Application of the WRF-LETKF data assimilation system over southern South America: Sensitivity to model physics

Improving the initial conditions of short-range numerical weather prediction (NWP) models is one of the main goals of the meteorological community. Development of data assimilation and ensemble forecast systems is essential in any national weather service (NWS). In this sense, the local ensemble tra...

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Autores principales: Dillon, M.E., Skabar, Y.G., Ruiz, J., Kalnay, E., Collini, E.A., Echevarría, P., Saucedo, M., Miyoshi, T., Kunii, M.
Formato: JOUR
Materias:
Data assimilation
Forecasting
Kalman filters
Mathematical and statistical techniques
Model evaluation/performance
Model initialization
Models and modeling
Numerical weather prediction/forecasting
Boundary layers
Data acquisition
Meteorology
Numerical models
Quality control
Statistical techniques
Weather forecasting
data assimilation
ensemble forecasting
Kalman filter
numerical model
performance assessment
sensitivity analysis
weather forecasting
South America
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_08828156_v31_n1_p217_Dillon
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_08828156_v31_n1_p217_Dillon2023-10-03T15:40:27Z Application of the WRF-LETKF data assimilation system over southern South America: Sensitivity to model physics Dillon, M.E. Skabar, Y.G. Ruiz, J. Kalnay, E. Collini, E.A. Echevarría, P. Saucedo, M. Miyoshi, T. Kunii, M. Data assimilation Forecasting Kalman filters Mathematical and statistical techniques Model evaluation/performance Model initialization Models and modeling Numerical weather prediction/forecasting Boundary layers Data acquisition Forecasting Kalman filters Meteorology Numerical models Quality control Data assimilation Model evaluation/performance Model initialization Numerical weather prediction/forecasting Statistical techniques Weather forecasting data assimilation ensemble forecasting Kalman filter numerical model performance assessment sensitivity analysis weather forecasting South America Improving the initial conditions of short-range numerical weather prediction (NWP) models is one of the main goals of the meteorological community. Development of data assimilation and ensemble forecast systems is essential in any national weather service (NWS). In this sense, the local ensemble transform Kalman filter (LETKF) is a methodology that can satisfy both requirements in an efficient manner. The Weather Research and Forecasting (WRF) Model coupled with the LETKF, developed at the University of Maryland, College Park, have been implemented experimentally at the NWS of Argentina [Servicio Meteorológico Nacional (SMN)], but at a somewhat lower resolution (40 km) than the operational Global Forecast System (GFS) at that time (27 km). The purpose of this work is not to show that the system presented herein is better than the higher-resolution GFS, but that its performance is reasonably comparable, and to provide the basis for a continued improved development of an independent regional data assimilation and forecasting system. The WRF-LETKF system is tested during the spring of 2012, using the prepared or quality controlled data in Binary Universal Form for Representation of Meteorological Data (PREPBUFR) observations from the National Centers for Environmental Prediction (NCEP) and lateral boundary conditions from the GFS. To assess the effect of model error, a single-model LETKF system (LETKF-single) is compared with a multischeme implementation (LETKF-multi), which uses different boundary layer and cumulus convection schemes for the generation of the ensemble of forecasts. The performance of both experiments during the test period shows that the LETKF-multi usually outperforms the LETKF-single, evidencing the advantages of the use of the multischeme approach. Both data assimilation systems are slightly worse than the GFS in terms of the synoptic environment representation, as could be expected given their lower resolution. Results from a case study of a strong convective system suggest that the LETKF-multi improves the location of the most intense area of precipitation with respect to the LETKF-single, although both systems show an underestimation of the total accumulated precipitation. These preliminary results encourage continuing the development of an operational data assimilation system based on WRF-LETKF at the SMN. © 2016 American Meteorological Society. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_08828156_v31_n1_p217_Dillon
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Data assimilation
Forecasting
Kalman filters
Mathematical and statistical techniques
Model evaluation/performance
Model initialization
Models and modeling
Numerical weather prediction/forecasting
Boundary layers
Data acquisition
Forecasting
Kalman filters
Meteorology
Numerical models
Quality control
Data assimilation
Model evaluation/performance
Model initialization
Numerical weather prediction/forecasting
Statistical techniques
Weather forecasting
data assimilation
ensemble forecasting
Kalman filter
numerical model
performance assessment
sensitivity analysis
weather forecasting
South America
spellingShingle Data assimilation
Forecasting
Kalman filters
Mathematical and statistical techniques
Model evaluation/performance
Model initialization
Models and modeling
Numerical weather prediction/forecasting
Boundary layers
Data acquisition
Forecasting
Kalman filters
Meteorology
Numerical models
Quality control
Data assimilation
Model evaluation/performance
Model initialization
Numerical weather prediction/forecasting
Statistical techniques
Weather forecasting
data assimilation
ensemble forecasting
Kalman filter
numerical model
performance assessment
sensitivity analysis
weather forecasting
South America
Dillon, M.E.
