European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenarios

European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenarios

To quantify changes in air pollution over Europe at the 2050 horizon, we designed a comprehensive modelling system that captures the external factors considered to be most relevant, and that relies on up-to-date and consistent sets of air pollution and climate policy scenarios. Global and regional c...

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Main Authors: A. Colette, B. Bessagnet, R. Vautard, S. Szopa, S. Rao, S. Schucht, Z. Klimont, L. Menut, G. Clain, F. Meleux, G. Curci, L. Rouïl
Format: Article
Language:English
Published: Copernicus Publications 2013-08-01
Series:Atmospheric Chemistry and Physics
Online Access:http://www.atmos-chem-phys.net/13/7451/2013/acp-13-7451-2013.pdf
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spelling doaj-fd67089062b748e6aef4e3539f07ec6f2020-11-25T00:07:09ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242013-08-0113157451747110.5194/acp-13-7451-2013European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenariosA. ColetteB. BessagnetR. VautardS. SzopaS. RaoS. SchuchtZ. KlimontL. MenutG. ClainF. MeleuxG. CurciL. RouïlTo quantify changes in air pollution over Europe at the 2050 horizon, we designed a comprehensive modelling system that captures the external factors considered to be most relevant, and that relies on up-to-date and consistent sets of air pollution and climate policy scenarios. Global and regional climate as well as global chemistry simulations are based on the recent representative concentration pathways (RCP) produced for the Fifth Assessment Report (AR5) of the IPCC (Intergovernmental Panel on Climate Change) whereas regional air quality modelling is based on the updated emissions scenarios produced in the framework of the Global Energy Assessment. We explored two diverse scenarios: a reference scenario where climate policies are absent and a mitigation scenario which limits global temperature rise to within 2 °C by the end of this century. <br><br> This first assessment of projected air quality and climate at the regional scale based on CMIP5 (5th Coupled Model Intercomparison Project) climate simulations is in line with the existing literature using CMIP3. The discrepancy between air quality simulations obtained with a climate model or with meteorological reanalyses is pointed out. Sensitivity simulations show that the main factor driving future air quality projections is air pollutant emissions, rather than climate change or intercontinental transport of pollution. Whereas the well documented "climate penalty" that weights upon ozone (increase of ozone pollution with global warming) over Europe is confirmed, other features appear less robust compared to the literature, such as the impact of climate on PM<sub>2.5</sub>. The quantitative disentangling of external factors shows that, while several published studies focused on the climate penalty bearing upon ozone, the contribution of the global ozone burden is somewhat overlooked in the literature.http://www.atmos-chem-phys.net/13/7451/2013/acp-13-7451-2013.pdf
collection DOAJ
language English
format Article
sources DOAJ
author A. Colette
B. Bessagnet
R. Vautard
S. Szopa
S. Rao
S. Schucht
Z. Klimont
L. Menut
G. Clain
F. Meleux
G. Curci
L. Rouïl
spellingShingle A. Colette
B. Bessagnet
R. Vautard
S. Szopa
S. Rao
S. Schucht
Z. Klimont
L. Menut
G. Clain
F. Meleux
G. Curci
L. Rouïl
European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenarios
Atmospheric Chemistry and Physics
author_facet A. Colette
B. Bessagnet
R. Vautard
S. Szopa
S. Rao
S. Schucht
Z. Klimont
L. Menut
G. Clain
F. Meleux
G. Curci
L. Rouïl
author_sort A. Colette
title European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenarios
title_short European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenarios
title_full European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenarios
title_fullStr European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenarios
title_full_unstemmed European atmosphere in 2050, a regional air quality and climate perspective under CMIP5 scenarios
title_sort european atmosphere in 2050, a regional air quality and climate perspective under cmip5 scenarios
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2013-08-01
description To quantify changes in air pollution over Europe at the 2050 horizon, we designed a comprehensive modelling system that captures the external factors considered to be most relevant, and that relies on up-to-date and consistent sets of air pollution and climate policy scenarios. Global and regional climate as well as global chemistry simulations are based on the recent representative concentration pathways (RCP) produced for the Fifth Assessment Report (AR5) of the IPCC (Intergovernmental Panel on Climate Change) whereas regional air quality modelling is based on the updated emissions scenarios produced in the framework of the Global Energy Assessment. We explored two diverse scenarios: a reference scenario where climate policies are absent and a mitigation scenario which limits global temperature rise to within 2 °C by the end of this century. <br><br> This first assessment of projected air quality and climate at the regional scale based on CMIP5 (5th Coupled Model Intercomparison Project) climate simulations is in line with the existing literature using CMIP3. The discrepancy between air quality simulations obtained with a climate model or with meteorological reanalyses is pointed out. Sensitivity simulations show that the main factor driving future air quality projections is air pollutant emissions, rather than climate change or intercontinental transport of pollution. Whereas the well documented "climate penalty" that weights upon ozone (increase of ozone pollution with global warming) over Europe is confirmed, other features appear less robust compared to the literature, such as the impact of climate on PM<sub>2.5</sub>. The quantitative disentangling of external factors shows that, while several published studies focused on the climate penalty bearing upon ozone, the contribution of the global ozone burden is somewhat overlooked in the literature.
url http://www.atmos-chem-phys.net/13/7451/2013/acp-13-7451-2013.pdf
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