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Abstract
Abstract. In March 2020, non-pharmaceutical intervention measures in the form of lockdowns were applied across Europe to urgently reduce the transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus which causes the COVID-19 disease. The aggressive curtailing of the European economy had widespread impacts on the atmospheric composition, particularly for nitrogen dioxide (NO2) and ozone (O3). To investigate these changes, we analyse data from 246 ambient air pollution monitoring sites in 102 urban areas and 34 countries in Europe between February and July 2020. Counterfactual, business-as-usual air quality time series are created using machine-learning models to account for natural weather variability. Across Europe, we estimate that NO2 concentrations were 34 % and 32 % lower than expected for respective traffic and urban background locations, whereas O3 was 30 % and 21 % higher (in the same respective environments) at the point of maximum restriction on mobility. To put the 2020 changes into context, average NO2 trends since 2010 were calculated, and the changes experienced across European urban areas in 2020 was equivalent to 7.6 years of average NO2 reduction (or concentrations which might be anticipated in 2028). Despite NO2 concentrations decreasing by approximately a third, total oxidant (Ox) changed little, suggesting that the reductions in NO2 were substituted by increases in O3. The lockdown period demonstrated that the expected future reductions in NO2 in European urban areas are likely to lead to widespread increases in urban O3 pollution unless additional mitigation measures are introduced.
Highlights
On 31 December 2019, a cluster of unexplained pneumonia cases in Wuhan, Hubei, China was reported to the World Health Organization (WHO) (WHO, 2020a; Wu et al, 2020)
In March 2020, non-pharmaceutical intervention measures in the form of lockdowns were applied across Europe to urgently reduce the transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus which causes the COVID-19 disease
The primary objective of this study is to report the response of NO2 and O3 concentrations throughout European urban areas caused by mobility restrictions due to COVID-19 lockdown measures
Summary
On 31 December 2019, a cluster of unexplained pneumonia cases in Wuhan, Hubei, China was reported to the World Health Organization (WHO) (WHO, 2020a; Wu et al, 2020). Due to rapid human-to-human transmission and the introduction of the virus to countries outside China, cases of COVID19 were soon detected on all continents worldwide, with the exception of Antarctica, and WHO declared a COVID-19 pandemic on 11 March 2020 (WHO, 2020b). Europe was named the epicentre of the pandemic on 13 March, and most European countries undertook unprecedented non-pharmaceutical intervention measures to reduce the transmission rate of SARS-CoV-2 in early or mid March (BBC, 2020; Dehning et al, 2020; Remuzzi and Remuzzi, 2020). Working from home whenever possible was encouraged, and some countries controlled or restricted travel, exercise, and leisure activities. All of these measures created a situation where European economic activity was reduced to a bare
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