Present and LGM permafrost from climate simulations: contribution of statistical downscaling
We quantify the agreement between permafrost distributions from PMIP2 (Paleoclimate Modeling Intercomparison Project) climate models and permafrost data. We evaluate the ability of several climate models to represent permafrost and assess the variability between their results. Studying a heterogeneo...
| Published in: | Climate of the Past |
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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Copernicus Publications
2018
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| Online Access: | https://doi.org/10.5194/cp-7-1225-2011 https://cp.copernicus.org/articles/7/1225/2011/ |
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fttriple:oai:gotriple.eu:jbf8Rzz2vi1YzZizpac1t 2023-05-15T17:55:21+02:00 Present and LGM permafrost from climate simulations: contribution of statistical downscaling Levavasseur, G. Vrac, M. Roche, D. M. Paillard, D. Martin, A. Vandenberghe, J. 2018-09-27 https://doi.org/10.5194/cp-7-1225-2011 https://cp.copernicus.org/articles/7/1225/2011/ en eng Copernicus Publications doi:10.5194/cp-7-1225-2011 10670/1.e5ivhz 1814-9324 1814-9332 https://cp.copernicus.org/articles/7/1225/2011/ undefined Geographica Helvetica - geography eISSN: 1814-9332 geo envir Text https://vocabularies.coar-repositories.org/resource_types/c_18cf/ Journal Article https://vocabularies.coar-repositories.org/resource_types/c_6501/ 2018 fttriple https://doi.org/10.5194/cp-7-1225-2011 2023-01-22T17:34:29Z We quantify the agreement between permafrost distributions from PMIP2 (Paleoclimate Modeling Intercomparison Project) climate models and permafrost data. We evaluate the ability of several climate models to represent permafrost and assess the variability between their results. Studying a heterogeneous variable such as permafrost implies conducting analysis at a smaller spatial scale compared with climate models resolution. Our approach consists of applying statistical downscaling methods (SDMs) on large- or regional-scale atmospheric variables provided by climate models, leading to local-scale permafrost modelling. Among the SDMs, we first choose a transfer function approach based on Generalized Additive Models (GAMs) to produce high-resolution climatology of air temperature at the surface. Then we define permafrost distribution over Eurasia by air temperature conditions. In a first validation step on present climate (CTRL period), this method shows some limitations with non-systematic improvements in comparison with the large-scale fields. So, we develop an alternative method of statistical downscaling based on a Multinomial Logistic GAM (ML-GAM), which directly predicts the occurrence probabilities of local-scale permafrost. The obtained permafrost distributions appear in a better agreement with CTRL data. In average for the nine PMIP2 models, we measure a global agreement with CTRL permafrost data that is better when using ML-GAM than when applying the GAM method with air temperature conditions. In both cases, the provided local information reduces the variability between climate models results. This also confirms that a simple relationship between permafrost and the air temperature only is not always sufficient to represent local-scale permafrost. Finally, we apply each method on a very different climate, the Last Glacial Maximum (LGM) time period, in order to quantify the ability of climate models to represent LGM permafrost. The prediction of the SDMs (GAM and ML-GAM) is not significantly in better ... Article in Journal/Newspaper permafrost Unknown Gam ENVELOPE(-57.955,-57.955,-61.923,-61.923) Climate of the Past 7 4 1225 1246 |
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geo envir Levavasseur, G. Vrac, M. Roche, D. M. Paillard, D. Martin, A. Vandenberghe, J. Present and LGM permafrost from climate simulations: contribution of statistical downscaling |
| topic_facet |
geo envir |
| description |
We quantify the agreement between permafrost distributions from PMIP2 (Paleoclimate Modeling Intercomparison Project) climate models and permafrost data. We evaluate the ability of several climate models to represent permafrost and assess the variability between their results. Studying a heterogeneous variable such as permafrost implies conducting analysis at a smaller spatial scale compared with climate models resolution. Our approach consists of applying statistical downscaling methods (SDMs) on large- or regional-scale atmospheric variables provided by climate models, leading to local-scale permafrost modelling. Among the SDMs, we first choose a transfer function approach based on Generalized Additive Models (GAMs) to produce high-resolution climatology of air temperature at the surface. Then we define permafrost distribution over Eurasia by air temperature conditions. In a first validation step on present climate (CTRL period), this method shows some limitations with non-systematic improvements in comparison with the large-scale fields. So, we develop an alternative method of statistical downscaling based on a Multinomial Logistic GAM (ML-GAM), which directly predicts the occurrence probabilities of local-scale permafrost. The obtained permafrost distributions appear in a better agreement with CTRL data. In average for the nine PMIP2 models, we measure a global agreement with CTRL permafrost data that is better when using ML-GAM than when applying the GAM method with air temperature conditions. In both cases, the provided local information reduces the variability between climate models results. This also confirms that a simple relationship between permafrost and the air temperature only is not always sufficient to represent local-scale permafrost. Finally, we apply each method on a very different climate, the Last Glacial Maximum (LGM) time period, in order to quantify the ability of climate models to represent LGM permafrost. The prediction of the SDMs (GAM and ML-GAM) is not significantly in better ... |
| format |
Article in Journal/Newspaper |
| author |
Levavasseur, G. Vrac, M. Roche, D. M. Paillard, D. Martin, A. Vandenberghe, J. |
| author_facet |
Levavasseur, G. Vrac, M. Roche, D. M. Paillard, D. Martin, A. Vandenberghe, J. |
| author_sort |
Levavasseur, G. |
| title |
Present and LGM permafrost from climate simulations: contribution of statistical downscaling |
| title_short |
Present and LGM permafrost from climate simulations: contribution of statistical downscaling |
| title_full |
Present and LGM permafrost from climate simulations: contribution of statistical downscaling |
| title_fullStr |
Present and LGM permafrost from climate simulations: contribution of statistical downscaling |
| title_full_unstemmed |
Present and LGM permafrost from climate simulations: contribution of statistical downscaling |
| title_sort |
present and lgm permafrost from climate simulations: contribution of statistical downscaling |
| publisher |
Copernicus Publications |
| publishDate |
2018 |
| url |
https://doi.org/10.5194/cp-7-1225-2011 https://cp.copernicus.org/articles/7/1225/2011/ |
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ENVELOPE(-57.955,-57.955,-61.923,-61.923) |
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Gam |
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Gam |
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permafrost |
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permafrost |
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Geographica Helvetica - geography eISSN: 1814-9332 |
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doi:10.5194/cp-7-1225-2011 10670/1.e5ivhz 1814-9324 1814-9332 https://cp.copernicus.org/articles/7/1225/2011/ |
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Climate of the Past |
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7 |
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4 |
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1225 |
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1246 |
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