Assessing the Transferability of the Regional Climate Model REMO to Different COordinated Regional Climate Downscaling EXperiment (CORDEX) Regions

The transferability of the regional climate model REMO with a standard setup over different regions of the world has been evaluated. The study is based on the idea that the modeling parameters and parameterizations in a regional climate model should be robust to adequately simulate the major climati...

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Published in:Atmosphere
Main Author: Daniela Jacob; Alberto Elizalde; Andreas Haensler; Stefan Hagemann; Pankaj Kumar; Ralf Podzun; Diana Rechid; Armelle Reca Remedio; Fahad Saeed; Kevin Sieck; Claas Teichmann; Christof Wilhelm
Format: Text
Language:English
Published: Molecular Diversity Preservation International 2012
Subjects:
regional climate simulations
REMO
CORDEX
Köppen-Trewartha climate classification
probability density function skill score
Tundra
Online Access:https://doi.org/10.3390/atmos3010181
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spelling ftmdpi:oai:mdpi.com:/2073-4433/3/1/181/ 2023-05-15T18:40:48+02:00 Assessing the Transferability of the Regional Climate Model REMO to Different COordinated Regional Climate Downscaling EXperiment (CORDEX) Regions Daniela Jacob; Alberto Elizalde; Andreas Haensler; Stefan Hagemann; Pankaj Kumar; Ralf Podzun; Diana Rechid; Armelle Reca Remedio; Fahad Saeed; Kevin Sieck; Claas Teichmann; Christof Wilhelm agris 2012-02-21 application/pdf https://doi.org/10.3390/atmos3010181 EN eng Molecular Diversity Preservation International https://dx.doi.org/10.3390/atmos3010181 https://creativecommons.org/licenses/by/3.0/ CC-BY Atmosphere; Volume 3; Issue 1; Pages: 181-199 regional climate simulations REMO CORDEX Köppen-Trewartha climate classification probability density function skill score Text 2012 ftmdpi https://doi.org/10.3390/atmos3010181 2022-04-03T23:38:59Z The transferability of the regional climate model REMO with a standard setup over different regions of the world has been evaluated. The study is based on the idea that the modeling parameters and parameterizations in a regional climate model should be robust to adequately simulate the major climatic characteristic of different regions around the globe. If a model is not able to do that, there might be a chance of an “overtuning” to the “home-region”, which means that the model physics are tuned in a way that it might cover some more fundamental errors, e.g., in the dynamics. All simulations carried out in this study contribute to the joint effort by the international regional downscaling community called COordinated Regional climate Downscaling EXperiment (CORDEX). REMO has been integrated over six CORDEX domains forced with the so-called perfect boundary conditions obtained from the global reanalysis dataset ERA-Interim for the period 1989 to 2008. These six domains include Africa, Europe, North America, South America, West Asia and the Mediterranean region. Each of the six simulations was conducted with the identical model setup which allows investigating the transferability of a single model to regions with substantially different climate characteristics. For the consistent evaluation over the different domains, a new evaluation framework is presented by combining the Köppen-Trewartha climate classification with temperature-precipitation relationship plots and a probability density function (PDF) skill score method. The evaluation of the spatial and temporal characteristics of simulated precipitation and temperature, in comparison to observational datasets, shows that REMO is able to simulate the mean annual climatic features over all the domains quite reasonably, but still some biases remain. The regions over the Amazon and near the coast of major upwelling regions have a significant warm bias. Wet and dry biases appear over the mountainous regions and East Africa, respectively. The temperature over South America and precipitation over the tundra and highland climate of West Asia are misrepresented. The probable causes leading to these biases are discussed and ideas for improvements are suggested. The annual cycle of precipitation and temperature of major catchments in each domain are also well represented by REMO. The model has performed well in simulating the inter- and intra-seasonal characteristics of different climate types in different regions. Moreover, the model has a high ability in representing the general characteristics of different climate types as measured by the probability density function (PDF) skill score method. Although REMO seems to perform best over its home domain in Europe (domain of development and testing), the model has simulated quite well the climate characteristics of other regions with the same set of parameterization options. Therefore, these results lead us to the conclusion that REMO is well suited for long-term climate change simulations to examine projected future changes in all these regions. Text Tundra MDPI Open Access Publishing Atmosphere 3 1 181 199
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic regional climate simulations
REMO
CORDEX
Köppen-Trewartha climate classification
probability density function skill score
spellingShingle regional climate simulations
REMO
CORDEX
Köppen-Trewartha climate classification
probability density function skill score
Daniela Jacob; Alberto Elizalde; Andreas Haensler; Stefan Hagemann; Pankaj Kumar; Ralf Podzun; Diana Rechid; Armelle Reca Remedio; Fahad Saeed; Kevin Sieck; Claas Teichmann; Christof Wilhelm
