Poster Session 3 |
| | Poster Session: Climate Modeling Studies |
| | P3.1 | Impact of absorbing aerosol on precipitation: Dynamic aspects in association with CAPE and convective parameterization closure, and dependence on aerosol heating profile
Chul Eddy Chung, SIO/Univ. of California, La Jolla, CA; and G. Zhang |
| | P3.2 | Longwave cloud radiative forcing depending on the different definition of clear sky: Upper tropospheric water vapor climatology 
B. J. Sohn, Seoul National Univ., Seoul, South Korea; and J. Y. Lee, J. Schmetz, and R. Stuhlmann |
| | P3.3 | Toward Improving and Understanding the Simulation of Madden-Julian Oscillation in NCAR CCM3
Mingquan Mu, SIO/Univ. Of California, La Jolla, CA; and G. J. Zhang |
| | P3.4 | A Local-Coupled CGCM Study of MJO in the Indo-Pacific Ocean
Jin-Yi Yu, University of California, Irvine, CA; and S. P. Weng |
| | P3.5 | The impact of Ekman transport on ENSO-induced SST anomalies
Michael A. Alexander, NOAA/ERL/CDC, Boulder, CO; and J. Scott |
| | P3.6 | The Role of ENSO in Regulating the Stability of the Tropical Pacific Climatology
De-Zheng Sun, CIRES/Univ. of Colorado, Boulder, CO |
| | P3.7 | Modeled moisture fluxes in the North American Monsoon Experiment region warm season
David A. Salstein, AER, Lexington, MA |
| | P3.8 | Dynamical mechanisms for monsoon changes during the mid-holocene
Hui Su, University of California, Los Angeles, Los Angeles, CA; and J. D. Neelin and J. E. Meyerson |
| | P3.9 | Internal Atmospheric Dynamics and Tropical Indo-Pacific Climate Variability
Ben P. Kirtman, COLA, Calverton, MD |
| | P3.10 | Interannual tropical Pacific sea-surface temperatures and preceding subtropical sea level pressure anomalies in the NCAR CCSM2.0
Bruce Anderson, Boston University, Boston, MA; and E. D. Maloney |
| | P3.11 | Interannual variability of Great Plains summer rainfall in Reanalyses and NCAR and NSIPP AMIP-like simulations
Alfredo Ruiz-Barradas, University of Maryland, College Park, MD; and S. Nigam |
| | P3.12 | The impact of fluctuating winds on the persistence of anomalous midlatitude sea surface temperatures
Philip Sura, NOAA-CIRES Climate Diagnostics Center, Boulder, CO; and M. Newman and M. Alexander |
| | P3.13 | Impacts of Anomalous Western North Atlantic Sea-Surface Temperature on Ice Storms in the Southeast US
Renato Ramos da Silva, Duke University, Durham, NC; and D. Werth, R. Avissar, and G. Bohrer |
| | P3.14 | Decadal Climate Simulations Using Accurate and Fast Neural Network Emulations for the NCAR Community Atmospheric Model Radiation
Vladimir M. Krasnopolsky, SAIC at NOAA/NCEP/EMC and ESSIC, Univ. of Maryland, Camp Springs, MD; and M. S. Fox-Rabinovitz and D. Chalikov |
| | P3.15 | Evaluating a high resolution global coupled ice-ocean model
Meibing Jin, University of Alaska, Fairbanks, AK; and J. Wang, T. Suzuki, J. Takahashi, and J. E. Walsh |
| | P3.16 | Comparison of the variance seasonal cycle and covariance of surface air temperature anomalies in 13 coupled climate models
Qigang Wu, COLA, Calverton, MD; and G. R. North and D. J. Karoly |
| | P3.17 | Assessment of PCM Results for Predictions of Climate Changes in the Caribbean
Moises Angeles, University of Puerto Rico, Mayaguez, PR; and J. E. Gonzalez, P. Mulero, D. J. Erickson, and J. Hernandez-Figueroa |
| | P3.18 | An Evaluation of RCM Climatology in a Multi-decadal Hindcast for East Asia
