Author: Panda, Subhasmita; Mallik, Chinmay; Nath, Jyotishree; Das, Trupti; Ramasamy, Boopathy
Title: A study on variation of atmospheric pollutants over Bhubaneswar during imposition of nationwide lockdown in India for the COVID-19 pandemic Cord-id: qbviaqd0 Document date: 2020_8_24
ID: qbviaqd0
Snippet: The nationwide lockdown in India to flatten the pandemic COVID-19 curve has resulted in the reduction of anthropogenic emission sources to a great extent. This study reports change in air quality and its impact on the environment during the unique lockdown scenario at Bhubaneswar, a coastal smart city in east India. The urban air shows a remarkable reduction in the mean pollutant levels influenced by traffic emission viz. NO(x) (~ 67 %) and BC (~ 47 %) during lockdown over the pre-lockdown. Comp
Document: The nationwide lockdown in India to flatten the pandemic COVID-19 curve has resulted in the reduction of anthropogenic emission sources to a great extent. This study reports change in air quality and its impact on the environment during the unique lockdown scenario at Bhubaneswar, a coastal smart city in east India. The urban air shows a remarkable reduction in the mean pollutant levels influenced by traffic emission viz. NO(x) (~ 67 %) and BC (~ 47 %) during lockdown over the pre-lockdown. Comparatively, a lower reduction of CO (~ 14 %) is attributed to the dominance of natural atmospheric chemical regulation and biogenic sources in addition to anthropogenic contributions. In addition to the lockdown, frequent rain events due to depression in the Bay of Bengal (BoB) also had a significant role in the reduction of the primary pollutants over the study site. An enhancement of secondary pollutant viz. O(3) (~ 3%) with a distinct diurnal pattern was observed during the first phase of lockdown over the pre-lockdown period. An anti-correlation between O(3) and NO(x) during pre-lockdown points to a higher O(3) production potential with decreasing NO(x). While a reduction in the titration of O(3) due to suppression of fresh NO emissions led to accumulation of O(3) in the first phase of lockdown, inhibited photochemistry due to cloudy skies as well as reduction in precursors led to lower O(3) values during the later phases of lockdown. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s11869-020-00916-5) contains supplementary material, which is available to authorized users.
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