Assessing the Transferability of the Regional Climate Model REMO to Different COordinated Regional Climate Downscaling EXperiment (CORDEX) Regions
topic_facet regional climate simulations
REMO
CORDEX
Köppen-Trewartha climate classification
probability density function skill score
description The transferability of the regional climate model REMO with a standard setup over different regions of the world has been evaluated. The study is based on the idea that the modeling parameters and parameterizations in a regional climate model should be robust to adequately simulate the major climatic characteristic of different regions around the globe. If a model is not able to do that, there might be a chance of an “overtuning” to the “home-region”, which means that the model physics are tuned in a way that it might cover some more fundamental errors, e.g., in the dynamics. All simulations carried out in this study contribute to the joint effort by the international regional downscaling community called COordinated Regional climate Downscaling EXperiment (CORDEX). REMO has been integrated over six CORDEX domains forced with the so-called perfect boundary conditions obtained from the global reanalysis dataset ERA-Interim for the period 1989 to 2008. These six domains include Africa, Europe, North America, South America, West Asia and the Mediterranean region. Each of the six simulations was conducted with the identical model setup which allows investigating the transferability of a single model to regions with substantially different climate characteristics. For the consistent evaluation over the different domains, a new evaluation framework is presented by combining the Köppen-Trewartha climate classification with temperature-precipitation relationship plots and a probability density function (PDF) skill score method. The evaluation of the spatial and temporal characteristics of simulated precipitation and temperature, in comparison to observational datasets, shows that REMO is able to simulate the mean annual climatic features over all the domains quite reasonably, but still some biases remain. The regions over the Amazon and near the coast of major upwelling regions have a significant warm bias. Wet and dry biases appear over the mountainous regions and East Africa, respectively. The temperature over South America and precipitation over the tundra and highland climate of West Asia are misrepresented. The probable causes leading to these biases are discussed and ideas for improvements are suggested. The annual cycle of precipitation and temperature of major catchments in each domain are also well represented by REMO. The model has performed well in simulating the inter- and intra-seasonal characteristics of different climate types in different regions. Moreover, the model has a high ability in representing the general characteristics of different climate types as measured by the probability density function (PDF) skill score method. Although REMO seems to perform best over its home domain in Europe (domain of development and testing), the model has simulated quite well the climate characteristics of other regions with the same set of parameterization options. Therefore, these results lead us to the conclusion that REMO is well suited for long-term climate change simulations to examine projected future changes in all these regions.
format Text
author Daniela Jacob; Alberto Elizalde; Andreas Haensler; Stefan Hagemann; Pankaj Kumar; Ralf Podzun; Diana Rechid; Armelle Reca Remedio; Fahad Saeed; Kevin Sieck; Claas Teichmann; Christof Wilhelm
author_facet Daniela Jacob; Alberto Elizalde; Andreas Haensler; Stefan Hagemann; Pankaj Kumar; Ralf Podzun; Diana Rechid; Armelle Reca Remedio; Fahad Saeed; Kevin Sieck; Claas Teichmann; Christof Wilhelm
author_sort Daniela Jacob; Alberto Elizalde; Andreas Haensler; Stefan Hagemann; Pankaj Kumar; Ralf Podzun; Diana Rechid; Armelle Reca Remedio; Fahad Saeed; Kevin Sieck; Claas Teichmann; Christof Wilhelm
title Assessing the Transferability of the Regional Climate Model REMO to Different COordinated Regional Climate Downscaling EXperiment (CORDEX) Regions
title_short Assessing the Transferability of the Regional Climate Model REMO to Different COordinated Regional Climate Downscaling EXperiment (CORDEX) Regions
title_full Assessing the Transferability of the Regional Climate Model REMO to Different COordinated Regional Climate Downscaling EXperiment (CORDEX) Regions
title_fullStr Assessing the Transferability of the Regional Climate Model REMO to Different COordinated Regional Climate Downscaling EXperiment (CORDEX) Regions
title_full_unstemmed Assessing the Transferability of the Regional Climate Model REMO to Different COordinated Regional Climate Downscaling EXperiment (CORDEX) Regions
title_sort assessing the transferability of the regional climate model remo to different coordinated regional climate downscaling experiment (cordex) regions
publisher Molecular Diversity Preservation International
publishDate 2012
url https://doi.org/10.3390/atmos3010181
op_coverage agris
genre Tundra
genre_facet Tundra
op_source Atmosphere; Volume 3; Issue 1; Pages: 181-199
op_relation https://dx.doi.org/10.3390/atmos3010181
op_rights https://creativecommons.org/licenses/by/3.0/
op_rightsnorm CC-BY
op_doi https://doi.org/10.3390/atmos3010181
container_title Atmosphere
container_volume 3
container_issue 1
container_start_page 181
op_container_end_page 199
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