Abstract
Under the threat of COVID-19, many regions around the world implemented lockdown policies to control the spread of the virus. This restriction on both social and economic activities has improved the quality of the environment in certain aspects. However, most previous studies have only focused on the short-term impact of lockdown policies on the urban environment. The long-term effects of lockdown require a more focused exploration and analysis. Thus, five major urban agglomerations in China were selected as the research area; changes in the numerical and spatial distribution of NO2 concentration and surface temperature during four different lockdown stages in 2019, 2020, and 2021 were investigated to analyze the long-term effects of lockdown policies on the urban environment. The results indicated that the impact of shorter lockdowns was short-term and unsustainable; the NO2 concentrations increased again with the resumption of production. Compared with air pollutants, thermal environmental problems are more complex. The effect of the lockdown policy was not reflected in the decrease in the area proportions of the high- and sub-high-temperature regions but rather in the spatial distribution of the high-temperature area, which was manifested as a fragmentation and dispersion of heat source patches. In addition to the severity of the lockdown, the impact of the lockdown policy was also closely related to the level of development and industrial structure of each city. Among the urban environments of the five agglomerations, the most affected were the Yangtze River Delta and Yangtze River Middle-Reach urban agglomerations, which had the largest decline in NO2 concentrations and the most notable fragmentation of heat source patches.
Highlights
IntroductionSince detection of the first official case of COVID-19 on 31 December 2019 in Wuhan [1], the pandemic has caused an unprecedented global health and socioeconomic crisis [2,3,4]
As the spread of the epidemic was controlled, the lockdown policy eased such that the difference in NO2 concentration between the 2019 and 2020 in the post-lockdown periods was not as notable as before
Significant declines in the NO2 concentrations were observed in the study areas during the outbreak year of the pandemic (2020), especially in the during-lockdown period (23 January–23 February)
Summary
Since detection of the first official case of COVID-19 on 31 December 2019 in Wuhan [1], the pandemic has caused an unprecedented global health and socioeconomic crisis [2,3,4] This unexpected pandemic has threatened the health of global populations and caused widespread panic. Humans have been confronted with several noticeable ecological and environmental issues, such as chronic air quality problems and expansions of the regional urban heat island [5,6,7,8]. Ambient air pollutants carrying microorganisms make pathogens more invasive to humans and make people more susceptible to pathogens [9]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
