Session 1A Large-Scale Atmospheric Dynamics and Climate: Jet Streams, Storm Tracks, Stationary Waves, and Monsoons I

Monday, 29 January 2024: 8:30 AM-10:00 AM
Ballroom III/ IV (The Baltimore Convention Center)
Host: 37th Conference on Climate Variability and Change
Cochairs:
Gang Chen, University of California at Los Angeles, Department of Atmospheric and Oceanic Sciences, Los Angeles, CA; Aditi Sheshadri, Rice Univ., Houston, TX; Jezabel Curbelo; Marianna Linz, Harvard University, Cambridge, MA and Sandro W. Lubis, Rice University, Houston, TX

The large-scale atmospheric circulation redistributes heat, moisture, and atmospheric tracers around the globe, playing a key role in shaping regional climate and climate change. The large-scale circulation is in turn shaped by the interactions of large-scale dynamics with the global energy budget and hydrological cycle and with smaller scale processes such as mesoscale motions and cloud processes. Disentangling the many processes that shape the large-scale circulation and its response to climate change requires a combination of conceptual understanding, hierarchical modeling, and observations. 

 

We welcome observational, modeling, and theoretical studies on the dynamics of large-scale atmospheric circulations such as the jet streams, storm tracks (including blocking and atmospheric rivers), stationary waves, monsoons, and tropical overturning circulations. Contributions on the response of these circulations to climate change are particularly encouraged

Papers:
8:30 AM
1A.1
The Hadley Cells Across Seasons and the Solar System
Spencer A. Hill, The City College of New York, New York, NY; and J. Mitchell, J. M. Lora, S. Bordoni, and A. O. Gonzalez

8:45 AM
1A.2
Nonlinearity of Atmospheric Circulation response to increased CO2
Darryn W. Waugh, Johns Hopkins Univ., Baltimore, MD; and X. Zhang, C. Orbe, I. Mitevski, and L. M. Polvani

9:00 AM
1A.3
Vertical and Regional Patterns of Tropical Circulation Response to Increased CO2
Molly E Menzel, GISS, New York, NY; and C. Orbe

Handout (6.5 MB)

9:15 AM
1A.4
Atmospheric Response to a Collapse of the North Atlantic Circulation Under a Mid-Range Future Scenario: A Regime Shift in Northern Hemisphere Dynamics
Clara Orbe, GISS, New York, NY; and D. Rind, R. L. Miller, L. Nazarenko, A. Romanou, J. Jonas, G. L. Russell, M. Kelley, and G. A. Schmidt

9:30 AM
1A.5
Coupling between Hadley Circulation Strength Variability and Wind-stress-driven Ocean Circulation is Hemisphere Dependent
Mahdi Hasan, North Carolina State Univ., Raleigh, NC; and S. Larson, K. McMonigal, W. A. Robinson, and A. Aiyyer

1A.6
The Influence of SST on Walker Circulation Strength

Recorded Presentation
- Indicates paper has been withdrawn from meeting
- Indicates an Award Winner
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