Jinwon Kim, University of California, Los Angeles; and H. S. Jung and C. R. Mechoso |
| | P3.19 | The role of land models in the FSU regional climate model and its implication to crop model forecasting
Dong-Wook Shin, COAPS, Florida State University, Tallahassee, FL; and T. E. LaRow, S. Cocke, and J. J. O'Brien |
| | P3.20 | Response of the NCEP Global Coupled Atmosphere Land Ocean Model (CFS) to Idealized Isolated Soil Moisture Anomalies
Suranjana Saha, NOAA/NWS/NCEP/EMC, Camp Springs, MD; and H. L. Pan and H. M. Van den Dool |
| | P3.21 | Empirical correction to the COLA coupled Ocean-Atmosphere prediction system
Xiaohua Pan, COLA, Calverton, MD; and B. P. Kirtman |
| | P3.22 | A novel partnership for addressing the impacts of climate change in western North Carolina
Douglas K. Miller, Univ. of North Carolina, Asheville, NC; and P. J. McCown |
| | P3.23 | Influences on predictability in multi-year regional climate simulations for the continental United States
Raymond W. Arritt, Iowa State University, Ames, IA; and C. J. Anderson, W. J. Gutowski, E. S. Takle, D. Caya, C. G. Jones, J. J. Katzfey, J. W. Larson, R. Laprise, J. L. McGregor, J. Roads, and J. Taylor |
| | P3.24 | A revised approach to subgrid-scale cloud processes in a cumulus parameterization scheme and its effects on seasonal prediction
Young-Hwa Byun, Yonsei University, Seoul, South Korea; and S. Y. Hong |
| | P3.25 | Climate response to the vertically stratified forcing.
Andrei P. Sokolov, MIT, Cambridge, MA |
| | P3.26 | Impact of orographically induced gravity wave drag parameterization on seasonal and weather prediction
Eun-Chul Chang, Yonsei University, Seoul, South Korea; and S. Y. Hong and Y. J. Kim |
| | P3.27 | The offline comparison of an alternative infrared radiation scheme for use in NCEP's global spectral model and regional spectral model
Johnny Seymore, Howard University, Washington, DC; and E. Joseph |
| | P3.28 | International stretched-grid model intercomparison project (SGMIP)
Michael S. Fox-Rabinovitz, University of Maryland, College Park, MD; and J. Cote, B. Dugas, M. Deque, J. McGregor, and P. Gleckler |
| | P3.29 | Stratospheric forcing, lower stratospheric temperatures and volcanic water vapour
Simon Tett, Hadley Centre (Reading Unit), Met Office, Reading, United Kingdom; and P. M. Forster, S. Hare, M. Joshi, and J. Knight |
| | P3.30 | Improvements on CO2 flux estimation over the central U.S. using explicit crop phenology in a regional climate model
Zaitao Pan, St. Louis University, St. Louise, MO; and E. S. Takle, L. Xue, and M. Segal |
| | P3.31 | Estimating the representation of extreme precipitation events in atmospheric general circulation models using L-moments
Lawrence Marx, COLA, Calverton, MD |
| | P3.32 | Developing daily climate scenarios for agricultural impact studies
Budong Qian, Agriculture and Agri-Food Canada, Ottawa, ON, Canada; and H. Hayhoe and S. Gameda |
| | P3.33 | How often does it rain?
Ying Sun, NOAA/AL, Boulder, CO; and S. Solomon, A. Dai, and R. W. Portmann |
| | P3.34 | Coupling sub-grid scale moist convection with global dynamics
Amik St-Cyr, NCAR, Boulder, CO; and S. J. Thomas, A. Wyszogrodzki, and W. W. Grabowski |
| | P3.35 | The leading mode of air-sea interaction in the North Atlantic region
Lin-lin Pan, University of Hawaii at Manoa, Honolulu, HI; and F. F. Jin and M. Watanabe |