Poster Session 1 |
| Radiation Poster Session I: Earth Radiation Budget |
| | P1.1 | The predicted CLARREO flux sampling error David R. Doelling, NASA/LaRC, Hampton, VA; and D. F. Keyes, L. T. C. Nguyen, D. MacDonnell, and D. F. Young |
| | P1.2 | Error in FTIR spectrometer radiances due to noise at high levels Penny M. Rowe, University of Idaho, Moscow, ID; and S. P. Neshyba, C. J. Cox, and V. P. Walden |
| | P1.3 | A study of the aerosol direct effect using ESSP/CALIPSO observation and GCM simulation Eiji Oikawa, University of Tokyo, Kashiwa, Chiba, Japan; and T. Nakajima and T. Inoue |
| | P1.4 | Spectral longwave radiance simulations using PCRTM and five years of CERES data Fred G. Rose, SSAI, Hampton, VA; and S. Kato, X. Liu, D. P. Kratz, and X. Huang |
| | P1.5 | Estimations of climate feedbacks based on top-of-atmosphere net radiation Bing Lin, NASA/LaRC, Hampton, VA; and L. H. Chambers, P. W. Stackhouse, B. A. Wielicki, Y. Hu, P. Minnis, N. Loeb, W. Sun, G. L. Potter, Q. Min, G. Schuster, and A. Fan |
| | P1.6 | Monitoring global warming with radiative forcing measurements W.F.J. Evans, North West Research Associates, Redmond, WA |
| | P1.7 | Evaluation of the anthropogenic sulfate direct radiative forcings in a general circulation model Daisuke Goto, Univ. of Tokyo, Kashiwa, Chiba, Japan; and T. Nakajima and T. Takemura |
| | P1.8 | Radiative impact of ammonium-sulfate-nitrate aerosols in a general circulation model study Daisuke Goto, Univ. of Tokyo, Kashiwa, Chiba, Japan; and T. Nakajima and T. Takemura |
| | P1.9 | The Radiative Effects of Weather States Identified by ISCCP Lazaros Oreopoulos, NASA/GSFC, Greenbelt, MD |
| | P1.10 | Special operations of CERES for radiation experiment tests (SOCRATES) for Earth-based campaigns G. Louis Smith, National Institute of Aerospace, Hampton, VA; and Z. P. Szewczyk, K. J. Priestley, N. Loeb, T. P. Charlock, G. Schuster, W. L. Smith, E. Lopez-Baeza, and A. Velazquez |
| | P1.11 | The CERES geostationary calibration methodology with emphasis on the desert calibration Rajendra Bhatt, Science Systems and Applications Inc., Hampton, VA; and D. R. Doelling, D. Morstad, and A. Gopalan |
| | P1.12 | Special Operations of CERES for Radiation Experiment Tests (SOCRATES) – ERB Instruments Comparison Z. Peter Szewczyk, SSAI, Hampton, VA; and G. L. Smith, K. J. Priestley, and N. G. Loeb |
| | P1.13 | The Surface Radiation Budget: An evaluation of climate data records for the downwelling surface radiation Jörg Trentmann, German Weather Service, Offenbach, Germany; and R. Müller, C. Träger-Chatterjee, R. Posselt, and R. Stöckli |
| | P1.14 | Comparison of TOA fluxes from FLASHFlux and CERES SSF 1Deg Lite Anne C. Wilber, SSAI, Hampton, VA; and D. P. Kratz, P. W. Stackhouse, S. K. Gupta, D. R. Doelling, and L. T. C. N. Nguyen |
| | P1.15 | Validation of Clouds & The Earths Radiant Energy System (CERES) Synoptic (SYN) data product David A. Rutan, SSAI, Hampton, VA; and D. R. Doelling, T. P. Charlock, F. G. Rose, and L. T. C. Nguyen |
| | P1.16 | Improved TOA broadband shortwave and longwave fluxes derived from satellites over the Tropical Western Pacific Mandana Khaiyer, SSAI, Hampton, VA ; and P. Minnis, D. R. Doelling, M. L. Nordeen, R. Palikonda, D. A. Rutan, and Y. Yi |
| | P1.17 | Decadal-scale trend of surface solar radiation simulated by a global aerosol transport-climate model Toshihiko Takemura, Kyushu University, Kasuga, Fukuoka, Japan; and A. Ohmura |
| | P1.18 | Extending the ERBE Nonscanner Shortwave Data Record through August 2005 Kathryn A. Bush, SSAI, Hampton, VA; and T. Wong, R. B. Lee, and G. L. Smith |
| | P1.19 | Monitoring of geoengineering climate interventions W.F.J. Evans, North West Research Associates, Redmond, WA |
| | P1.20 | Investigation of the earth radiation budget through an integrative analysis of CERES-BSRN observations and ECHAM5-HAM simulations Xiquan Dong, University of North Dakota, Grand Forks, ND; and B. Xi, M. Wild, D. Folini, P. Minnis, and N. Loeb |
