Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe

Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe

To fight against the first wave of coronavirus disease 2019 (COVID-19) in 2020, lockdown measures were implemented in most European countries. These lockdowns had well-documented effects on human mobility. We assessed the impact of the lockdown implementation and relaxation on air pollution by comparing daily particulate matter (PM), nitrogen dioxide (NO2) and ozone (O3) concentrations, as well as particle number size distributions (PNSDs) and particle light absorption coefficient in situ measurement data, with values that would have been expected if no COVID-19 epidemic had occurred at 28 sites across Europe for the period 17 February-31 May 2020. Expected PM, NO2 and O3 concentrations were calculated from the 2020 Copernicus Atmosphere Monitoring Service (CAMS) ensemble forecasts, combined with 2019 CAMS ensemble forecasts and measurement data. On average, lockdown implementations did not lead to a decrease in PM2.5 mass concentrations at urban sites, while relaxations resulted in a +26 ± 21 % rebound. The impacts of lockdown implementation and relaxation on NO2 concentrations were more consistent (-29 ± 17 and +31 ± 30 %, respectively). The implementation of the lockdown measures also induced statistically significant increases in O3 concentrations at half of all sites (+13 % on average). An enhanced oxidising capacity of the atmosphere could have boosted the production of secondary aerosol at those places. By comparison with 2017-2019 measurement data, a significant change in the relative contributions of wood and fossil fuel burning to the concentration of black carbon during the lockdown was detected at 7 out of 14 sites. The contribution of particles smaller than 70 nm to the total number of particles significantly also changed at most of the urban sites, with a mean decrease of -7 ± 5 % coinciding with the lockdown implementation. Our study shows that the response of PM2.5 and PM10 mass concentrations to lockdown measures was not systematic at various sites across Europe for multiple reasons, the relationship between road traffic intensity and particulate air pollution being more complex than expected.

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Main Authors: Putaud, Jean Philippe, Pisoni, Enrico, Mangold, Alexander, Hueglin, Christoph, Sciare, Jean, Pikridas, Michael, Savvides, Chrysanthos, Ondracek, Jakub, Mbengue, Saliou, Wiedensohler, Alfred, Weinhold, Kay, Merkel, Maik, Poulain, Laurent, Van Pinxteren, Dominik, Herrmann, Hartmut, Massling, Andreas, Nordstroem, Claus, Alastuey, Andrés, Reche, Cristina, Pérez, Noemí, Castillo, Sonia, Sorribas, Mar, Adame, Jose Antonio, Petaja, Tuukka, Lehtipalo, Katrianne, Niemi, Jarkko, Riffault, Véronique, De Brito, Joel F., Colette, Augustin, Favez, Olivier, Petit, Jean Eudes, Gros, Valérie, Gini, Maria I., Vratolis, Stergios, Eleftheriadis, Konstantinos, Diapouli, Evangelia, Denier Van Der Gon, Hugo, Yttri, Karl Espen, Aas, Wenche
Other Authors: European Commission
Format: artículo biblioteca
Language:English
Published: European Geosciences Union 2023-09-11
Subjects:COVID-19, Pollution, http://metadata.un.org/sdg/6, Ensure availability and sustainable management of water and sanitation for all,
Online Access:http://hdl.handle.net/10261/336799
http://dx.doi.org/10.13039/501100000780
https://api.elsevier.com/content/abstract/scopus_id/85172937221
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id dig-idaea-es-10261-336799
record_format koha
institution IDAEA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-idaea-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del IDAEA España
language English
topic COVID-19
Pollution
http://metadata.un.org/sdg/6
Ensure availability and sustainable management of water and sanitation for all
COVID-19
Pollution
http://metadata.un.org/sdg/6
Ensure availability and sustainable management of water and sanitation for all
spellingShingle COVID-19
Pollution
http://metadata.un.org/sdg/6
Ensure availability and sustainable management of water and sanitation for all
COVID-19
Pollution
http://metadata.un.org/sdg/6
Ensure availability and sustainable management of water and sanitation for all
Putaud, Jean Philippe
Pisoni, Enrico
Mangold, Alexander
Hueglin, Christoph
Sciare, Jean
Pikridas, Michael
Savvides, Chrysanthos
Ondracek, Jakub
Mbengue, Saliou
Wiedensohler, Alfred
Weinhold, Kay
Merkel, Maik
Poulain, Laurent
Van Pinxteren, Dominik
Herrmann, Hartmut
Massling, Andreas
Nordstroem, Claus
Alastuey, Andrés
Reche, Cristina
Pérez, Noemí
Castillo, Sonia
Sorribas, Mar
Adame, Jose Antonio
Petaja, Tuukka
Lehtipalo, Katrianne
Niemi, Jarkko
Riffault, Véronique
De Brito, Joel F.
