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BY 4.0 license Open Access Published by De Gruyter Open Access August 13, 2021

Environmental noise assessment of Bhandara City in the adversity of COVID-19 pandemic: A crowdsourcing approach

  • Satish K. Lokhande EMAIL logo , Prashant F. Chopkar , Mohindra C. Jain and Alfaz Hirani
From the journal Noise Mapping

Abstract

The strict enforcement of lockdown in India and worldwide to contain the spread of the COVID-19 pandemics has brought a signiicant change in the environmental quality, particularly in cities. The study deliberates an overview of the status of the ambient noise quality of the tier-2 city Bhandara, India, for lockdown and posts lockdown circumstances. In the course of lock-down, it is unfeasible to walk out with standard instruments for onsite noise monitoring with the conventional method in such adversity. Make use of the crowdsourcing approach proves to be the best alternative for collecting noise data with the help of an android-based noise application, łNoise Tracker.ž On assessing gathered data, it ascertained that the noise levels deplete by 8.0 dB during the lockdown. Results indicated that the average noise levels in more than 80% of the locations are lowered during lock-down compared to post lockdown in Bhandara City. A signiicant reduction in average noise levels at all sites during the lockdown period attributing to limiting in the road, rail, and other traic movements. The study is an exclusive example of ordinary people from tier-2 city indulging in environmental scientiic research. The study also visualizes the noise pollution scenario of lockdown and post lockdown periods using noise maps.

References

[1] Lokhande SK, Gautam R, Dhawale SA, Jain MC, Bodhe GL. Evaluation of practical framework for industrial noise mapping: A case study. Noise Health. 2019;21(102):194-199.Search in Google Scholar

[2] Münzel T, Schmidt FP, Steven S, Herzog J, Daiber A, Sùrensen M. Environmental noise and the cardiovascular system. Journal of the American College Cardiol. 2018;71(6):688-69710.1016/j.jacc.2017.12.015Search in Google Scholar PubMed

[3] Elias BH, Abdulgafar SA, Abo SI. Efect of Noise Pollution on the Health of Technicians at Dental Laboratories in Duhok City – Kurdistan Region of Iraq. J Adv Phys. 2015;8(1):2043-2050.10.24297/jap.v8i1.1529Search in Google Scholar

[4] Stansfeld SA, Haines MM, Burr M, Berry B, Lercher P. A review of environmental noise and mental health. Noise Health. 2000;2(8):1-8.Search in Google Scholar

[5] Taneja MK, Taneja V. Role of ENT surgeons in the national program for prevention and control of deafness. Indian J Otology. 2012;18(3):119-121.10.4103/0971-7749.103436Search in Google Scholar

[6] Halperin D. Environmental noise and sleep disturbances: A threat to health?. Sleep Sci. 2014;7(4):209-212.10.1016/j.slsci.2014.11.003Search in Google Scholar PubMed PubMed Central

[7] World Health Organization. Children’s health and environment: training package for the health sector: improving the capacity to diagnose, prevent and manage paediatric diseases linked to the environment, World Health Organization. 2019. Available from https://apps.who.int/iris/handle/10665/330296 (Accessed May, 1, 2021)Search in Google Scholar

[8] Evans GW, Lepore SJ. Nonauditory efects of noise on children: A critical review. Children’s Environ. 1993;10(1):31-51.Search in Google Scholar

[9] Barber JR, Crooks KR, Fristrup KM. The costs of chronic noise exposure for terrestrial organisms. Trends Ecol Evolut. 2010;25(3):180-189.10.1016/j.tree.2009.08.002Search in Google Scholar PubMed

[10] Gettleman J, Schultz K. Modi orders 3-week total lockdown for all 1.3 billion Indians. The New York Times. 2020;24.Search in Google Scholar

[11] COVID-19 guidelines. Govt of India – ministry of home afairs. 15 April, 2020, Available from https://www.india.gov.in/sites/upload_iles/npi/iles/MHA_Revised_Consolidated_Guidelines.pdf. (Accessed May 2, 2021).Search in Google Scholar

