Publication Abstracts
Shah and Rind 1995
, and , 1995: Use of microwave brightness temperatures with a general circulation model. J. Geophys. Res., 100, 13841-13874, doi:10.1029/95JD00772.
Brightness temperature maps from global monthly mean GCM atmospheric and surface fields are calculated with a new microwave radiative transfer postprocessor. This microwave radiative transfer model uses fields from the 4° by 5° GISS GCM Model II and subsequent developmental versions of the GCM. The absolute brightness temperature maps from the microwave radiative transfer model are shown to be more accurate than maps from temperature weighting functions due to the inclusion of local surface emission and local radiative transfer effects. This permits direct comparison of calculated brightness temperatures to observed brightness temperatures measured by the Microwave Sounding Unit's (MSU's) channels.
Microwave maps are calculated for the January and July GFDL radiosonde upper air and surface climatology and compared to the MSU climatology. This work tests the microwave radiative transfer model and comments on two disparate tropospheric climatologies used for trend analysis and GCM validation. The microwave comparison generally finds good agreement between the MSU channel 2 and radiosonde climatologies. January brightness temperature differences of a few degrees come from spatial coverage gaps and land-biasing in the radiosonde climatology, echoing results in previous comparison studies. The July microwave comparison finds unexpected warm brightness temperatures from the radiosonde climatology over land masses. This July difference may be related to diurnal sampling differences and to recent examination by other researchers into radiosonde time series' sensitivity to instrumentation and to solar heating of the radiosonde.
Comparison of calculated GCM microwave maps to observed monthly mean MSU maps aids development of the GISS GCM. MSU channel 2R and channel 2 are used to evaluate the impacts of GCM developments near the ocean surface and the mid-troposphere respectively. These microwave channels show large sensitivity to the planetary boundary layer scheme. MSU channel 4 confirms improvements in the lower stratosphere with addition of a parameterized gravity wave drag beneath the GCM's rigid model top. Overall, the MSU climatology with its global coverage, several broad vertical samplings, and horizontal resolution comparable to GCM gridcells complements more traditional observations used to validate general circulation models.
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BibTeX Citation
@article{sh01000b,
author={Shah, K. P. and Rind, D.},
title={Use of microwave brightness temperatures with a general circulation model},
year={1995},
journal={Journal of Geophysical Research},
volume={100},
pages={13841--13874},
doi={10.1029/95JD00772},
}
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RIS Citation
TY - JOUR ID - sh01000b AU - Shah, K. P. AU - Rind, D. PY - 1995 TI - Use of microwave brightness temperatures with a general circulation model JA - J. Geophys. Res. JO - Journal of Geophysical Research VL - 100 SP - 13841 EP - 13874 DO - 10.1029/95JD00772 ER -
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