| This dissertation work re-examines the ice cloud retrieval problem in context of often-neglected inversion uncertainties and examines their implications for the global retrieval of ice cloud microphysical properties. The optimal combination of MODIS measurements for an ice cloud microphysical property retrieval scheme constrained by CloudSat cloud boundary information was determined through application of a formal information content analysis. Channel selection for the retrieval depends not only on the sensitivity of the measurements to changes in retrieved cloud properties but also to the combined uncertainty in the measurements from the instrument itself and from such inversion assumptions as ice crystal habit, particle size distribution, and atmospheric profile. Quantification of these uncertainties was made possible only by the recent development of optical properties at the MODIS wavelengths for a variety of realistic, non-spherical ice crystals. The results show that channels that maximize retrieval information are strongly dependent upon the state of the atmosphere, meaning that there is no ideal combination of two or three channels that will always ensure an accurate retrieval. We therefore suggest a five-channel retrieval scheme consisting of a combination of error-weighted visible, near-infrared, and infrared channels chosen to use the inherent sensitivities in each of these spectral regions to ensure high retrieval information content across expected cloud and atmospheric conditions. The performance of the five-channel retrieval scheme was assessed in terms of both synthetic studies and real-world CRYSTAL-FACE data. Uncertainties in retrieved ice water path and effective radius are large and state dependent, with typical random errors near 40 to 50 percent. The large uncertainties found using this relatively complex retrieval scheme need consideration when examining the utility of absolute numbers or small trends found in existing cloud products that are often based on much simpler retrieval techniques. |
