A wavelet analysis of multiday extreme ozone and its precursors in Mexico city during 2015–2016

During the past decades, many authors have studied extreme ozone (O₃) events on successive days in several cities around the world, where extreme pollution concentrations are considered as values exceeding air quality standards. These multiday episodes are caused by different variables: weather conditions, pollution precursors life times and air pollution transport. However, a complete characterization of the temporal behavior of multiday extreme O₃ episodes is still lacking. In the present paper, we used the Haar wavelet transform to study the period (T in days) of multiday extreme O₃ episodes in Mexico city during 2015–2016, when 10 ozone contingencies occurred and changes in driving restrictions were implemented. In addition, we studied the temporal correlations between extreme O₃ and extreme: nitrogen dioxide (NO₂), carbon monoxide (CO) and ultraviolet B radiation (UVB) for a broad range of time scales by means of the Haar Wavelet cross-correlation method. The results show that multiday O₃ episodes mainly exhibit periods of T>4 days, while NO₂ and CO show multiday episodes comprising principally periods of T>2 days. The cross correlation analysis reveals that CO and NO₂ are temporal anti-correlated with O₃ for daily variations T<1. However, NO₂ and CO are strongly and moderately correlated with O₃ for T>4, respectively, indicating that NO₂, CO and O₃ are correlated in a multi-temporal clustered form.