Impact of Radar Data Assimilation on the Simulation of a Heavy Rainfall Event Over Manaus in the Central Amazon

被引:0
作者
Paulo Maurício Moura de Souza
Eder Paulo Vendrasco
Ivan Saraiva
Maximiliano Trindade
Maria Betânia Leal de Oliveira
Jaci Saraiva
Ricardo Dellarosa
Rodrigo Augusto Ferreira de Souza
Luiz Antonio Candido
Luiz Fernando Sapucci
Rita Valéria Andreoli
机构
[1] Programa de Pós-Graduação em Clima e Ambiente INPA/UEA,Centro de Previsão de Tempo e Estudos Climáticos
[2] Instituto Nacional de Pesquisas da Amazônia Manaus,Coordenação de Dinâmica Ambiental
[3] Instituto Nacional de Pesquisas Espaciais,undefined
[4] Centro Gestor e Operacional do Sistema de Proteção da Amazônia,undefined
[5] Escola Superior de Tecnologia,undefined
[6] Universidade do Estado do Amazonas,undefined
[7] Instituto Nacional de Pesquisas da Amazônia,undefined
来源
Pure and Applied Geophysics | 2022年 / 179卷
关键词
Data assimilation; meteorological radar; reflectivity; radial velocity; WRF 3D-Var; Central Amazon;
D O I
暂无
中图分类号
学科分类号
摘要
The aim of this study was to evaluate the impact of radar-detected radial velocity and reflectivity data assimilation (DA) on precipitation forecasts using the Weather Research and Forecasting (WRF) numerical model and its three-dimensional variational DA system (WRFDA-3DVAR). For this purpose, one heavy rain event in the city of Manaus in the Central Amazon on 25 December 2017 was analyzed. Numerical experiments were conducted using different initial conditions and both cyclical and non-cyclical assimilation processes. The evaluation of these experiments, conducted with and without radar DA, was based on comparisons between estimated radar precipitation and simulated precipitation. The results show that radial velocity plays a fundamental role in improving the representation of the convective system. Additionally, the best results were obtained when reflectivity was included alongside radial velocity in non-cyclical assimilation processes. Therefore, it can be concluded that the assimilation of radar data positively impacted the short-term forecast of precipitation associated with the studied convective system.
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页码:425 / 440
页数:15
相关论文
共 95 条
[1]  
Abhilash S(2012)Assimilation of Doppler weather radar radial velocity and reflectivity observations in WRF-3DVAR system for short-range forecasting of convective storms Pure and Appllied Geophysical 169 2047-2070
[2]  
Sahai AK(2004)A three-dimensional variational data assimilation system for MM5: Implementation and initial results Monthly Weather Review 132 897-914
[3]  
Mohankumar K(2012)The weather research and forecasting model's community variational/ensemble data assimilation system: WRFDA Bulletin of the American Meteorological Society 93 831-843
[4]  
George JP(2018)Radar data assimilation impact over nowcasting a mesoscale convective system in Catalonia using the WRF model Tethys-Journal of Mediterranean Meteorology & Climatology 15 3-17
[5]  
Das S(2017)Impacto da assimilação de dados de radar em sistemas convectivos de mesoescala: Um estudo de caso Revista Brasileira De Meteorologia 32 447-458
[6]  
Barker DM(1998)Uma revisão geral sobre o clima da Amazônia Acta Amazônica 28 101-101
[7]  
Huang W(1998)The WSR-88D rainfall algorithm Weather and Forecasting 13 377-395
[8]  
Guo YR(2021)Effect of the assimilation frequency of radar reflectivity on rain storm prediction by using WRF-3DVAR Remote Sensing 13 2103-1763
[9]  
Bourgeois AJ(2018)Evaluation of Doppler radar and GTS data assimilation for NWP rainfall prediction of an extreme summer storm in northern China: From the hydrological perspective Hydrology and Earth System Sciences 22 4329-1737
[10]  
Xiao QN(2012)Assimilating Doppler radar radial velocity and reflectivity observations in the weather research and forecasting model by a proper orthogonal decomposition- based ensemble, three-dimensional variational assimilation method Journal of Geophysical Research-Atmosphere 117 D17113-229
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