Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air quality

Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air quality

Abstract Air quality in urban areas and megacities is dependent on emissions, physicochemical process and atmospheric conditions in a complex manner. The impact on air quality metrics of the COVID-19 lockdown measures was evaluated during two periods in Athens, Greece. The first period involved stop...

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Main Authors: Konstantinos Eleftheriadis, Maria I. Gini, Evangelia Diapouli, Stergios Vratolis, Vasiliki Vasilatou, Prodromos Fetfatzis, Manousos I. Manousakas
Format: Article
Language:English
Published: Nature Publishing Group 2021-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-93650-6
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spelling doaj-bafbf0ce3feb4ac980d7eb1bd8f4d7ab2021-07-18T11:25:22ZengNature Publishing GroupScientific Reports2045-23222021-07-0111111110.1038/s41598-021-93650-6Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air qualityKonstantinos Eleftheriadis0Maria I. Gini1Evangelia Diapouli2Stergios Vratolis3Vasiliki Vasilatou4Prodromos Fetfatzis5Manousos I. Manousakas6Environmental Research Laboratory, INRASTES, NCSR DemokritosEnvironmental Research Laboratory, INRASTES, NCSR DemokritosEnvironmental Research Laboratory, INRASTES, NCSR DemokritosEnvironmental Research Laboratory, INRASTES, NCSR DemokritosEnvironmental Research Laboratory, INRASTES, NCSR DemokritosEnvironmental Research Laboratory, INRASTES, NCSR DemokritosEnvironmental Research Laboratory, INRASTES, NCSR DemokritosAbstract Air quality in urban areas and megacities is dependent on emissions, physicochemical process and atmospheric conditions in a complex manner. The impact on air quality metrics of the COVID-19 lockdown measures was evaluated during two periods in Athens, Greece. The first period involved stoppage of educational and recreational activities and the second severe restrictions to all but necessary transport and workplace activities. Fresh traffic emissions and their aerosol products in terms of ultrafine nuclei particles and nitrates showed the most significant reduction especially during the 2nd period (40–50%). Carbonaceous aerosol both from fossil fuel emissions and biomass burning, as well as aging ultrafine and accumulation mode particles showed an increase of 10–20% of average before showing a decline (5 to 30%). It is found that removal of small nuclei and Aitken modes increased growth rates and migration of condensable species to larger particles maintaining aerosol volume.https://doi.org/10.1038/s41598-021-93650-6
collection DOAJ
language English
format Article
sources DOAJ
author Konstantinos Eleftheriadis
Maria I. Gini
Evangelia Diapouli
Stergios Vratolis
Vasiliki Vasilatou
Prodromos Fetfatzis
Manousos I. Manousakas
spellingShingle Konstantinos Eleftheriadis
Maria I. Gini
Evangelia Diapouli
Stergios Vratolis
Vasiliki Vasilatou
Prodromos Fetfatzis
Manousos I. Manousakas
Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air quality
Scientific Reports
author_facet Konstantinos Eleftheriadis
Maria I. Gini
Evangelia Diapouli
Stergios Vratolis
Vasiliki Vasilatou
Prodromos Fetfatzis
Manousos I. Manousakas
author_sort Konstantinos Eleftheriadis
title Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air quality
title_short Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air quality
title_full Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air quality
title_fullStr Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air quality
title_full_unstemmed Aerosol microphysics and chemistry reveal the COVID19 lockdown impact on urban air quality
title_sort aerosol microphysics and chemistry reveal the covid19 lockdown impact on urban air quality
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-07-01
description Abstract Air quality in urban areas and megacities is dependent on emissions, physicochemical process and atmospheric conditions in a complex manner. The impact on air quality metrics of the COVID-19 lockdown measures was evaluated during two periods in Athens, Greece. The first period involved stoppage of educational and recreational activities and the second severe restrictions to all but necessary transport and workplace activities. Fresh traffic emissions and their aerosol products in terms of ultrafine nuclei particles and nitrates showed the most significant reduction especially during the 2nd period (40–50%). Carbonaceous aerosol both from fossil fuel emissions and biomass burning, as well as aging ultrafine and accumulation mode particles showed an increase of 10–20% of average before showing a decline (5 to 30%). It is found that removal of small nuclei and Aitken modes increased growth rates and migration of condensable species to larger particles maintaining aerosol volume.
url https://doi.org/10.1038/s41598-021-93650-6
work_keys_str_mv AT konstantinoseleftheriadis aerosolmicrophysicsandchemistryrevealthecovid19lockdownimpactonurbanairquality
AT mariaigini aerosolmicrophysicsandchemistryrevealthecovid19lockdownimpactonurbanairquality
AT evangeliadiapouli aerosolmicrophysicsandchemistryrevealthecovid19lockdownimpactonurbanairquality
AT stergiosvratolis aerosolmicrophysicsandchemistryrevealthecovid19lockdownimpactonurbanairquality
AT vasilikivasilatou aerosolmicrophysicsandchemistryrevealthecovid19lockdownimpactonurbanairquality
AT prodromosfetfatzis aerosolmicrophysicsandchemistryrevealthecovid19lockdownimpactonurbanairquality
AT manousosimanousakas aerosolmicrophysicsandchemistryrevealthecovid19lockdownimpactonurbanairquality
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