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2. Data: Skill, Predictability, and Cluster Analysis of Atlantic Tropical Storms and Hurricanes in the ECMWF Monthly Forecasts
3. Aerosol versus Greenhouse Gas Effects on Tropical Cyclone Potential Intensity and the Hydrologic Cycle
4. A Global Climatology of Extratropical Transition. Part I: Characteristics across Basins
5. A Global Climatology of Extratropical Transition. Part II: Statistical Performance of the Cyclone Phase Space
6. Are Midtwentieth Century Forced Changes in North Atlantic Hurricane Potential Intensity Detectable?
7. Little evidence of reduced global tropical cyclone activity following recent volcanic eruptions
8. Modeling oscillations in connected glacial lakes
9. Moist Static Energy Budget Analysis of Tropical Cyclone Intensification in High-Resolution Climate Models
10. Process-Oriented Evaluation of Climate and Weather Forecasting Models
11. Tropical Cyclone Hazard to Mumbai in the Recent Historical Climate
12. Tropical Cyclone Prediction on Subseasonal Time-Scales
13. An empirical model relating U.S. monthly hail occurrence to large‐scale meteorological environment
14. An Environmentally Forced Tropical Cyclone Hazard Model
15. Dynamic amplification of extreme precipitation sensitivity
16. Process-Oriented Diagnosis of Tropical Cyclones in High-Resolution GCMs
17. Subseasonal Tropical Cyclone Genesis Prediction and MJO in the S2S Dataset
18. Coupling with ocean mixed layer leads to intraseasonal variability in tropical deep convection: Evidence from cloud‐resolving simulations
19. Factors Controlling Rain on Small Tropical Islands: Diurnal Cycle, Large-Scale Wind Speed, and Topography
20. Seasonal Noise Versus Subseasonal Signal: Forecasts of California Precipitation During the Unusual Winters of 2015–2016 and 2016–2017
21. A genesis index for monsoon disturbances
22. Anthropogenic impact on Antarctic surface mass balance, currently masked by natural variability, to emerge by mid-century
23. Autoregressive Modeling for Tropical Cyclone Intensity Climatology
24. Human influence on tropical cyclone intensity
25. Intercomparison of methods of coupling between convection and large‐scale circulation: 2. Comparison over nonuniform surface conditions
26. Modeling the MJO in a cloud‐resolving model with parameterized large‐scale dynamics: Vertical structure, radiation, and horizontal advection of dry air
27. Northern hemisphere tropical cyclones during the quasi-El Niño of late 2014
28. Rapid intensification and the bimodal distribution of tropical cyclone intensity
29. Role of Radiative–Convective Feedbacks in Spontaneous Tropical Cyclogenesis in Idealized Numerical Simulations
30. The Importance of the Montreal Protocol in Mitigating the Potential Intensity of Tropical Cyclones
31. Tropical cyclones and climate change
32. Tropical cyclones in the GISS ModelE2
33. Airmass Origin in the Arctic. Part I: Seasonality
34. Cluster Analysis of Downscaled and Explicitly Simulated North Atlantic Tropical Cyclone Tracks
35. CMIP5 Projections of Arctic Amplification, of the North American/North Atlantic Circulation, and of Their Relationship
36. Contrasting short and long term projections of the hydrological cycle in the Southern extratropics
37. Drivers of the Recent Tropical Expansion in the Southern Hemisphere: Changing SSTs or Ozone Depletion?
38. Hurricanes and Climate: The U.S. CLIVAR Working Group on Hurricanes
39. Intercomparison of methods of coupling between convection and large‐scale circulation: 1. Comparison over uniform surface conditions
40. On the surface impact of Arctic stratospheric ozone extremes
41. Probabilistic Multiple Linear Regression Modeling for Tropical Cyclone Intensity
42. Projected Twenty-First-Century Changes in the Length of the Tropical Cyclone Season
43. Regional Simulation of the October and November MJO Events Observed during the CINDY/DYNAMO Field Campaign at Gray Zone Resolution
44. The impact of ozone depleting substances on the circulation, temperature, and salinity of the Southern Ocean: An attribution study with CESM1(WACCM)
45. An Empirical Relation between U.S. Tornado Activity and Monthly Environmental Parameters
46. Biases in Southern Hemisphere climate trends induced by coarsely specifying the temporal resolution of stratospheric ozone
47. Delayed Southern Hemisphere Climate Change Induced by Stratospheric Ozone Recovery, as Projected by the CMIP5 Models
48. Distinguishing the impacts of ozone-depleting substances and well-mixed greenhouse gases on Arctic stratospheric ozone and temperature trends
49. Impact of the Tropopause Temperature on the Intensity of Tropical Cyclones: An Idealized Study Using a Mesoscale Model
50. Influence of projected Arctic sea ice loss on polar stratospheric ozone and circulation in spring
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