Abstract
The continuous increase of air pollution is an emerging environmental issue in the Indian megacities for the last few decades. Rapid and uncontrolled urbanization coupled with population growth, rising vehicle population, and growth of industries has been fuelling this problem. The present study analyzed the trend and pattern of air pollution of three Indian megacities: Delhi, Kolkata, and Chennai in a spatio-temporal frame using a comparative approach. To develop the air pollution scenario, air-quality data have been collected from the Central Pollution Control Board and also the State Pollution Control Board of respective cities. Four major pollutants (PM10, PM2.5, NO2, and SO2) have been selected to develop the air-quality index (AQI) from the period of 2017 to 2020. The meteorological parameters have been used to correlate with AQI. Moreover, exceedance factor has been calculated to analyze the level of pollution in comparison to the national standards. The results demonstrate that Delhi and Kolkata are most affected by air pollution. The seasonal distribution shows that higher concentrations of pollution were found during the winter season. The results of this analysis will be helpful in the assessment of air pollution and to investigate the way out through proper policies.
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Amann M, Purohit P, Bhanarkar AD, Bertok I, Borken-Kleefeld J, Cofala J, Heyes C, Kiesewetter G, Klimont Z, Liu J, Majumdar D (2017) Managing future air quality in megacities: a case study for Delhi. Atmos Environ 161:99–111
Arulprakasajothi M, Chandrasekhar U, Yuvarajan D, Teja MB (2020) An analysis of the implications of air pollutants in Chennai. Int J Ambient Energy 41(2):209–213
Biswas J, Upadhyay E, Nayak M, Yadav AK (2011) An analysis of ambient air quality conditions over Delhi, India from 2004 to 2009. Atmos Clim Sci 1(04):214
Census (2011) Census of India 2011. Government of India. http://censusindia.gov.in/DigitalLibrary/Archive_home.aspx. Accessed 17 July 2020
Chattopadhyay S, Gupta S, Saha RN (2010) Spatial and temporal variation of urban air quality: a GIS approach. J Environ Prot 1(03):264
Chiarini B, D’Agostino A, Marzano E, Regoli A (2020) Air quality in urban areas: comparing objective and subjective indicators in European countries. Ecol Indic 121:107144. https://doi.org/10.1016/j.ecolind.2020.107144
CPCB (2011) Air quality monitoring, emission inventory and source apportionment study for Indian cities: national summary report. Central Pollution Control Board (CPCB), New Delhi
Das M, Maiti SK, Mukhopadhyay U (2006) Distribution of PM 2.5 and PM 10-2.5 in PM 10 fraction in ambient air due to vehicular pollution in Kolkata megacity. Environ Monitor Assess 122(1–3):111–123
Debone D, Leirião LFL, Miraglia SGEK (2020) Air quality and health impact assessment of a truckers’ strike in Sao Paulo state, Brazil: a case study. Urban Climate 34:100687
Dholakia HH, Purohit P, Rao S, Garg A (2013) Impact of current policies on future airquality and health outcomes in Delhi, India. Atmos Environ 75:241–248
Dinda S, Das K, Chatterjee ND, Ghosh S (2019a) Integration of GIS and statistical approach in mapping of urban sprawl and predicting future growth in Midnapore town, India. Model Earth Syst Environ 5(1):331–352
Dinda S, Ghosh S, Chatterjee ND (2019b) An analysis of transport suitability, modal choice and trip pattern using accessibility and network approach: a study of Jamshedpur city, India. Spatial Inf Res 27(2):169–186
Dinda S, Chatterjee ND, Ghosh S (2020) An integrated simulation approach to the assessment of urban growth pattern and loss in urban green space in Kolkata, India: a GIS-based analysis. Ecol Ind 121:107178
Ghose MK, Paul R, Banerjee SK (2004) Assessment of the impacts of vehicular emissions on urban air quality and its management in Indian context: the case of Kolkata (Calcutta). Environ Sci Policy 7(4):345–351
