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- Title
Combining Satellite Microwave Radiometer and Radar Observations to Estimate Atmospheric Heating Profiles.
- Authors
Grecu, Mircea; Olson, William S.; Chung-Lin Shie; L'Ecuyer, Tristan S.; Wei-Kuo Tao
- Abstract
In this study, satellite passive microwave sensor observations from the Tropical Rainfall Measuring Mission (TRMM) Microwave Imager (TMI) are utilized to make estimates of latent + eddy sensible heating rates (Q1 - QR) where Q1 is the apparent heat source and QR is the radiative heating rate in regions of precipitation. The TMI heating algorithm (herein called TRAIN) is calibrated or “trained” using relatively accurate estimates of heating based on spaceborne Precipitation Radar (PR) observations collocated with the TMI observations over a one-month period. The heating estimation technique is based on a previously described Bayesian methodology, but with improvements in supporting cloud-resolving model simulations, an adjustment of precipitation echo tops to compensate for model biases, and a separate scaling of convective and stratiform heating components that leads to an approximate balance between estimated vertically integrated condensation and surface precipitation. Estimates of Q1 - QR from TMI compare favorably with the PR training estimates and show only modest sensitivity to the cloud-resolving model simulations of heating used to construct the training data. Moreover, the net condensation in the corresponding annual mean satellite latent heating profile is within a few percent of the annual mean surface precipitation rate over the tropical and subtropical oceans where the algorithm is applied. Comparisons of Q1 produced by combining TMI Q1 - QR with independently derived estimates of QR show reasonable agreement with rawinsonde-based analyses of Q1 from two field campaigns, although the satellite estimates exhibit heating profile structures with sharper and more intense heating peaks than the rawinsonde estimates.
- Subjects
TELECOMMUNICATION satellites; MICROWAVE devices; ELECTRIC waves; RADIOMETERS; AUTOMATIC detection in radar; RADIATION measurements; DETECTION of radioactive substances; ELECTROMAGNETIC measurements; ATMOSPHERIC temperature
- Publication
Journal of Climate, 2009, Vol 22, Issue 23, p6356
- ISSN
0894-8755
- Publication type
Article
- DOI
10.1175/2009JCLI3020.1