Technical note: Northern midlatitude baseline ozone – long-term changes and the COVID-19 impact

Parrish, D. D.; Derwent, Richard G.; Faloona, I. C.; Mims, Charles A.

doi:10.5194/acp-22-13423-2022

Atmos. Chem. Phys.

2022

DOI: 10.5194/acp-22-13423-2022

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Technical note: Northern midlatitude baseline ozone – long-term changes and the COVID-19 impact

D. D. Parrish¹,

Richard G. Derwent²,

I. C. Faloona³

et al.

Abstract: Abstract. A nonlinear change in baseline ozone concentrations at northern midlatitudes has been quantified over preceding decades. During the past few years, several studies, using linear trend analyses, report relatively small trends over selected time periods – results inconsistent with the earlier developed picture. We show that reported COVID-19-related ozone changes in the background troposphere based on the linear analysis are significantly larger than those derived considering recent long-term decreases… Show more

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2024

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Cited by 2 publications

References 39 publications

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Ozone at Mace Head, Ireland from 1987 to 2021: Declining baselines, phase-out of European regional pollution, COVID-19 impacts

Derwent,

Parrish,

Manning

et al. 2024

Atmospheric Environment

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Ozone at Mace Head, Ireland from 1987 to 2021: Declining baselines, phase-out of European regional pollution, COVID-19 impacts

Derwent,

Parrish,

Manning

et al. 2024

Atmospheric Environment

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Deciphering decadal urban ozone trends from historical records since 1980

Wang,

Lu,

Palmer

et al. 2024

National Science Review

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Ozone pollution is a major environmental threat to human health. Timely assessment of ozone trends is crucial for informing environmental policy. Here we show that for the most recent decade (2013–2022) in the Northern Hemisphere, warm-season (April-September) mean daily 8-h average maximum (MDA8) ozone increases much faster in urban regions with top ozone levels (mainly in North China Plain, 1.2 ± 1.3 ppbv year−1) than that in other low-ozone regions (0.2 ± 0.9 ppbv year−1). These trends widen the ozone differences across urban regions, and increase extreme pollution levels and health threats from a global perspective. Comparison of historical trends in different urban regions reveals that, ozone increases in China during 2013–2022 differ in magnitude and mechanisms from historical periods in other regions since 1980. This reflects a unique chemical environment characterized by exceptionally high nitrogen oxides and aerosol concentrations, where reducing ozone precursor emissions leads to substantial ozone increase. Ozone increase in China has slowed down in 2018–2022 compared to 2013–2017, driven by ongoing emission reductions but with ozone-favorable weather conditions. Historical ozone evolution in Japan and South Korea indicates that ozone increases should be suppressed with continuous emission reduction. Increasing temperature and associated wildfires have also reversed ozone decreases in the US and Europe with anthropogenic ozone control slowing down in recent decades.

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Technical note: Northern midlatitude baseline ozone – long-term changes and the COVID-19 impact

Cited by 2 publications

References 39 publications

Ozone at Mace Head, Ireland from 1987 to 2021: Declining baselines, phase-out of European regional pollution, COVID-19 impacts

Ozone at Mace Head, Ireland from 1987 to 2021: Declining baselines, phase-out of European regional pollution, COVID-19 impacts

Deciphering decadal urban ozone trends from historical records since 1980

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