| | P1.21 | Assessing the direct aerosol radiative forcing in the Arctic region produced by the recent eruption of Redoubt Volcano Cindy L. Young, Georgia Institute of Technology, Atlanta, GA; and I. N. Sokolik and J. Dufek |
| | P1.22 | Estimating the cloud feedback between 2000-2008 Andrew E. Dessler, Texas A&M Univ., College Station, TX |
| | P1.23 | Shortwave radiative closure for cloudy cases at the Cabauw BSRN site, the Netherlands Ping Wang, KNMI, De Bilt, Netherlands; and W. H. Knap and P. Stammes |
| | P1.24 | Spectral darkening correction to CERES instruments Natividad Manalo-Smith, Science Systems and Applications Inc., Hampton, VA; and N. Loeb, K. J. Priestley, D. Walikainen, and S. Thomas |
| | P1.25 | Sensitivity of TOA irradiances derived from CERES observations over the Arctic to the error in the cloud cover Seiji Kato, NASA/LaRC, Hampton, VA; and E. E. Clothiaux |
| | P1.26 | Towards observing changes in the diurnal cycle of top-of-atmosphere radiation using Level-3 CERES Data Products Lusheng Liang, Science Systems and Applications, Hampton, VA; and N. Loeb, D. R. Doelling, and L. T. C. Nguyen |
| | P1.27 | An assessment of climate feedback processes using satellite observations of clear-sky OLR Eui-Seok Chung, Univ. of Miami/RSMAS, Miami, FL; and B. J. Soden and D. Yeomans |
| | P1.28 | Quantifying Cloud Radiative Effects based on Cloudsat and Calipso Profiles Jennifer Müller, Meteorological Institute of the University of Bonn, Bonn, Germany; and H. M. Deneke, V. Venema, and C. Simmer |
| | P1.29 | The NASA/GEWEX Surface Radiation Budget project: Analysis of Release 3.0 shortwave dataset Stephen J. Cox, SSAI, Hampton, VA; and P. W. Stackhouse, S. K. Gupta, J. C. Mikovitz, and T. Zhang |
| | P1.30 | The annual cycle of Earth radiation budget from Clouds and the Earth's Radiant Energy System (CERES) Data Pamela E. Mlynczak, SSAI, Hampton, VA; and G. L. Smith |
| | P1.31 | Evaluation of Shortwave Radiation Budget Algorithm Developed for the Next-Generation Geostationary Operational Environmental Satellite (GOES-R) Hongqing Liu, Dell Perot Systems/QSS Group, Inc., Camp Springs, MD; and I. Laszlo and H. Y. Kim |
| | P1.32 | An assessment of the NASA/GEWEX SRB longwave release-3.0 J. Colleen Mikovitz, SSAI, Hampton, VA; and P. W. Stackhouse, S. K. Gupta, S. J. Cox, and T. Zhang |
| | P1.33 | The assessment and use of 1-Degree Gridded TOA and surface radiative flux products from CERES FLASHFlux for science and applications Paul W. Stackhouse Jr., NASA/LaRC, Hampton, VA; and D. P. Kratz, S. K. Gupta, A. C. Wilber, A. C. Edwards, P. K. Sawaengphokhai, J. M. Hoell, and W. S. Chandler |
| | P1.34 | Assessing uncertainties and variability in global and regional radiative budgets from the NASA/GEWEX Surface Radiation Budget (SRB) Release-3.0 dataset Paul W. Stackhouse Jr., NASA/LaRC, Hampton, VA; and S. K. Gupta, S. J. Cox, J. C. Mikovitz, T. Zhang, and L. M. Hinkelman |
| | P1.35 | Temporal and spatial variations of atmospheric contributions to shortwave surface irradiance in East Asia Kazuaki Kawamoto, Nagasaki University, Nagasaki, Japan; and T. Hayasaka |
| | P1.36 | Difference in cloud effect on maritime aerosol optical depth between MODIS and CALIPSO-CloudSat cloud fraction over the CERES footprint Walter F. Miller, Science Systems and Applications Inc, Hampton, VA; and S. Kato, S. Sun-Mack, F. G. Rose, and Y. Chen |
| | P1.37 | Variability of total, black and white sky spectral albedo at the ASR central facility Gary B. Hodges, NOAA/ESRL/GMD, Boulder, CO; and J. J. Michalsky and E. G. Dutton |
| | P1.38 | Analysis of the downward shortwave surface flux biases in the coupled GFDL General Circulation Model Stuart M. Freidenreich, NOAA/GFDL, Princeton, NJ |
| | P1.39 | Effect of invisible clouds on earth radiation energy budget and aerosol product Wenbo Sun, Science Systems and Applications Inc., Hampton, VA; and N. Loeb and S. Kato |