Results of the assimilation of high-density data to initialize the high-resolution meteorological model MOLOCH (CNR-ISAC) are described. The local analysis and prediction sys- tem (LAPS), a mesoscale data assimilation system developed at NOAA, is applied to modeling a case study of heavy precipita- tion that occurred over Liguria, north-western Italy, on November 4, 2011, causing severe flood in the city of Genoa. This case is representative of some episodes that affected the region in the last few years, where the coastal orography, besides enhancing the convective uplift, contributed to the formation of convergence lines over the sea, responsible for the onset of convective cells. The present work aims at the implementation of a model-based operational short-range prediction system, with particular focus on quantitative precipitation forecasting in a time range up to 12–24 h. The use of LAPS analysis as initial condition for the MOLOCH model shows a positive impact on the intensity and distribution of the simulated precipitation with respect to the sim- ulations where only large-scale analyses are employed as initial conditions. Effects on the models simulations are due to the assim- ilation of surface network data, radio-sounding profiles, radar and satellite (SEVIRI/MSG) data.
Heavy Rain Forecasting by Model Initialization with LAPS: A Case Study / A. Tiesi, M.M. Miglietta, D. Conte, O. Drofa, S. Davolio, P. Malguzzi, A. Buzzi. - In: IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING. - ISSN 1939-1404. - 9:6(2016), pp. 2619-2627. [10.1109/JSTARS.2016.2520018]
Heavy Rain Forecasting by Model Initialization with LAPS: A Case Study
S. Davolio;
2016
Abstract
Results of the assimilation of high-density data to initialize the high-resolution meteorological model MOLOCH (CNR-ISAC) are described. The local analysis and prediction sys- tem (LAPS), a mesoscale data assimilation system developed at NOAA, is applied to modeling a case study of heavy precipita- tion that occurred over Liguria, north-western Italy, on November 4, 2011, causing severe flood in the city of Genoa. This case is representative of some episodes that affected the region in the last few years, where the coastal orography, besides enhancing the convective uplift, contributed to the formation of convergence lines over the sea, responsible for the onset of convective cells. The present work aims at the implementation of a model-based operational short-range prediction system, with particular focus on quantitative precipitation forecasting in a time range up to 12–24 h. The use of LAPS analysis as initial condition for the MOLOCH model shows a positive impact on the intensity and distribution of the simulated precipitation with respect to the sim- ulations where only large-scale analyses are employed as initial conditions. Effects on the models simulations are due to the assim- ilation of surface network data, radio-sounding profiles, radar and satellite (SEVIRI/MSG) data.
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2016-IEEE_Tiesi_etal.pdf
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paper_JSTAR_final.pdf
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