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- Title
A Regime-Based Evaluation of TRMM Oceanic Precipitation Biases.
- Authors
HENDERSON, DAVID S.; KUMMEROW, CHRISTIAN D.; MARKS, DAVID A.; BERG, WESLEY
- Abstract
Over the tropical oceans, large discrepancies in TRMM passive and active microwave rainfall retrievals become apparent during El Niño-Southern Oscillation (ENSO) events. This manuscript describes the application of defined precipitation regimes to aid the validation of instantaneous rain rates from TRMM using the S-band radar located on the Kwajalein Atoll. Through the evaluation of multiple case studies, biases in rain-rate estimates from the TRMM radar (PR) and radiometer (TMI) are best explained when derived as a function of precipitation organization (e.g., isolated vs organized) and precipitation type (convective vs stratiform). When examining biases at a 1° × 1° scale, large underestimates in both TMI and PR rain rates are associated with predominately convective events in deep isolated regimes, where TMI and PR retrievals are underestimated by 37.8% and 23.4%, respectively. Further, a positive bias of 33.4% is observed in TMI rain rates within organized convective systems containing large stratiform regions. These findings were found to be consistent using additional analysis from the DYNAMO field campaign. When validating at the TMI footprint scale, TMI-PR differences are driven by stratiform rainfall variability in organized regimes; TMI overestimates this stratiform precipitation by 92.3%. Discrepancies between TMI and PR during El Niño events are related to a shift toward more organized convective systems and derived TRMM rain-rate bias estimates are able to explain 70% of TMI-PR differences during El Niño periods. An extension of the results to passive microwave retrievals reveals issues in discriminating convective and stratiform rainfall within the TMI field of view (FOV), and significant reductions in bias are found when convective fraction is constrained within the Bayesian retrieval.
- Subjects
KWAJALEIN Atoll (Marshall Islands); METEOROLOGICAL precipitation; CLOUD physics; EL Nino; SOUTHERN oscillation
- Publication
Journal of Atmospheric & Oceanic Technology, 2017, Vol 34, Issue 12, p2613
- ISSN
0739-0572
- Publication type
Article
- DOI
10.1175/JTECH-D-16-0244.1