Julien Desplat scite author profile

The evolution of the Parisian urban climate under a changing climate is analyzed from long-term offline numerical integrations including a specific urban parameterization. This system is forced by meteorological conditions based on presentclimate reanalyses , and climate projections provided by global climate model simulations following two emission scenarios (A1B and A2). This study aims at quantifying the impact of climate change on air temperature within the city and in the surroundings. A systematic increase of 2-meter air temperature is found. In average according to the two scenarios, it reaches +2.0/2.4 • C in winter and +3.5/5.0 • C in summer for the minimum and maximum daily temperatures, respectively. During summer, the warming trend is more pronounced in the surrounding countryside than in Paris and suburbs due to the soil dryness. As a result, a substantial decrease of the strong urban heat islands is noted at nighttime, and numerous events with negative urban heat islands appear at daytime. Finally, a 30% decrease of the heating degree days is quantified in winter between present and future climates. Inversely, the summertime cooling degree days significantly increase in future climate whereas they are negligible in present climate. However, in terms of accumulated degree days, the increase of the demand in cooling remains smaller than the decrease of the demand in heating.

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Air quality in Europe during the summer of 2003 as a prototype of air quality in a warmer climate

Vautard

Beekmann

Desplat

et al. 2007

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The extremely warm summer of 2003, with its August heat wave, is taken as a prototype of future summer weather in Europe. The stagnant circulation led to accumulation of heat and pollutants, increased forest fires, and induced high ozone and particulate matter levels. After a description of the meteorological conditions encountered, we review here the effects of the heat-wave meteorology on photochemistry, wild fires, and particulate matter, at the continental and urban scales. We discuss the extent to which this special summer can be taken for projecting air quality in a future warmer climate, especially in the perspective of changes in regional and global emissions. For ozone, the effect of regional reduction of emissions will dominate over summer climate change, but the increase in baseline ozone should significantly raise the mean ozone levels.

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How to estimate exposure when studying the temperature-mortality relationship? A case study of the Paris area

et al. 2015

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Time series studies assessing the effect of temperature on mortality generally use temperatures measured by a single weather station. In the Paris region, there is a substantial measurement network, and a variety of exposure indicators created from multiple stations can be tested. The aim of this study is to test the influence of exposure indicators on the temperature-mortality relationship in the Paris region. The relationship between temperature and non-accidental mortality was assessed based on a time series analysis using Poisson regression and a generalised additive model. Twenty-five stations in Paris and its three neighbouring departments were used to create four exposure indicators. These indicators were (1) the temperature recorded by one reference station, (2) a simple average of the temperatures of all stations, (3) an average weighted on the departmental population and (4) a classification of the stations based on land use and an average weighted on the population in each class. The relative risks and the Akaike criteria were similar for all the exposure indicators. The estimated temperature-mortality relationship therefore did not appear to be significantly affected by the indicator used, regardless of study zone (departments or region) or age group. The increase in temperatures from the 90(th) to the 99(th) percentile of the temperature distribution led to a significant increase in mortality over 75 years (RR = 1.10 [95% CI, 1.07; 1.14]). Conversely, the decrease in temperature between the 10(th) and 1(st) percentile had a significant effect on the mortality under 75 years (RR = 1.04 [95% CI, 1.01; 1.06]). In the Paris area, there is no added value in taking multiple climatic stations into account when estimating exposure in time series studies. Methods to better represent the subtle temperature variations in densely populated areas in epidemiological studies are needed.

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Epicea : étude des impacts du changement climatique à Paris

Kounkou-Arnaud¹,

Desplat²,

Lemonsu³

et al. 2014

Météorologie

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L'objectif du projet Epicea était double : évaluer la vulnérabilité de Paris à l'évolution du climat et étudier l'influence de l'aménagement urbain sur le climat à l'échelle locale. L'emploi d'une méthodologie novatrice a permis d'affiner les projections climatiques à l'échelle de l'agglomération, concluant à une forte augmentation du nombre de canicules dans l'agglomération parisienne à la fin du XXI e siècle. Des simulations à haute résolution de la canicule de 2003 ont ensuite permis d'identifier les zones les plus vulnérables aux particularités du climat urbain. Enfin, des modifications du climat urbain liées à quelques scénarios d'aménagement élaborés avec la Ville de Paris ont été modélisées.

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Quantification and mapping of the impact of the recent air pollution abatement on limestone and window glass in Paris

et al. 2016

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Julien Desplat

Evolution of the Parisian urban climate under a global changing climate

Air quality in Europe during the summer of 2003 as a prototype of air quality in a warmer climate

How to estimate exposure when studying the temperature-mortality relationship? A case study of the Paris area

Epicea : étude des impacts du changement climatique à Paris

Quantification and mapping of the impact of the recent air pollution abatement on limestone and window glass in Paris

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