This study uses Dynamics of the Madden-Julian Oscillation (DYNAMO) shipborne [Research Vessel (R/V) Roger Revelle] radar and Tropical RainfallMeasuring Mission (TRMM) Precipitation Radar (PR) datasets to investigate MJO-associated convective systems in specific organizational modes [mesoscale convective system (MCS) versus sub-MCS and linear versus nonlinear]. The Revelle radar sampled many "climatological" aspects of MJO convection as indicated by comparison with the long-term TRMM PR statistics, including areal-mean rainfall (6-7 mm day-1), convective intensity, rainfall contributions from different morphologies, and their variationswithMJOphase.Nonlinear sub-MCSswere present 70%of the time but contributed just around 20% of the total rainfall. In contrast, linear and nonlinear MCSs were present 10% of the time but contributed 20% and 50%, respectively. These distributions vary with MJO phase, with the largest sub-MCS rainfall fraction in suppressed phases (phases 5-7) and maximum MCS precipitation in active phases (phases 2 and 3). Similarly, convective-stratiform rainfall fractions also varied significantly with MJO phase, with the highest convective fractions (70%-80%) in suppressed phases and the largest stratiform fraction (40%-50%) in active phases. However, there are also discrepancies between the Revelle radar and TRMMPR. Revelle radar data indicated a mean convective rain fraction of 70%compared to 55%for TRMMPR. This difference is mainly due to the reduced resolution of the TRMM PR compared to the ship radar. There are also notable differences in the rainfall contributions as a function of convective intensity between the Revelle radar and TRMM PR. In addition, TRMM PR composites indicate linear MCS rainfall increases after MJO onset and produce similar rainfall contributions to nonlinear MCSs; however, the Revelle radar statistics show the clear dominance of nonlinear MCS rainfall.
CITATION STYLE
Xu, W., & Rutledge, S. A. (2015). Morphology, intensity, and rainfall production of MJO convection: Observations from DYNAMO shipborne radar and TRMM. Journal of the Atmospheric Sciences, 72(2), 623–640. https://doi.org/10.1175/JAS-D-14-0130.1
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