key: cord-0061974-gqqhb4hb authors: Ashwini, Kumar; Saw, Gautam Kumar; Singh, Ajai title: Phase wise spatial and temporal variations of nitrogen dioxide during and pre COVID-19 lockdown period in tier-1 cities of India date: 2021-04-15 journal: Spat DOI: 10.1007/s41324-021-00400-x sha: ec9fa777d9914a213e96f4e3ff2e71f1ead7230c doc_id: 61974 cord_uid: gqqhb4hb The novel coronavirus (COVID-19) pandemic disrupted basic lifestyle of everyone across the globe. To stop the conveyance of the coronavirus into the human body and to flatten the transmission rate curve, almost every country imposed a lockdown. In India, the emergency lockdown was imposed on the 24th of March 2020 which created an economic crisis in the country but proved a boon in disguise for the environment to improve its quality. The study analysed the statuses of air quality with respect to NO(2) in pre and during the COVID-19 lockdown period in eight districts of India where tier I cities are located. Nitrous Oxide concentration was determined through Sentinel 5P satellites imagery and Central Pollution Control Board ground station data. The lockdown across the country has helped the environment to regain, and therefore, more studies are required to assess other parameters to explore the implementation of the provision of the well-planned lockdown of 1-week duration in a year for giving enough time to the environment to recuperate. These results show that the study areas (Ahmedabad, Hyderabad, Delhi, Kolkata, Mumbai, Chennai, Bengaluru, and Pune) have witnessed a significant drop in nitrogen dioxide (14–62%) as compared to the same period in 2019. This propose an idea that the devilish, COVID-19 lockdown has proved to be an unknown tool for tranquillizing air pollution (NO(2)) during a lockdown within the Territory of Indian. COVID-19, primarily a pneumonia symptom disease which bears similarity with early erupted SARS and MERS, emerged in Wuhan city of China in December 2019 [1] . Soon, it became a global public health crisis after World Health Organisation (WHO) announced it as an international public health emergency on 30th January 2020. This categorized COVID-19 into a high-risk disease facing a vulnerable health care system with a mortality rate of 3.4% worldwide [2, 3] . In India, the first case of COVID-19 was officially declared in Kerala on late January 2020 [1] . Many countries including India had implemented lockdown in order to reduce the human-to-human interactions and prevention of the transmission of the virus [4] . Epidemic Diseases Act, 1897 was invoked by the Government of India under this pandemic scenario, and different activities such as large scale public gathering were not allowed; private and public transportation was restricted; all the academic institutions, industries, and markets were closed; fourteen days strict quarantine system was imposed for the suspected as well as infected persons; social distancing and many other strict measures were implemented for flattening the transmission rate curve. This resulted in a decrease in the production from different power plants and industries, which negatively affected the country's social and economic structure, but at the same time, many positive effects, e.g. improvement in air quality, water quality, noise, and land surface temperature have also been observed in the country [5] . As per the reports of WHO, more than seven million deaths are attributed each year around the world due to air pollution, and majority of them belong to developing countries such as India and China where air pollution levels are high. It is intriguing to study the air quality statuses during the lockdown period implemented in different cities of India. Among all the gases present in both troposphere and stratosphere, Nitrogen dioxides and Nitrogen oxides (NO 2 and NO) are one of the important type of gases found within the atmosphere of Earth [6] . They enter the atmosphere as a result like wildfires, lightning, and microbiological processes in soils which comes under anthropogenic activities and natural processes [7, 8] . It alters the atmospheric chemistry by particulate formation mechanism, produces ozone, and contributes to acid rain [9] . Nitrogen dioxide (NO 2 ) is a noxious pollutant and a result of the combustion of fossil fuels (coal, gas, and oil), welding and explosives, refining of petrol and metals, and manufacturing units. In the present study, the impact of the lockdown measure due to COVID-19 outbreak in India, which caused reduced economic activity to an extremely low level from March 2020 to May 2020 and ultimately had tremendous effects on tropospheric and ground Nitrogen Dioxide (NO 2 ) concentration in eight districts of India namely; Delhi, Mumbai, Kolkata, Chennai, Pune, Bengaluru, Ahmedabad, Hyderabad where tier-I districts of India are situated, was analyzed. The hot spots of NO 2 are normally reported from most urbanized locations. Though Siddiqui et al. [10] analyzed the air pollution conditions, during and before lockdown through Sentinel-5P data sets and groundbased measurements (Central Pollution Control Board's Air Quality Index) for 8 major cities in India, the study of NO 2 concentration based on different phases of lockdown in India and comparison with the same periods in the year 2019 is the mainstay of the paper. We thought it would be interesting to explore the impact of lockdown when compared with the previous year's data. The analysis is based on the Sentinel 5-P satellite observation and validated using ground-based air quality monitoring stations of India. The effect of complete lockdown was realized on the many environmental factors across the globe in terms of improved air and water quality [11] . Once the international event of Trump's Visit to India got over, the entire focus of Central Govt. shifted to the catastrophic pandemic which was surmounting on the sub-continent. Succeeding Janta Curfew on 22/03/2020, a historic national wide lockdown was declared on 24/03/2020 which lasted for 21 days. It was extended first, on 14.04.2020, Phase-II, and then on 03.05.2020, Phase-III whereas the second extension allowed some restricted activities as a relief to the common people. To monitor 733 districts of India, the policymakers divided the whole nation into three zones; Red Zonesbearing the strictest sanctions of public activities, Orange