Colette, Augustin
Favez, Olivier
Petit, Jean Eudes
Gros, Valérie
Gini, Maria I.
Vratolis, Stergios
Eleftheriadis, Konstantinos
Diapouli, Evangelia
Denier Van Der Gon, Hugo
Yttri, Karl Espen
Aas, Wenche
Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe
description To fight against the first wave of coronavirus disease 2019 (COVID-19) in 2020, lockdown measures were implemented in most European countries. These lockdowns had well-documented effects on human mobility. We assessed the impact of the lockdown implementation and relaxation on air pollution by comparing daily particulate matter (PM), nitrogen dioxide (NO2) and ozone (O3) concentrations, as well as particle number size distributions (PNSDs) and particle light absorption coefficient in situ measurement data, with values that would have been expected if no COVID-19 epidemic had occurred at 28 sites across Europe for the period 17 February-31 May 2020. Expected PM, NO2 and O3 concentrations were calculated from the 2020 Copernicus Atmosphere Monitoring Service (CAMS) ensemble forecasts, combined with 2019 CAMS ensemble forecasts and measurement data. On average, lockdown implementations did not lead to a decrease in PM2.5 mass concentrations at urban sites, while relaxations resulted in a +26 ± 21 % rebound. The impacts of lockdown implementation and relaxation on NO2 concentrations were more consistent (-29 ± 17 and +31 ± 30 %, respectively). The implementation of the lockdown measures also induced statistically significant increases in O3 concentrations at half of all sites (+13 % on average). An enhanced oxidising capacity of the atmosphere could have boosted the production of secondary aerosol at those places. By comparison with 2017-2019 measurement data, a significant change in the relative contributions of wood and fossil fuel burning to the concentration of black carbon during the lockdown was detected at 7 out of 14 sites. The contribution of particles smaller than 70 nm to the total number of particles significantly also changed at most of the urban sites, with a mean decrease of -7 ± 5 % coinciding with the lockdown implementation. Our study shows that the response of PM2.5 and PM10 mass concentrations to lockdown measures was not systematic at various sites across Europe for multiple reasons, the relationship between road traffic intensity and particulate air pollution being more complex than expected.
author2 European Commission
author_facet European Commission
Putaud, Jean Philippe
Pisoni, Enrico
Mangold, Alexander
Hueglin, Christoph
Sciare, Jean
Pikridas, Michael
Savvides, Chrysanthos
Ondracek, Jakub
Mbengue, Saliou
Wiedensohler, Alfred
Weinhold, Kay
Merkel, Maik
Poulain, Laurent
Van Pinxteren, Dominik
Herrmann, Hartmut
Massling, Andreas
Nordstroem, Claus
Alastuey, Andrés
Reche, Cristina
Pérez, Noemí
Castillo, Sonia
Sorribas, Mar
Adame, Jose Antonio
Petaja, Tuukka
Lehtipalo, Katrianne
Niemi, Jarkko
Riffault, Véronique
De Brito, Joel F.
Colette, Augustin
Favez, Olivier
Petit, Jean Eudes
Gros, Valérie
Gini, Maria I.
