Analyses and forecasts of a tornadic supercell outbreak using a 3DVAR system ensemble |
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Authors: | Zhaorong Zhuang Nusrat Yussouf Jidong Gao |
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Institution: | Zhaorong ZHUANG;Nusrat YUSSOUF;Jidong GAO;Cooperative Institute for Mesoscale Meteorological Studies, University of Oklahoma;Center of Numerical Weather Prediction,National Meteorological Center, China Meteorological Administration;NOAA/National Severe Storms Laboratory; |
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Abstract: | As part of NOAA’s “Warn-On-Forecast” initiative, a convective-scale data assimilation and prediction system was developed using the WRF-ARW model and ARPS 3DVAR data assimilation technique. The system was then evaluated using retrospective short-range ensemble analyses and probabilistic forecasts of the tornadic supercell outbreak event that occurred on 24 May 2011 in Oklahoma, USA. A 36-member multi-physics ensemble system provided the initial and boundary conditions for a 3-km convective-scale ensemble system. Radial velocity and reflectivity observations from four WSR-88Ds were assimilated into the ensemble using the ARPS 3DVAR technique. Five data assimilation and forecast experiments were conducted to evaluate the sensitivity of the system to data assimilation frequencies, in-cloud temperature adjustment schemes, and fixed- and mixed-microphysics ensembles. The results indicated that the experiment with 5-min assimilation frequency quickly built up the storm and produced a more accurate analysis compared with the 10-min assimilation frequency experiment. The predicted vertical vorticity from the moist-adiabatic in-cloud temperature adjustment scheme was larger in magnitude than that from the latent heat scheme. Cycled data assimilation yielded good forecasts, where the ensemble probability of high vertical vorticity matched reasonably well with the observed tornado damage path. Overall, the results of the study suggest that the 3DVAR analysis and forecast system can provide reasonable forecasts of tornadic supercell storms. |
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Keywords: | ensemble 3DVAR analysis radar data assimilation probabilistic forecast supercell storm |
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