Remote sensing of optical and microphysical properties of cirrus clouds using Moderate-Resolution Imaging Spectroradiometer channels: Methodology and sensitivity to physical assumptions

Rolland, P., K. Liou, M.D. King, S. Tsay, and G.M. McFarquhar (2000), Remote sensing of optical and microphysical properties of cirrus clouds using Moderate-Resolution Imaging Spectroradiometer channels: Methodology and sensitivity to physical assumptions, J. Geophys. Res., 105, 11721-11738.
Abstract

A methodology for the retrieval of cirrus cloud microphysical and optical properties based on observations of reflected sunlight is introduced. The retrieval method is based on correlation of the bidirectional reflectance of three channels, 0.65, 1.6, and 2.2 µm, that are available onboard MODIS. Validation studies using microphysical measurements and MAS observations illustrate the nature of the potential errors associated with the retrieved optical depth and mean effective ice crystal size. The effects of the physical assumptions involving ice crystal size distribution and shape employed in the algorithm are subsequently assessed. In terms of the microphysical models used for radiation calculations, the ice crystal shape assumption is found to have the most significant impact on the
retrieved parameters. The effect of the background surface reflectance on the retrieval results is further examined and we show that in order to reliably infer non-black cirrus parameters from solar reflectance
measurements, it is essential to properly account for the background radiation over both land and ocean surfaces. Finally, we present the measured ice microphysical data for tropical cirrus as a function of cloud development and ambient temperature to illustrate the importance of vertical inhomogeneity for validation studies.

Research Program
Radiation Science Program (RSP)
Mission
Aqua-MODIS
Terra-MODIS

 

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