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2. CMIP5 Projections of Arctic Amplification, of the North American/North Atlantic Circulation, and of Their Relationship
3. Contrasting short and long term projections of the hydrological cycle in the Southern extratropics
4. Drivers of the Recent Tropical Expansion in the Southern Hemisphere: Changing SSTs or Ozone Depletion?
5. On the surface impact of Arctic stratospheric ozone extremes
6. The impact of ozone depleting substances on the circulation, temperature, and salinity of the Southern Ocean: An attribution study with CESM1(WACCM)
7. Biases in Southern Hemisphere climate trends induced by coarsely specifying the temporal resolution of stratospheric ozone
8. Delayed Southern Hemisphere Climate Change Induced by Stratospheric Ozone Recovery, as Projected by the CMIP5 Models
9. Distinguishing the impacts of ozone-depleting substances and well-mixed greenhouse gases on Arctic stratospheric ozone and temperature trends
10. Influence of projected Arctic sea ice loss on polar stratospheric ozone and circulation in spring
11. Is climate sensitivity related to dynamical sensitivity? A Southern Hemisphere perspective
12. Seasonal Ventilation of the Stratosphere: Robust Diagnostics from One-Way Flux Distributions
13. Separating the stratospheric and tropospheric pathways of El Niño–Southern Oscillation teleconnections
14. Southern Hemisphere Cloud–Dynamics Biases in CMIP5 Models and Their Implications for Climate Projections
15. The response midlatitude jets to increased CO2: Distinguishing the roles of sea surface temperature and direct radiative forcing
16. The surface impacts of Arctic stratospheric ozone anomalies
17. Air-Mass Origin as a Diagnostic of Tropospheric Transport
18. Are Recent Arctic Ozone Losses Caused by Increasing Greenhouse Gases?
19.
Can Natural Variability Explain Observed Antarctic Sea Ice Trends?
New Modeling Evidence from CMIP5
20. Can natural variability explain observed Antarctic sea ice trends? New modeling evidence from CMIP5
21. Climate Change from 1850 to 2005 Simulated in CESM1(WACCM)
22. Delayed Southern Hemisphere Climate Change Induced by Stratospheric Ozone Recovery, as Projected by the CMIP5 Models
23.
Lifetime Dependent Flux into the Lowermost Stratosphere for Idealized
Trace Gases of Surface Origin
24.
Modeling Evidence that Ozone Depletion Has Impacted Extreme
Precipitation in the Austral Summer
25.
On the Lack of Stratospheric Dynamical Variability in Low-Top
Versions of the CMIP5 Models
26. Response of the Midlatitude Jets, and of Their Variability, to Increased Greenhouse Gases in the CMIP5 Models
27. Stratospheric ozone depletion: a key driver of recent precipitation trends in South Eastern South America
28. The Antarctic Atmospheric Energy Budget. Part I: Climatology and Intraseasonal-to-Interannual Variability
29. The Antarctic Atmospheric Energy Budget. Part II: The Effect of Ozone Depletion and its Projected Recovery
30. The ozone hole indirect effect: Cloud-radiative anomalies accompanying the poleward shift of the eddy-driven jet in the Southern Hemisphere
31. The Ozone Hole Indirect Effect: Cloud-Radiative Anomalies Accompanying the Poleward Shift of the Eddy-Driven Jet in the Southern Hemisphere
32. The Response of Extratropical Cyclones in the Southern Hemisphere to Stratospheric Ozone Depletion in the 20th Century
33. Uncertainty in Climate Change Projections of the Hadley Circulation: The Role of Internal Variability
34. Understanding Hadley Cell Expansion versus Contraction: Insights from Simplified Models and Implications for Recent Observations
35. Abrupt Circulation Responses to Tropical Upper-Tropospheric Warming in a Relatively Simple Stratosphere-Resolving AGCM
36. Antarctic Climate Response to Stratospheric Ozone Depletion in a Fine Resolution Ocean Climate Model
37. Antarctic Ozone Depletion and Trends in Tropopause Rossby Wave Breaking
38. Assessing and Understanding the Impact of Stratospheric Dynamics and Variability on the Earth System
39. Flux Distributions as Robust Diagnostics of Stratosphere-Troposphere Exchange
40. Mitigation of 21st Century Antarctic Sea Ice Loss by Stratospheric Ozone Recovery
41.
The Signature of Ozone Depletion on Tropical Temperature Trends,
as Revealed by Their Seasonal Cycle in Model Integrations with Single
Forcings
42. Why Might Stratospheric Sudden Warmings Occur with Similar Frequency in El Niño and La Niña Winters?
43. Double Tropopause Formation in Idealized Baroclinic Life Cycles: The Key Role of an Initial Tropopause Inversion Layer
44. El Niño, La Niña, and Stratospheric Sudden Warmings: A Reevaluation in Light of the Observational Record
45. Equatorial Superrotation on Tidally Locked Exoplanets
46. Large Cancellation, Due to Ozone Recovery, of Future Southern Hemisphere Atmospheric Circulation Trends
47. Stratospheric Ozone Depletion: The Main Driver of Twentieth-Century Atmospheric Circulation Changes in the Southern Hemisphere
48. The Fine-Scale Structure of the Global Tropopause Derived from COSMIC GPS Radio Occultation Measurements
49. The Interannual Relationship between the Latitude of the Eddy-Driven Jet and the Edge of the Hadley Cell
50. The Response of the Tropospheric Circulation to Water Vapor–Like Forcings in the Stratosphere
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