Characterization of Spread in a Mesoscale Ensemble Prediction System: Multiphysics versus Initial Conditions
In this research, uncertainty associated with initial and boundary conditions is evaluated for short-term wind speed prediction in complex terrain. The study area is the Alaiz mountain range, a windy region in the northern Iberian Peninsula. A multiphysics and multiple initial and boundary condition...
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| Language: | English |
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Borntraeger
2019-03-01
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| Series: | Meteorologische Zeitschrift |
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| Online Access: | http://dx.doi.org/10.1127/metz/2018/0918 |
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doaj-3c8b3782454d408791daa9d98c6839402020-11-24T21:39:09ZengBorntraegerMeteorologische Zeitschrift0941-29482019-03-01281596710.1127/metz/2018/091890146Characterization of Spread in a Mesoscale Ensemble Prediction System: Multiphysics versus Initial ConditionsSergio Fernández-GonzálezMariano SastreFrancisco ValeroAndrés MerinoEduardo García-OrtegaJosé Luis SánchezJesús LorenzanaMaría Luisa MartínIn this research, uncertainty associated with initial and boundary conditions is evaluated for short-term wind speed prediction in complex terrain. The study area is the Alaiz mountain range, a windy region in the northern Iberian Peninsula. A multiphysics and multiple initial and boundary condition ensemble prediction system (EPS) was generated using the Weather Research and Forecasting model. Uncertainty of the EPS is analyzed using an index based on the spread between ensemble members, considering its behavior under different wind speed and direction events, and also during distinct atmospheric stability conditions. The results corroborate that physical parameterization uncertainty is greater for short-term forecasts (63.5 %). However, it is also necessary to consider the uncertainty associated with initial conditions, not only for its quantitative importance (36.5 %) but also for its behavior during thermal inversion conditions in the narrow valleys surrounded by mountains.http://dx.doi.org/10.1127/metz/2018/0918windphysical parameterizationsinitial conditionsuncertainty |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Sergio Fernández-González Mariano Sastre Francisco Valero Andrés Merino Eduardo García-Ortega José Luis Sánchez Jesús Lorenzana María Luisa Martín |
| spellingShingle |
Sergio Fernández-González Mariano Sastre Francisco Valero Andrés Merino Eduardo García-Ortega José Luis Sánchez Jesús Lorenzana María Luisa Martín Characterization of Spread in a Mesoscale Ensemble Prediction System: Multiphysics versus Initial Conditions Meteorologische Zeitschrift wind physical parameterizations initial conditions uncertainty |
| author_facet |
Sergio Fernández-González Mariano Sastre Francisco Valero Andrés Merino Eduardo García-Ortega José Luis Sánchez Jesús Lorenzana María Luisa Martín |
| author_sort |
Sergio Fernández-González |
| title |
Characterization of Spread in a Mesoscale Ensemble Prediction System: Multiphysics versus Initial Conditions |
| title_short |
Characterization of Spread in a Mesoscale Ensemble Prediction System: Multiphysics versus Initial Conditions |
| title_full |
Characterization of Spread in a Mesoscale Ensemble Prediction System: Multiphysics versus Initial Conditions |
| title_fullStr |
Characterization of Spread in a Mesoscale Ensemble Prediction System: Multiphysics versus Initial Conditions |
| title_full_unstemmed |
Characterization of Spread in a Mesoscale Ensemble Prediction System: Multiphysics versus Initial Conditions |
| title_sort |
characterization of spread in a mesoscale ensemble prediction system: multiphysics versus initial conditions |
| publisher |
Borntraeger |
| series |
Meteorologische Zeitschrift |
| issn |
0941-2948 |
| publishDate |
2019-03-01 |
| description |
In this research, uncertainty associated with initial and boundary conditions is evaluated for short-term wind speed prediction in complex terrain. The study area is the Alaiz mountain range, a windy region in the northern Iberian Peninsula. A multiphysics and multiple initial and boundary condition ensemble prediction system (EPS) was generated using the Weather Research and Forecasting model. Uncertainty of the EPS is analyzed using an index based on the spread between ensemble members, considering its behavior under different wind speed and direction events, and also during distinct atmospheric stability conditions. The results corroborate that physical parameterization uncertainty is greater for short-term forecasts (63.5 %). However, it is also necessary to consider the uncertainty associated with initial conditions, not only for its quantitative importance (36.5 %) but also for its behavior during thermal inversion conditions in the narrow valleys surrounded by mountains. |
| topic |
wind physical parameterizations initial conditions uncertainty |
| url |
http://dx.doi.org/10.1127/metz/2018/0918 |
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