|  | P2.1 | Propagation mechanism of boreal summertime intraseasonal oscillation
Kyong-Hwan Seo, NOAA/NWS/NCEP/CPC, Camp Springs, MD; and K. Y. Kim and J. E. Schemm |
| | P2.2 | Red Shift Phenomena Revealed in the Zonal Winds Oscillations Probably Induced by the Sunspot Cycle 
G.-H. Lim, Seoul National University, Seoul, Korea; and A. -. S. Suh and Y. Suh |
| | P2.3 | The Madden-Julian Oscillation Signal in the Arctic Oscillation
Jee-Hoon Jeong, Seoul National University, Seoul, Korea; and C. H. Ho |
| | P2.4 | Wave-mean-flow interaction and the annular mode
David J. Lorenz, University of Washington, Seattle, WA; and D. L. Hartmann |
| | P2.5 | On the relationship between very low frequency North Pacific SSTA and global climate variations
Sang-Wook Yeh, COLA, Calverton, MD; and B. P. Kirtman |
| | P2.6 | A seasonal intercomparison of the dominant modes of climatic variability
Kevin J. Rennert, JISAO/Univ. of Washington, Seattle, WA; and J. M. Wallace |
| | P2.7 | Indian Ocean response to atmospheric intraseasonal oscillations
Galina Chirokova, University of Colorado, Boulder, CO; and P. J. Webster |
| | P2.8 | Assessing the influence of decadal climate variability and climate change on snowpacks in the Pacific Northwest
Alan F. Hamlet, University of Washington, Seattle, WA; and P. Mote and D. P. Lettenmaier |
| | P2.9 | Synoptic disturbances in the east Pacific ITCZ and their effect on the boundary layer
Yolande Serra, JISAO/Univ. of Washington, Seattle, WA; and M. Cronin and M. McPhaden |
| | P2.10 | A Theory for Long Term Changes in the General Circulation—Corilis effect in the Solar System
John C. Freeman, Weather Research Center, Houston, TX; and J. F. Hasling |
| | P2.11 | Does the Antarctic Oscillation Modulate Tropical Cyclone Activity in the Northwestern Pacific
Joo-Hong Kim, Seoul National University, Seoul, Korea; and C. H. Ho |
| | P2.12 | Comparing convergence and/or moist-air advection zones from TPW analyses
Arief Sudradjat, University of Maryland and CICS/ESSIC, College Park, MD; and R. Ferraro |
| | P2.13 | Satellite Observations of Ocean Moisture Advection and its Effect on South American Low Level Jet and Hydrological Balances
Xiaosu Xie, JPL, Pasadena, CA; and W. T. Liu and W. Tang |
| | P2.14 | Simple Experiments on the Relationship of Air Temperature to SST in the Tropics
Philip J. Regulski, University of Washington, Seattle, WA; and D. L. Hartmann |
| | P2.15 | Synoptic climatology of PM2.5 and PM10 in Tucson, Arizona
Richard R. Brandt, University of Arizona, Tucson, AZ; and U. Barbosa, D. P. Brown, M. A. Crimmins, H. Yuan, S. Helfrich, T. S. Wilson, and A. C. Comrie |
| | P2.16 | Near-surface flow regimes: Recent changes and tools for prognoses
S.C. Pryor, Indiana University, Bloomington, IN; and J. T. Schoof and R. J. Barthelmie |
| | P2.17 | Planetary Boundary Layer Height: Lidar and Radiosonde based Observations
Segayle C. Walford, Howard University, Washington, DC; and B. B. Demoz and E. Joseph |
| | P2.18 | A fire scenario builder for coarse-scale modeling of current and future fire effects based on future climate scenarios
Narasimhan K. Larkin, USDA Forest Service, Seattle, WA; and D. McKenzie, S. M. O'Neill, S. Ferguson, and D. V. Sandberg |
| | P2.19 | The International Polar Year 2007–2008
Sheldon Drobot, The National Academies, Washington, DC; and C. Elfring |
| | P2.20 | Seasonal heat budget of the California Current
Kathleen A. Edwards, APL and Univ. of Washington, Seattle, WA; and K. A. Kelly |