Skabar, Y.G.
Ruiz, J.
Kalnay, E.
Collini, E.A.
Echevarría, P.
Saucedo, M.
Miyoshi, T.
Kunii, M.
Application of the WRF-LETKF data assimilation system over southern South America: Sensitivity to model physics
topic_facet Data assimilation
Forecasting
Kalman filters
Mathematical and statistical techniques
Model evaluation/performance
Model initialization
Models and modeling
Numerical weather prediction/forecasting
Boundary layers
Data acquisition
Forecasting
Kalman filters
Meteorology
Numerical models
Quality control
Data assimilation
Model evaluation/performance
Model initialization
Numerical weather prediction/forecasting
Statistical techniques
Weather forecasting
data assimilation
ensemble forecasting
Kalman filter
numerical model
performance assessment
sensitivity analysis
weather forecasting
South America
description Improving the initial conditions of short-range numerical weather prediction (NWP) models is one of the main goals of the meteorological community. Development of data assimilation and ensemble forecast systems is essential in any national weather service (NWS). In this sense, the local ensemble transform Kalman filter (LETKF) is a methodology that can satisfy both requirements in an efficient manner. The Weather Research and Forecasting (WRF) Model coupled with the LETKF, developed at the University of Maryland, College Park, have been implemented experimentally at the NWS of Argentina [Servicio Meteorológico Nacional (SMN)], but at a somewhat lower resolution (40 km) than the operational Global Forecast System (GFS) at that time (27 km). The purpose of this work is not to show that the system presented herein is better than the higher-resolution GFS, but that its performance is reasonably comparable, and to provide the basis for a continued improved development of an independent regional data assimilation and forecasting system. The WRF-LETKF system is tested during the spring of 2012, using the prepared or quality controlled data in Binary Universal Form for Representation of Meteorological Data (PREPBUFR) observations from the National Centers for Environmental Prediction (NCEP) and lateral boundary conditions from the GFS. To assess the effect of model error, a single-model LETKF system (LETKF-single) is compared with a multischeme implementation (LETKF-multi), which uses different boundary layer and cumulus convection schemes for the generation of the ensemble of forecasts. The performance of both experiments during the test period shows that the LETKF-multi usually outperforms the LETKF-single, evidencing the advantages of the use of the multischeme approach. Both data assimilation systems are slightly worse than the GFS in terms of the synoptic environment representation, as could be expected given their lower resolution. Results from a case study of a strong convective system suggest that the LETKF-multi improves the location of the most intense area of precipitation with respect to the LETKF-single, although both systems show an underestimation of the total accumulated precipitation. These preliminary results encourage continuing the development of an operational data assimilation system based on WRF-LETKF at the SMN. © 2016 American Meteorological Society.
format JOUR
author Dillon, M.E.
Skabar, Y.G.
Ruiz, J.
Kalnay, E.
Collini, E.A.
Echevarría, P.
Saucedo, M.
Miyoshi, T.
Kunii, M.
author_facet Dillon, M.E.
Skabar, Y.G.
Ruiz, J.
Kalnay, E.
Collini, E.A.
Echevarría, P.
Saucedo, M.
Miyoshi, T.
Kunii, M.
author_sort Dillon, M.E.
title Application of the WRF-LETKF data assimilation system over southern South America: Sensitivity to model physics
title_short Application of the WRF-LETKF data assimilation system over southern South America: Sensitivity to model physics
title_full Application of the WRF-LETKF data assimilation system over southern South America: Sensitivity to model physics
title_fullStr Application of the WRF-LETKF data assimilation system over southern South America: Sensitivity to model physics
title_full_unstemmed Application of the WRF-LETKF data assimilation system over southern South America: Sensitivity to model physics
title_sort application of the wrf-letkf data assimilation system over southern south america: sensitivity to model physics
url http://hdl.handle.net/20.500.12110/paper_08828156_v31_n1_p217_Dillon
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