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Abstract
To accurately quantify impact of short-term
interventions (such as COVID-19 lockdown) on air pollutant levels, meteorology
and atmospheric chemistry need to be considered in addition to emission changes.
We demonstrate that
regional sources have a significant influence on PM2.5 levels in
Delhi and Hyderabad due to the small reduction calculated post-lockdown after weather-normalization,
indicating that future PM2.5 mitigation strategies should focus on
national-scale, as well as local sources. Furthermore, we demonstrate with
field measurements that ozone production in Delhi is likely volatile organic
compound (VOC)-limited, in agreement with previous modelling predictions,
indicating that ozone mitigation should focus on dominant VOC sources. This
work highlights the complexity in developing mitigation strategies for air pollution
due to its non-linear relationships with emissions, chemistry and meteorology.
