Importance of resolution and model configuration when downscaling extreme precipitation
Dynamical downscaling is frequently used to investigate the dynamical variables of extra-tropical cyclones, for example, precipitation, using very high-resolution models nested within coarser resolution models to understand the processes that lead to intense precipitation. It is also used in climate...
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doaj-2b4a87d0598b449aace78fc3542fd0f02020-11-25T00:43:12ZengTaylor & Francis GroupTellus: Series A, Dynamic Meteorology and Oceanography1600-08702014-07-0166011610.3402/tellusa.v66.2399323993Importance of resolution and model configuration when downscaling extreme precipitationAdrian J. Champion0Kevin Hodges1National Centre for Earth Observation, University of Reading, Reading, UKNational Centre for Earth Observation, University of Reading, Reading, UKDynamical downscaling is frequently used to investigate the dynamical variables of extra-tropical cyclones, for example, precipitation, using very high-resolution models nested within coarser resolution models to understand the processes that lead to intense precipitation. It is also used in climate change studies, using long timeseries to investigate trends in precipitation, or to look at the small-scale dynamical processes for specific case studies. This study investigates some of the problems associated with dynamical downscaling and looks at the optimum configuration to obtain the distribution and intensity of a precipitation field to match observations. This study uses the Met Office Unified Model run in limited area mode with grid spacings of 12, 4 and 1.5 km, driven by boundary conditions provided by the ECMWF Operational Analysis to produce high-resolution simulations for the Summer of 2007 UK flooding events. The numerical weather prediction model is initiated at varying times before the peak precipitation is observed to test the importance of the initialisation and boundary conditions, and how long the simulation can be run for. The results are compared to raingauge data as verification and show that the model intensities are most similar to observations when the model is initialised 12 hours before the peak precipitation is observed. It was also shown that using non-gridded datasets makes verification more difficult, with the density of observations also affecting the intensities observed. It is concluded that the simulations are able to produce realistic precipitation intensities when driven by the coarser resolution data.http://www.tellusa.net/index.php/tellusa/article/download/23993/pdf_1dyanmical downscalingmodel configurationhorizontal resolutionprecipitationextreme precipitation |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Adrian J. Champion Kevin Hodges |
spellingShingle |
Adrian J. Champion Kevin Hodges Importance of resolution and model configuration when downscaling extreme precipitation Tellus: Series A, Dynamic Meteorology and Oceanography dyanmical downscaling model configuration horizontal resolution precipitation extreme precipitation |
author_facet |
Adrian J. Champion Kevin Hodges |
author_sort |
Adrian J. Champion |
title |
Importance of resolution and model configuration when downscaling extreme precipitation |
title_short |
Importance of resolution and model configuration when downscaling extreme precipitation |
title_full |
Importance of resolution and model configuration when downscaling extreme precipitation |
title_fullStr |
Importance of resolution and model configuration when downscaling extreme precipitation |
title_full_unstemmed |
Importance of resolution and model configuration when downscaling extreme precipitation |
title_sort |
importance of resolution and model configuration when downscaling extreme precipitation |
publisher |
Taylor & Francis Group |
series |
Tellus: Series A, Dynamic Meteorology and Oceanography |
issn |
1600-0870 |
publishDate |
2014-07-01 |
description |
Dynamical downscaling is frequently used to investigate the dynamical variables of extra-tropical cyclones, for example, precipitation, using very high-resolution models nested within coarser resolution models to understand the processes that lead to intense precipitation. It is also used in climate change studies, using long timeseries to investigate trends in precipitation, or to look at the small-scale dynamical processes for specific case studies. This study investigates some of the problems associated with dynamical downscaling and looks at the optimum configuration to obtain the distribution and intensity of a precipitation field to match observations. This study uses the Met Office Unified Model run in limited area mode with grid spacings of 12, 4 and 1.5 km, driven by boundary conditions provided by the ECMWF Operational Analysis to produce high-resolution simulations for the Summer of 2007 UK flooding events. The numerical weather prediction model is initiated at varying times before the peak precipitation is observed to test the importance of the initialisation and boundary conditions, and how long the simulation can be run for. The results are compared to raingauge data as verification and show that the model intensities are most similar to observations when the model is initialised 12 hours before the peak precipitation is observed. It was also shown that using non-gridded datasets makes verification more difficult, with the density of observations also affecting the intensities observed. It is concluded that the simulations are able to produce realistic precipitation intensities when driven by the coarser resolution data. |
topic |
dyanmical downscaling model configuration horizontal resolution precipitation extreme precipitation |
url |
http://www.tellusa.net/index.php/tellusa/article/download/23993/pdf_1 |
work_keys_str_mv |
AT adrianjchampion importanceofresolutionandmodelconfigurationwhendownscalingextremeprecipitation AT kevinhodges importanceofresolutionandmodelconfigurationwhendownscalingextremeprecipitation |
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1725279943557906432 |