Different approaches to explore the impact of COVID-19 lockdowns on carbonaceous aerosols at a European rural background site

Saliou Mbengue; Petr Vodička; Kateřina Komínková; Naděžda Zíková; Jaroslav Schwarz; Roman Prokeš; Lenka Suchánková; Kajal Julaha; Jakub Ondráček; Ivan Holoubek; Vladimír Ždímal

doi:10.1016/j.scitotenv.2023.164527

Different approaches to explore the impact of COVID-19 lockdowns on carbonaceous aerosols at a European rural background site

Sci Total Environ. 2023 Sep 20:892:164527. doi: 10.1016/j.scitotenv.2023.164527. Epub 2023 May 31.

Affiliations

¹ Global Change Research Institute of the Czech Academy of Sciences, Brno 60300, Czech Republic. Electronic address: mbengue.s@czechglobe.cz.
² Institute of Chemical Process Fundamentals of the Czech Academy of Sciences, Prague 16500, Czech Republic.
³ Global Change Research Institute of the Czech Academy of Sciences, Brno 60300, Czech Republic; Department of Geography, Faculty of Science, Masaryk University, Brno 61137, Czech Republic.
⁴ Global Change Research Institute of the Czech Academy of Sciences, Brno 60300, Czech Republic; RECETOX, Faculty of Science, Masaryk University, Brno 61137, Czech Republic.
⁵ Global Change Research Institute of the Czech Academy of Sciences, Brno 60300, Czech Republic; Institute of Chemical Process Fundamentals of the Czech Academy of Sciences, Prague 16500, Czech Republic; RECETOX, Faculty of Science, Masaryk University, Brno 61137, Czech Republic.
⁶ Institute of Chemical Process Fundamentals of the Czech Academy of Sciences, Prague 16500, Czech Republic; Department of Atmospheric Physics, Faculty of Mathematics and Physics, Charles University, Prague, 18000, Czech Republic.

Abstract

To prevent the fast spread of COVID-19, worldwide restrictions have been put in place, leading to a reduction in emissions from most anthropogenic sources. In this study, the impact of COVID-19 lockdowns on elemental (EC) and organic (OC) carbon was explored at a European rural background site combining different approaches: - "Horizontal approach (HA)" consists of comparing concentrations of pollutants measured at 4 m a.g.l. during pre-COVID period (2017-2019) to those measured during COVID period (2020-2021); - "Vertical approach (VA)" consists of inspecting the relationship between OC and EC measured at 4 m and those on top (230 m) of a 250 m-tall tower in Czech Republic. The HA showed that the lockdowns did not systematically result in lower concentrations of both carbonaceous fractions unlike NO₂ (25 to 36 % lower) and SO₂ (10 to 45 % lower). EC was generally lower during the lockdowns (up to 35 %), likely attributed to the traffic restrictions whereas increased OC (up to 50 %) could be attributed to enhanced emissions from the domestic heating and biomass burning during this stay-home period, but also to the enhanced concentration of SOC (up to 98 %). EC and OC were generally higher at 4 m suggesting a greater influence of local sources near the surface. Interestingly, the VA revealed a significantly enhanced correlation between EC and OC measured at 4 m and those at 230 m (R values up to 0.88 and 0.70 during lockdown 1 and 2, respectively), suggesting a stronger influence of aged and long distance transported aerosols during the lockdowns. This study reveals that lockdowns did not necessarily affect aerosol absolute concentrations but it certainly influenced their vertical distribution. Therefore, analyzing the vertical distribution can allow a better characterization of aerosol properties and sources at rural background sites, especially during a period of significantly reduced human activities.

Keywords: Atmospheric aerosols; COVID-19 lockdowns; Organic - elemental carbon; Rural background site; Temporal variation; Vertical distribution.

MeSH terms

Aged
Air Pollutants* / analysis
COVID-19* / prevention & control
Carbon / analysis
China
Communicable Disease Control
Environmental Monitoring
Humans
Particulate Matter / analysis
Respiratory Aerosols and Droplets
Seasons

Substances

Air Pollutants
Particulate Matter
Carbon