THE CERES ARM/GEWEX EXPERIMENT (CAGEX) FOR THE RETRIEVAL OF RADIATIVEFLUXES WITH SATELLITE DATA/

Results from a temporally intensive, limited area, radiative transfer model experiment are on-line for investigating the vertical profile of shortwave and longwave radiative fluxes from the surface to the top o f the atmosphere (TOA). The CERES/ARM/GEWEX Experiment (CAGEX) Version 1 provides a record of fluxes that have been computed with a radiativ e transfer code; the atmospheric sounding, aerosol, and satellite-retr ieved cloud data on which the computations have been based; and surfac e-based measurements of radiative fluxes and cloud properties from ARM for comparison. The computed broadband fluxes at TOA show considerabl e scatter when compared with fluxes that are inferred empirically from narrowband operational satellite data. At the surface, LW fluxes comp uted with an alternate sounding dataset compare well with pyrgeometer measurements. In agreement with earlier work, the authors find that th e calculated SW surface insolation is larger than the measurements for clear-sky and total-sky conditions. This experiment has been develope d to test retrievals of radiative fluxes and the associated forcings b y clouds, aerosols, surface properties, and water vapor. Collaboration is sought; the goal is to extend the domain of meteorological conditi ons for which such retrievals can be done accurately. CAGEX Version 1 covers April 1994. Subsequent versions will (a) at first span the same limited geographical area with data from October 1995, (b) then expan d to cover a significant fraction of the GEWEX Continental-Scale Inter national Project region for April 1996 through September 1996, and (c) eventually be used in a more advanced form to validate CERES.