Highlights - A drop of 30% for NO2 & PM2.5 associated with drop of 70% in vehicle count in London. - Multicity air contaminant – traffic count elasticity of 0.71 for NO2 & 0.56 for PM2.5. - Multicity elasticity shows traffic emissions drop to consistently reduce NO2 & PM2.5. - This methodology enables to quantify the benefits of urban mobility electrification.

    Abstract While the decrease in air pollutant concentration during the COVID-19 lockdown is well documented, neighborhood-scale and multi-city data have not yet been explored systematically to derive a generalizable quantitative link to the drop in vehicular traffic. To bridge this gap, high spatial resolution air quality and georeferenced traffic datasets were compiled for the city of London during three weeks with significant differences in traffic. The London analysis was then augmented with a meta-analysis of lower-resolution studies from 12 other cities. The results confirm that the improvement in air quality can be partially attributed to the drop of traffic density, and more importantly quantifies the elasticity (0.71 for NO2 & 0.56 for PM2.5) of their linkages. The findings can also inform on the future impacts of the ongoing shift to electric vehicles and micro-mobility on urban air quality.


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    Title :

    Role of vehicular emissions in urban air quality: The COVID-19 lockdown experiment


    Contributors:


    Publication date :

    2022-12-18




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English





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