11. Geophysical Fluid Dynamics Laboratory Review June 30 - July 2, 2009

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