Diagnosing atmospheric stability effects on the modeling accuracy of PM2.5 /AOD relationship in eastern China using radiosonde data

Bai, Kaixu; Chang, Ni-Bin; Zhou, Jiayuan; Gao, Wei; Guo, Jianping

Diagnosing atmospheric stability effects on the modeling accuracy of PM2.5 /AOD relationship in eastern China using radiosonde data

2019

Bai, Kaixu | Chang, Ni-Bin | Zhou, Jiayuan | Gao, Wei | Guo, Jianping

Atmospheric stability significantly influences the accumulation and dispersion of air pollutants in the near-surface atmosphere, yet few stability metrics have been applied as predictors in statistical PM₂.₅ concentration mapping practices. In this study, eleven stability metrics were derived from radiosonde soundings collected in eastern China for the time period of 2015–2018 and then applied as independent predictors to explore their potential in favoring the prediction of PM₂.₅. The statistical results show that the in situ PM₂.₅ concentration measurements correlated well with these stability metrics, especially at monthly and seasonal timescales. In contrast, correlations at the daily timescale differed markedly between stability metric and also varied with seasons. Nevertheless, the modeling results indicate that incorporating these stability metrics into the PM₂.₅ modeling framework rendered small contribution to PM₂.₅ prediction accuracy, yielding an increase of R² by < 5% and a reduction of RMSE by < 1 μg/m³ on average. Compared with other stability indices, the inversion depth and intensity appeared to have relative larger benefiting potential. In general, our findings indicate that including these stability metrics would not result in significant contribution to the PM₂.₅ prediction accuracy in eastern China since their effects could be partially overwhelmed or offset by other predictors such as AOD and boundary layer height.

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