Abstract
To effectively control regional ozone pollution, it is crucial to investigate ozone variability in spatial responses to emissions and meteorology. Using ozone data from monitoring stations across mainland China (2016-2023) and applying statistical methods alongside interpretable machine learning, the study finds that ozone variation is driven by seasonal cycles in the north and short-term fluctuations in the south. The increase in ozone levels driven by emissions has slowed, with an average trend of 0.41 μg/m(3) a(-1) across China. Meteorological impacts vary regionally, leading to decreased ozone concentrations in the Beijing-Tianjin-Hebei and Sichuan Basin, and elevated concentrations in the Yangtze River Delta and Pearl River Delta. Temperature is the main factor influencing ozone variability in the North China region, while solar radiation dominates in other regions, with an interaction between them. Under moderate radiation, temperature has a greater impact on ozone; otherwise, solar radiation is dominant.