First long-term surface ozone variations at an agricultural site in the North China Plain: Evolution under changing meteorology and emissions

Significant upward trends in surface ozone (O3) have been widely reported in China during recent years, especially during warm seasons in the North China Plain (NCP), exerting adverse environmental effects on human health and ag-riculture. Quantifying long-term O3 variations and their attributions helps to understand the causes of regional O3 pol-lution and to formulate according control strategy. In this study, we present long-term trends of O3 in the warm seasons (April-September) during 2006-2019 at an agricultural site in the NCP and investigate the relative contributions of meteorological and anthropogenic factors. Overall, the maximum daily 8-h average (MDA8) O3 exhibited a weak de-creasing trend with large interannual variability. < 6 % of the observed trend could be explained by changes in mete-orological conditions, while the remaining 94 % was attributed to anthropogenic impacts. However, the interannual variability of warm season MDA8 O3 was driven by both meteorology (36 +/- 28 %) and anthropogenic factors (64 +/- 27 %). Daily maximum temperature was the most essential factor affecting O3 variations, followed by ultravi-olet radiation b (UVB) and boundary layer height (BLH), with rising temperature trends inducing O3 inclines through-out April to August, while UVB mainly influenced O3 during summer months. Under changes in emissions and air quality, warm season O3 production regime gradually shifted from dominantly VOCs-limited during 2006-2015 to NOx-limited afterwards. Relatively steady HCHO and remarkably rising NOx levels resulted in the fast decreasing MDA8 O3 (-2.87 ppb yr-1) during 2006-2012. Rapidly decreasing NOx, flat or slightly increasing HCHO promoted O3 increases during 2012-2015 (9.76 ppb yr-1). While afterwards, slow increases in HCHO and downwards fluctuat-ing NOx led to decreases in MDA8 O3 (-4.97 ppb yr-1). Additionally, continuous warming trends might promote nat-ural emissions of O3 precursors and magnify their impacts on agricultural O3 by inducing high variability, which would require even more anthropogenic reduction to compensate for.

Automated summary

Significant upward trends in surface ozone have been observed in China, particularly in the North China Plain during warm seasons, with anthropogenic factors accounting for 94% of the trend. Meteorological conditions and anthropogenic factors both influence the interannual variability of ozone, with temperature being the most essential factor affecting ozone variations.