Vratolis, Stergios
Eleftheriadis, Konstantinos
Diapouli, Evangelia
Denier Van Der Gon, Hugo
Yttri, Karl Espen
Aas, Wenche
format artículo
topic_facet COVID-19
Pollution
http://metadata.un.org/sdg/6
Ensure availability and sustainable management of water and sanitation for all
author Putaud, Jean Philippe
Pisoni, Enrico
Mangold, Alexander
Hueglin, Christoph
Sciare, Jean
Pikridas, Michael
Savvides, Chrysanthos
Ondracek, Jakub
Mbengue, Saliou
Wiedensohler, Alfred
Weinhold, Kay
Merkel, Maik
Poulain, Laurent
Van Pinxteren, Dominik
Herrmann, Hartmut
Massling, Andreas
Nordstroem, Claus
Alastuey, Andrés
Reche, Cristina
Pérez, Noemí
Castillo, Sonia
Sorribas, Mar
Adame, Jose Antonio
Petaja, Tuukka
Lehtipalo, Katrianne
Niemi, Jarkko
Riffault, Véronique
De Brito, Joel F.
Colette, Augustin
Favez, Olivier
Petit, Jean Eudes
Gros, Valérie
Gini, Maria I.
Vratolis, Stergios
Eleftheriadis, Konstantinos
Diapouli, Evangelia
Denier Van Der Gon, Hugo
Yttri, Karl Espen
Aas, Wenche
author_sort Putaud, Jean Philippe
title Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe
title_short Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe
title_full Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe
title_fullStr Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe
title_full_unstemmed Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe
title_sort impact of 2020 covid-19 lockdowns on particulate air pollution across europe
publisher European Geosciences Union
publishDate 2023-09-11
url http://hdl.handle.net/10261/336799
http://dx.doi.org/10.13039/501100000780
https://api.elsevier.com/content/abstract/scopus_id/85172937221
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spelling dig-idaea-es-10261-3367992024-10-28T21:45:05Z Impact of 2020 COVID-19 lockdowns on particulate air pollution across Europe Putaud, Jean Philippe Pisoni, Enrico Mangold, Alexander Hueglin, Christoph Sciare, Jean Pikridas, Michael Savvides, Chrysanthos Ondracek, Jakub Mbengue, Saliou Wiedensohler, Alfred Weinhold, Kay Merkel, Maik Poulain, Laurent Van Pinxteren, Dominik Herrmann, Hartmut Massling, Andreas Nordstroem, Claus Alastuey, Andrés Reche, Cristina Pérez, Noemí Castillo, Sonia Sorribas, Mar Adame, Jose Antonio Petaja, Tuukka Lehtipalo, Katrianne Niemi, Jarkko Riffault, Véronique De Brito, Joel F. Colette, Augustin Favez, Olivier Petit, Jean Eudes Gros, Valérie Gini, Maria I. Vratolis, Stergios Eleftheriadis, Konstantinos Diapouli, Evangelia Denier Van Der Gon, Hugo Yttri, Karl Espen Aas, Wenche European Commission 0000-0002-9355-0807 0000-0002-6973-522X 0000-0002-8131-2369 0000-0001-7161-3873 0000-0001-8298-491X 0000-0002-9128-7881 0000-0001-7044-2101 0000-0002-5453-5495 0000-0003-2131-9021 0000-0002-1881-9044 0000-0002-1660-2706 0000-0001-5572-0871 0000-0002-4420-9442 0000-0002-0162-0098 0000-0003-1516-5927 0000-0003-2265-4905 0000-0002-8244-2018 0000-0001-9552-3688 0000-0001-9904-5716 0000-0002-2908-1970 Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72] COVID-19 Pollution http://metadata.un.org/sdg/6 Ensure availability and sustainable management of water and sanitation for all To fight against the first wave of coronavirus disease 2019 (COVID-19) in 2020, lockdown measures were implemented in most European countries. These lockdowns had well-documented effects on human mobility. We assessed the impact of the lockdown implementation and relaxation on air pollution by comparing daily particulate matter (PM), nitrogen dioxide (NO2) and ozone (O3) concentrations, as well as particle number size distributions (PNSDs) and particle light absorption coefficient in situ measurement data, with values that would have been expected if no COVID-19 epidemic had occurred at 28 sites across Europe for the period 17 February-31 May 2020. Expected PM, NO2 and O3 concentrations were calculated from the 2020 Copernicus Atmosphere Monitoring Service (CAMS) ensemble forecasts, combined with 2019 CAMS ensemble forecasts and measurement data. On average, lockdown implementations did not lead to a decrease in