Zones-bearing the stricter sanctions, and the Green Zonesmost liberal one, but with precautionary guidelines. The red zones proved a nightmare for the unorganized sector vis-à-vis commercial activities including e-commerce due to various restrictions, delivery time, and strict guidelines. Only, Phase-IV delegated power to states and local authorities to undo or alter the earmarked zones and relax the activities accordingly. The earlier phases had broken the spine of people like daily wage laborers, street vendors, farmers (due to restrictions on inter-state movement), and local suppliers, etc. TROPOMI, a low-earth orbit (825 km), sun-synchronous, with an equator overpass time of approximately 13:30 local solar time, was launched by the European Space Agency (ESA) on October 13, 2017, for the European Union's Copernicus Sentinel 5 Precursor (S5p) satellite mission. It measures the total column amounts of several trace gases like SO 2 , NO 2 , CO, HCHO in the UV-Vis-near infraredshortwave infrared spectral regions. It has a spatial and temporal resolution of 3.5 9 7.2 km 2 and 101 min, respectively with swath coverage of 2600 km. In this study, tropospheric vertical column density of near real-time NO 2 data was used. It represents vertically integrated number of NO 2 molecules per unit area between the surface and the tropopause. Downloading, data processing, and geospatial analysis of S5P satellite data were carried out by a cloudbased platform, i.e., Google Earth Engine. The Earth Engine consisted of a multi-petabyte analysis-ready data catalog co-located with intrinsically parallel computation and high-performance service. It was associated with a web-based interactive development environment (IDE) that enables rapid prototyping and visualization of processed results. The S5P data was further rescaled into 30 9 30 m 2 resolution spatial analysis work was done by using ArcGIS and SPSS software. For ground-based NO 2 measurement (unit microgram per m 3 ), data were collected from the Central Pollution Control Board (CPCB) for all the locations used in the study regions. The phase-wise mean of Nitrogen Dioxide emission was determined. Emission of NO 2 was measured by Sentinal-5P during and pre lockdown 2019-2020 for the monitoring stations. Figure 1 shows the location of the study area indicating the eight districts where Tier I cities of India are located. The study periods were categorised into five different categories such as (a) February 01, 2020 to February 29, 2020; (b) March 01, 2020 to March 23, 2020 (before lockdown); (c) March 25, 2020 to April 14, 2020, phase-1; (d) April 15, 2020 to May 03, 2020 phase-II; and (e) May 04, 2020 to May 17, 2020, Phase-III (after lockdown). Data from ground stations were collected for the same periods for better comparison. The percentage change in NO 2 concentrations in five different scenarios as mentioned in the above section was determined by using Sentinel 5 P satellite data (Table 1) . Further, the percentage change in NO 2 concentrations was calculated with the help of data obtained from air quality monitoring ground stations under the control of CPCB for the same districts ( Table 2) . As per CPCB ground monitoring stations data, in Ahmedabad, Hyderabad, Delhi, Kolkata, Mumbai, Chennai, Bengaluru, and Pune, the mean NO 2 concentration during the lock-down period (from 25 March 2020 to 17 May 2020) was 41,16, 19, 15, 7, 5, 9, 16, and 18(lg/m 3 ), respectively. In both cases, the percentage change was determined by comparing the periods from Fig. 2 , it has been observed that a significant change from phase I period of 2019 to the same phase I of 2020 was noticed for all the eight districts of India. This was the phase when the strict and complete lockdown was implemented in the country. Figures 10 and 11 demonstrate the graphical comparisons of NO 2 concentration derived from satellitebased (mol/m 2 ) and ground-based (lg/m 3 ) data in eight districts of India. From the above satellite-based monitoring graph, which represents total tropospheric NO 2 column density concentrations, it is observed that every study region showed substantial declines in different phases (from phase-I to Phase-III) of lockdown (Fig. 10) . From the ground-based monitoring graph, this was noticed that overall NO 2 concentration has decreased except for Mumbai and Pune (Fig. 11) . Mumbai showed an overall increase in NO 2 concentration, mainly because of an increase in concentration from 1st February 2020 to 23 March 2020 as compared with the same period in the year 2019. But during the COVID 19 lockdown period, i.e. 25 March 2020 to 17 May 2020, the concentration has significantly decreased as compared with the previous year's concentration. Whereas in the case of Pune, it is the phase-III, which showed an increase in concentration. The pandemic due to SARS-CoV-2, a novel coronavirus has a far-reaching effect on every person around the world. It showed a drastic effect on every sector of the economy. Lockdown caused due to COVID 19 impacted the economic circulation around the world, which resulted in shut down of production units, business at national and international level. In this study, the possible significant impacts of phase-wise lockdown due to COVID-19 on NO 2 concentration in eight districts of India using Sentinel 5 P satellite images of the European Space Agency and CPCB ground-based monitoring stations data were analyzed and compared with the same periods in 2019. The results demonstrated a drastic reduction in the levels of NO 2 concentration in these regions. It was observed that the data obtained from the satellite-based monitoring system differed from ground station data for few study regions. If sector-specific (power plants, industries, transportation, construction) emission and production data become available during the lockdown period, then many cost specific air pollution policies could be formulated. Future research on these issues is warranted to understand the full implications and draw valuable policy lessons from this unprecedented event. Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. SARS-CoV-2 Pandemic in India: what might we expect? Real estimates of mortality following COVID-19 infection. 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Conflict of interest The authors reported no potential conflict of interest.