Comparisons of LASE, aircraft, and satellite measurements of aerosol optical properties and water vapor during TARFOX

We examine aerosol extinction and optical thickness from the Lidar Atmosphe ric Sensing Experiment (LASE), the in situ nephelometer and absorption phot ometer on the University of Washington C-131A aircraft, and the NASA Ames A irborne Tracking Sun Photometer (AATS-6) on the C-131A measured during the Tropospheric Aerosol Radiative Forcing Observational Experiment (TARFOX) ov er the east coast of the United States in July 1996. On July 17 and 24 the LASE profiles of aerosol extinction and aerosol optical thickness (AOT) had a bias difference of 0.0055 km(-1) (10%) and a root-mean-square difference of 0.026 km(-1) (42%) when compared to corresponding profiles derived from the airborne in situ data when the nephelometer measurements are adjusted to ambient relative humidities. Larger differences for two other days were associated with much smaller aerosol optical thicknesses (July 20) and diff erences in the locations sampled by the two aircraft (July 26). LASE profil es of AOT are about 10% higher than those derived from the airborne Sun pho tometer, which in turn are about 10-15% higher than those derived from the airborne in situ measurements. These differences are generally within the e rror estimates of the various measurements. The LASE measurements of AOT ge nerally agree with AOT derived from both the Along-Track and Scanning Radio meter 2 (ATSR 2) sensor flown on the European Remote Sensing Satellite 2 (E RS-2) and from the Moderate-Resolution Imaging Spectroradiometer (MODIS) ai rborne simulator (MAS) which flew with LASE on the NASA ER-2 aircraft. Effe ctive particle sizes derived from the MAS data indicate that the LASE retri evals of AOT are valid for effective particle radii less than 0.4 mu m. Var iations in the relative humidity derived from the LASE water vapor measurem ents on July 26 are found to be highly correlated with Variations in the ef fective particle size derived from the MAS.