Non-Gaussian Bayesian retrieval of tropical upper tropospheric cloud ice and water vapour from Odin-SMR measurements
Journal article, 2009

Improved Odin-SMR retrievals of upper tropospheric water are presented. The new retrieval algorithm retrieves humidity and cloud ice mass simultaneously and takes into account of cloud inhomogeneities. Both these aspects are introduced for microwave limb sounding inversions for the first time. A Bayesian methodology is applied allowing for a formally correct treatment of non-unique retrieval problems involving non-Gaussian statistics. Cloud structure information from CloudSat is incorporated into the retrieval algorithm. This removes a major limitation of earlier inversion methods where uniform cloud layers were assumed and caused a systematic retrieval error. The core part of the retrieval technique is the generation of a database that must closely represent real conditions. Good agreement with Odin-SMR observations indicates that this requirement is met. The retrieval precision is determined to be about 5– 17% RHi and 65% for humidity and cloud ice mass, respectively. For both quantities, the vertical resolution is about 5 km and the best retrieval performance is found between 11 and 15 km. New data show a significantly improved agreement with CloudSat cloud ice mass retrievals, at the same time consistency with the Aura MLS humidity results is maintained. The basics of the approach presented can be applied for all passive cloud observations and should be of broad interest. The results can also be taken as a demonstration of the potential of down-looking sub-mm radiometry for global measurements of cloud ice properties.

inversions

retrieval database

microwave remote sensing

Author

Bengt Rydberg

Chalmers, Department of Radio and Space Science, Global Environmental Measurements and Modelling

Patrick Eriksson

Chalmers, Department of Radio and Space Science, Global Environmental Measurements and Modelling

S.A. Buehler

Luleå University of Technology

Donal Murtagh

Chalmers, Department of Radio and Space Science, Global Environmental Measurements and Modelling

Atmospheric Measurement Techniques

1867-1381 (ISSN) 1867-8548 (eISSN)

Vol. 2 2 621-637

Subject Categories

Meteorology and Atmospheric Sciences

Earth and Related Environmental Sciences

DOI

10.5194/amt-2-621-2009

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3/2/2022 6