PM2.5 mass concentrations at urban sites, while relaxations resulted in a +26 ± 21 % rebound. The impacts of lockdown implementation and relaxation on NO2 concentrations were more consistent (-29 ± 17 and +31 ± 30 %, respectively). The implementation of the lockdown measures also induced statistically significant increases in O3 concentrations at half of all sites (+13 % on average). An enhanced oxidising capacity of the atmosphere could have boosted the production of secondary aerosol at those places. By comparison with 2017-2019 measurement data, a significant change in the relative contributions of wood and fossil fuel burning to the concentration of black carbon during the lockdown was detected at 7 out of 14 sites. The contribution of particles smaller than 70 nm to the total number of particles significantly also changed at most of the urban sites, with a mean decrease of -7 ± 5 % coinciding with the lockdown implementation. Our study shows that the response of PM2.5 and PM10 mass concentrations to lockdown measures was not systematic at various sites across Europe for multiple reasons, the relationship between road traffic intensity and particulate air pollution being more complex than expected. The research presented here relied on the data and products made available open access by the Copernicus Atmosphere Monitoring Service (CAMS) of the Copernicus programme of the European Union, in particular the CAMS policy service, https://policy.atmosphere.copernicus.eu/ (last access: 21 March 2022). PNSD and particle light absorption data were provided by the ACTRIS Data Centre developed under the European Union's Horizon 2020 research and innovation programme under grant no. 654109 (ACTRIS-2). Data quality assurance has been supported by the ACTRIS IMP project of the European Commission under grant no. 871115. The Belgian Interregional Environment Agency (IRCEL – CELINE) is acknowledged for the provision of PM10, PM2.5, NO, NO2 and O3 data from Brussels. The Czech Hydrometeorological Institute provided air quality monitoring data from Prague (Libuš). Conditions of data utilisation are available via the following link (in Czech): https://www.chmi.cz/files/portal/docs/uoco/historicka_data/OpenIsko_data (last access: 21 March 2022). Data from Leipzig-West were kindly provided by the Saxon State Office for Environment, Agriculture and Geology (LfULG). IMT Nord Europe acknowledges financial support from the Labex CaPPA project, which is funded by the French National Research Agency (ANR) through the PIA (Programme d'Investissement d'Avenir) under contract ANR-11-LABX-0005-01, and the CLIMIBIO project, financed by both the Regional Council of Hauts-de-France and the European Regional Development Fund (ERDF). IMT Nord Europe participated in the COST Action CA16109 COLOSSAL. The ATOLL site (Lille) is one of the French ACTRIS National Facilities and contributes to the CARA programme of the LCSQA funded by the French Ministry of Ecological Transition. Airparif and Atmo Hauts-de-France, the French agencies for air quality monitoring in the Île-de-France and Hauts-de-France regions, respectively, kindly provided open access to air quality data. ARPA Lombardia kindly provided air quality data from Milan. The Rotterdam EPA (DCMR) kindly provided air quality measurements in Rotterdam. Peer reviewed 2023-10-09T09:31:44Z 2023-10-09T09:31:44Z 2023-09-11 artículo http://purl.org/coar/resource_type/c_6501 Atmospheric Chemistry and Physics 23: 10145–10161 (2023) 16807316 http://hdl.handle.net/10261/336799 10.5194/acp-23-10145-2023 http://dx.doi.org/10.13039/501100000780 2-s2.0-85172937221 https://api.elsevier.com/content/abstract/scopus_id/85172937221 en #PLACEHOLDER_PARENT_METADATA_VALUE# #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/EC/H2020/871115 info:eu-repo/grantAgreement/EC/H2020/654109 Atmospheric Chemistry and Physics Publisher's version https://doi.org/10.5194/acp-23-10145-2023 Sí open European Geosciences Union

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