Ghosh MK, Paul R, Banerjee RK (2005) Assessment of the status of urban air pollution and its impact on human health in the city of Kolkata. Environ Monit Assess 108(1–3):151–167
Ghosh S, Chatterjee ND, Dinda S (2019) Relation between urban biophysical composition and dynamics of land surface temperature in the Kolkata metropolitan area: a GIS and statistical based analysis for sustainable planning. Model Earth Syst Environ 5(1):307–329
Gorai AK, Tchounwou PB, Mitra G (2017) Spatial variation of ground level ozone concentrations and its health impacts in an urban area in India. Aerosol Air Qual Res 17(4):951
Gulia S, Mittal A, Khare M (2018) Quantitative evaluation of source interventions for urban air quality improvement—a case study of Delhi city. Atmos Pollut Res 9(3):577–583
Guo H, Gu X, Ma G, Shi S, Wang W, Zuo X, Zhang X (2019) Spatial and temporal variations of air quality and six air pollutants in China during 2015–2017. Sci Rep 9(1):1–11
Gurjar BR, Ravindra K, Nagpure AS (2016) Air pollution trends over Indian megacities and their local-to-global implications. Atmos Environ 142:475–495
Guttikunda SK, Goel R, Pant P (2014) Nature of air pollution, emission sources, and management in the Indian cities. Atmos Environ 95:501–510
Halim NDA, Latif MT, Mohamed AF, Maulud KNA, Idrus S, Azhari A, Othman M, Sofwan NM (2020) Spatial assessment of land use impact on air quality in mega urban regions, Malaysia. Sustain Cities Soc 63:102436
Haque M, Singh RB (2017) Air pollution and human health in Kolkata, India: a case study. Climate 5(4):77
Jain S, Sharma SK, Vijayan N, Mandal TK (2020) Seasonal characteristics of aerosols (PM2.5 and PM10) and their source apportionment using PMF: a four year study over Delhi, India. Environ Pollut 262:114337. https://doi.org/10.1016/j.envpol.2020.114337
Jayamurugan R, Kumaravel B, Palanivelraja S, Chockalingam MP (2013) Influence of temperature, relative humidity and seasonal variability on ambient air quality in a coastal urban area. Int J Atmos Sci 2013:264046. https://doi.org/10.1155/2013/264046
Kanawade VP, Srivastava AK, Ram K, Asmi E, Vakkari V, Soni VK, Varaprasad V, Sarangi C (2020) What caused severe air pollution episode of November 2016 in New Delhi? Atmos Environ 222:117125
Kayes I, Shahriar SA, Hasan K, Akhter M, Kabir MM, Salam MA (2019) The relationships between meteorological parameters and air pollutants in an urban environment. Global J Environ Sci Manag 5(3):265–278
Kyrkilis G, Chaloulakou A, Kassomenos PA (2007) Development of an aggregate Air Quality Index for an urban Mediterranean agglomeration: relation to potential health effects. Environ Int 33(5):670–676
Li F, Zhou T, Lan F (2020) Relationships between urban form and air quality at different spatial scales: a case study from northern China. Ecol Ind 121:107029
Mahajan H, Juneja K (2020) Air pollution problem in Delhi. J Crit Rev 7(10):723–727
Mohan M, Kandya A (2007) An analysis of the annual and seasonal trends of air qualityindex of Delhi. Environ Monit Assess 131(1–3):267–277
Mouli PC, Kumar MP, Reddy SJ, Mohan SV (2004) Monitoring of air pollution in Indian metropolitan cities: modelling and quality indexing. Int J Environ Pollut 21(4):365–382
Olise FS, Ogundele LT, Olajire MA, Owoade OK (2020) Seasonal Variation, pollution indices and trajectory modeling of bio-monitored airborne particulate around two smelting factories in Osun State, Nigeria. Aerosol Sci Eng 4:260–270. https://doi.org/10.1007/s41810-020-00070-6
Pareek N, Sarmah P, Choudhury A (2019) Comparative analysis of weekly AQI data among selected cities of India. J Basic Appl Eng Res 6(7):396–401
Rajamanickam R, Nagan S (2018) Assessment of comprehensive environmental pollution index of Kurichi Industrial Cluster, Coimbatore District, Tamil Nadu, India—a case study. J Ecol Eng 19(1):191–199
