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References

  • Alvarez, R. J.III, W. L. Eberhard, J. M. Intrieri, S. P. Sandberg, and K. W. Koenig, Cloud backscatter and phase measurements in the Arctic using ETL's DABUL lidar, in Proceedings 4th International Symposium on Tropospheric Profiling, pp. 79, Am. Meteorol. Soc., Boston, Mass., 1998.
  • Beesley, J. A., C. S. Bretherton, C. Jakob, E. L. Andreas, J. M. Intrieri, and T. Uttal, A comparison of cloud and boundary layer variables in the ECMWF forecast model with observations at SHEBA, J. Geophys. Res., accepted, 2000.
  • Bretherton, C. S., S. R. de Roode, C. Jakob, E. A. Andreas, and R. M. Moritz, A comparison of the ECMWF forecast model with observations over the annual cycle at SHEBA, J. Geophys. Res., accepted, 2000.
  • Clothiaux, E. E., B. E. Martner, T. P. Ackerman, K. P. Moran, and M. A. Miller, Cloud detection by radar and lidar at the ARM CART sites, in Proceedings Radar Conference, Am. Meteorol. Soc., Boston, Mass., 2000.
  • Curry, J. A., and E. E. Ebert, Annual cycle of radiative fluxes over the Arctic Ocean: Sensitivity to cloud optical properties, J. Clim., 5, 12671280, 1992.
  • Curry, J. A., W. B. Rossow, D. Randall, and J. L. Schramm, Overview of Arctic cloud and radiation characteristics, J. Clim., 9, 17311764, 1996a.
  • Curry, J. A., J. O. Pinto, T. Benner, and M. Tschudi, Evolution of the cloudy boundary layer during the autumnal freezing of the Beaufort Sea, J. Geophys. Res., 102, 13,85113,860, 1996b.
  • Francis, J., Cloud radiative forcing over Arctic surfaces, in Proceedings 5th Conference on Polar Meteorology and Oceanography, pp. 221226, Am. Meteorol. Soc., Boston, Mass., 1999.
  • Grund, C. J., and S. P. Sandberg, Depolarization and backscatter lidar for unattended operation, in Proceedings 18th International Laser Radar Conference, pp. 37, Springer, New York, 1996.
  • Hahn, C. J., S. G. Warren, and J. London, The effect of moonlight on observation of cloud cover at night and application to cloud climatology, J. Clim., 8, 14291446, 1995.
  • Herman, G. F., and R. Goody, Formation and persistence of summertime Arctic stratus clouds, J. Atmos. Sci., 33, 15371553, 1976.
  • Hobbs, P. V., and A. L. Rangno, Microstructures of low and middle-level clouds over the Beaufort Sea, Q. J. R. Meteorol. Soc., 124, 20352071, 1998.
  • Hobbs, P. V., A. L. Rangno, T. Uttal, and M. Shupe, Airborne studies of cloud structures over the Arctic Ocean and comparisons with retrievals from ship-based 35 GHz radar and radiometer measurements, J. Geophys. Res., 106, 15,02915,215, 2001.
  • Intrieri, J. M., C. F. Fairall, M. D. Shupe, O. G. P. Persson, E. L. Andreas, P. L. Guest, and R. M. Moritz, An annual cycle of Arctic surface cloud forcing at SHEBA, J. Geophys. Res., 107, 10.1029/2000JC000439, in press, 2002.
  • Key, J., and R. G. Barry, Cloud cover analysis with Arctic advanced very high resolution radiometer: cloud detection, J. Geophys. Res., 94, 85218535, 1990.
  • Key, J., and J. M. Intrieri, Cloud particle phase determination with the AVHRR, J. Appl. Meteorol., 39, 17971804, 2000.
  • Key, J., D. Slayback, C. Xu, and A. Schweiger, New climatologies of polar clouds and radiation based on the ISCCP D products, in Proceedings 5th Conference on Polar Meteorology and Oceanography, pp. 227232, Am. Meteorol. Soc., Boston, Mass., 1999.
  • Khvorostyanov, V. I., J. A. Curry, and J. O. Pinto, Evaluation of an explicit microwave scheme using observations of an upper-level cloud system observed during FIRE.ACE, J. Geophys. Res., 106, 15,09915,112, 2001.
  • Maykut, G. A., and N. Unterstiener, Some results from time-dependant thermodynamic model of sea-ice, J. Geophys. Res., 76, 15501575, 1971.
  • Minnis, P., D. R. Doelling, V. Chakrapani, D. A. Spangenberg, L. Nguyen, R. Palikonda, T. Uttal, R. F. Arduini, and M. Shupe, Cloud coverage and height during FIRE ACE derived from AVHRR data, J. Geophys. Res., 106, 15,21515,222, 2001.
  • Moran, K. P., B. E. Martner, M. J. Post, R. A. Kropfli, D. C. Welsh, and K. B. Widener, An unattended cloud-profiling radar for use in climate research, Bull. Am. Meteorol. Soc., 79, 443455, 1998.
  • Perovich, D. K., et al., The Surface Heat Budget of the Arctic Ocean, EOS Newslett., 1999.
  • Randall, D. A., Status of and outlook for large-scale modeling of atmosphere-ice-ocean interactions in the arctic, Bull. Am. Meteorol. Soc., 79, 197219, 1998.
  • Sassen, K., The polarization lidar technique for cloud research: A review and current assessment, Bull. Am. Meteorol. Soc., 72, 18481866, 1991.
  • Schweiger, A., J. Francis, J. Key, J. Intrieri, and M. Shupe, Validation of TOVS Path-P data during SHEBA, J. Geophys. Res., accepted, 2001.
  • Stokes, G. M., and S. E. Schwartz, The Atmospheric Radiation Measurement (ARM) Program: Programmatic background and design of the Cloud and Radiation Test Bed, Bull. Am. Meteorol. Soc., 75, 12011221, 1994.
  • Sun, Z., and K. P. Shine, Studies of the radiative properties of ice and mixed-phase clouds, Q. J. R. Meteorol. Soc., 120, 111137, 1994.
  • Uttal, T., et al., The Surface Heat Budget of the Arctic Ocean (SHEBA), Bull. Am. Meteorol., 255275, 2002.
  • Vowinkel, E., and S. Orvig, The climate of the north polar basin, in Climates of the Polar Regions, vol. 14, World Survey of Climatology, edited by S. Orvig, 129152, Elsevier, New York, 1970.
  • Warren, S. G., C. J. Hahn, J. London, R. M. Chervin, and R. L. Jenne, Global distribution of total cloud cover and cloud type amounts over the ocean, Tech. Note NCAR/TN-317+STR, 212 pp., Natl. Cent. for Atmos. Res., Boulder, Colo., 1988.
  • Washington, W. M., and G. A. Meehl, Climate sensitivity due to increased CO2: Experiments with a coupled atmosphere and ocean general circulation model, Clim. Dyn., 4, 138, 1989.
  • Winker, D. M., and B. A. Wielicki, 1999: The PICASSO-CENA Mission, in Sensors, Systems, and Next Generation Satellites, edited by H. Fujisada, Proc. SPIE, 3870, 2636 pp., 1999.