Ravindra K, Sidhu MK, Mor S, John S, Pyne S (2016) Air pollution in India: bridging the gap between science and policy. J Hazard Toxic Radioact Waste 20(4):A4015003
Rumana HS, Sharma RC, Beniwal V, Sharma AK (2014) A retrospective approach to assess human health risks associated with growing air pollution in urbanized area of Thar Desert, western Rajasthan, India. J Environ Health Sci Eng 12(1):23
Senthilnathan T (2008) Measurements of urban ambient air quality of Chennai City. Indian J Air Pollut Control 8(1):35–47
Shannigrahi AS, Sharma R, Fukushima T (2003) Air pollution control by optimal green belt development around the Victoria Memorial monument, Kolkata (India). Int J Environ Stud 60(3):241–249
Sharma R, Kumar R, Sharma DK, Priyadarshini I, Pham BT, Bui DT, Rai S (2019) Inferring air pollution from air quality index by different geographical areas: case study in India. Air Qual Atmos Health 12(11):1347–1357
Sharma R, Kumar R, Singh PK, Raboaca MS, Felseghi RA (2020) A systematic study on the analysis of the emission of CO, CO2 and HC for four-wheelers and its impact on the sustainable ecosystem. Sustainability 12(17):6707
Singh AK, Gupta HK, Gupta K, Singh P, Gupta VB, Sharma RC (2007) A comparative study of air pollution in Indian cities. Bull Environ Contam Toxicol 78(5):411–416
Song R, Yang L, Liu M, Li C, Yang Y (2019) Spatiotemporal distribution of air pollution characteristics in Jiangsu Province, China. Adv Meteorol 2019:1–14. https://doi.org/10.1155/2019/5907673
Sorte S, Arunachalam S, Naess B, Seppanen C, Rodrigues V, Valencia A, Borrego C, Monteiro A (2019) Assessment of source contribution to air quality in an urban area close to a harbor: case-study in Porto, Portugal. Sci Total Environ 662:347–360
Spiroska J, Rahman A, Pal S (2011) Air pollution in Kolkata: an analysis of current status and interrelation between different factors. SEEU Rev 8(1):182–214
Steeneveld GJ, Klompmaker JO, Groen RJ, Holtslag AA (2018) An urban climate assessment and management tool for combined heat and air quality judgements at neighbourhood scales. Resour Conserv Recycl 132:204–217
Xu G, Jiao L, Zhang B, Zhao S, Yuan M, Gu Y, Liu J, Tang X (2016) Spatial and temporal variability of the PM2.5/PM10 ratio in Wuhan, Central China. Aerosol Air Qual Res 17(3):741–751
Yadav R, Bhatti MS, Kansal SK, Das L, Gilhotra V, Sugha A, Hingmire D, Yadav S, Tandon A, Bhatti R, Goel A (2020) Comparison of ambient air pollution levels of Amritsar during foggy conditions with that of five major north Indian cities: multivariate analysis and air mass back trajectories. SN Appl Sci 2(11):1–11
Acknowledgements
The authors are thankful to the Central Pollution Control Board (CPCB), New Delhi for archiving the air pollution data. The authors acknowledge the Department of Science and Technology (DST), Government of India, for proving fund to the Department of Geography, Vidyasagar University, Midnapore (India) to enhancing the skills of teaching and research. Author S. Ghosh and S. Dinda are grateful to the University Grants Commission (UGC) for providing a continuous research fellowship (JRF-SRF Research Fellowship) for carrying out the research at Vidyasagar University. We also extend our gratitude to the anonymous reviewers and Editors for making valuable comments and suggestion for improving the quality of the manuscript.
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Dutta, S., Ghosh, S. & Dinda, S. Urban Air-Quality Assessment and Inferring the Association Between Different Factors: A Comparative Study Among Delhi, Kolkata and Chennai Megacity of India. Aerosol Sci Eng 5, 93–111 (2021). https://doi.org/10.1007/s41810-020-00087-x
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DOI: https://doi.org/10.1007/s41810-020-00087-x