[12] Lee HP, Garg S, Lim KM. Crowdsourcing of environmental noise map using calibrated smartphones. Appl Acoust. 2020;160:107130.10.1016/j.apacoust.2019.107130Search in Google Scholar

[13] Burke JA, Estrin D, Hansen M, Parker A, Ramanathan N, Reddy S, Srivastava MB. Participatory sensing, UCLA: Center for Embedded Network Sensing. 2006. Available from https://escholarship.org/uc/item/19h777qd (Accessed May, 1, 2021)Search in Google Scholar

[14] Fligor BJ. iPhone sound level meter app. 2010. https://www.audiologyonline.com/ask-the-experts/iphone-sound-level-meter-apps-150 (Accessed May 1, 2021).Search in Google Scholar

[15] Galster JA. 15 mobile apps to understand, prevent, measure and manage hearing loss. Audiologist Practices. 2013;4:16-19. Available from http://www.hearing.health.mil/aboutus/pressroom/featuredcontent/13-01-30/15_Mobile_Apps_to_Understand_Prevent_Measure_and_Manage_Hearing_Loss.aspx (Accessed May 2, 2021).Search in Google Scholar

[16] Zappatore M, Longo A, Bochicchio MA. Crowd-sensing our smart cities: A platform for noise monitoring and acoustic urban planning. J Commun Software Syst. 2017;13(2):53-67.10.24138/jcomss.v13i2.373Search in Google Scholar

[17] Stevens M, D’Hondt E. Crowdsourcing of pollution data using smartphones. In Workshop on ubiquitous crowdsourcing, ACM. 2010;1-4.Search in Google Scholar

[18] Shim E, Kim D, Woo H, Cho Y. Designing a sustainable noise mapping system based on citizen scientists smartphone sensor data. PloS one. 2016;11(9):e0161835.10.1371/journal.pone.0161835Search in Google Scholar PubMed PubMed Central

[19] Picaut J, Fortin N, Bocher E, Petit G, Aumond P, Guillaume G. An open-science crowdsourcing approach for producing community noise maps using smartphones. Build Environ. 2019;148:20-33.10.1016/j.buildenv.2018.10.049Search in Google Scholar

[20] Poslončec-Petrić V, Vuković V, Frangeš S, Bačić Ž. Voluntary noise mapping for smart city. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences. 2016;4:131-137.10.5194/isprs-annals-IV-4-W1-131-2016Search in Google Scholar

[21] Owayjan M, Rizkallah JP, Harfouche M, Shwairy S, Kotaich A. Pollutube: A mobile application for measurement of noise and pollution. Conference: 14th Wireless Telecommunications Symposium. 2015.Search in Google Scholar

[22] Aletta F, Oberman T, Mitchell A, Tong H, Kang J. Assessing the changing urban sound environment during the COVID-19 lock-down period using short-term acoustic measurements. Noise Mapp. 2020;7(1):123-134.10.1515/noise-2020-0011Search in Google Scholar

[23] Smith LM, Wang L, Mazur K, Carchia M, DePalma G, Azimi R, Mravca S, Neitzel RL. Impacts of COVID-19-related social distancing measures on personal environmental sound exposures. Environ Res Lett. 2020;15(10):104094.10.1088/1748-9326/abb494Search in Google Scholar

[24] Basu B, Murphy E, Molter A, Basu AS, Sannigrahi S, Belmonte M, Pilla F. Investigating changes in noise pollution due to the COVID-19 lockdown: The case of Dublin, Ireland. Sustainable Cities and Society. 2021;65:102597.10.1016/j.scs.2020.102597Search in Google Scholar

[25] Asensio C, Pavón I, De Arcas G. Changes in noise levels in the city of Madrid during COVID-19 lockdown in 2020. J Acoust Soc Amer. 2020;148(3):1748-1755.10.1121/10.0002008Search in Google Scholar PubMed PubMed Central

[26] Gevú N, Carvalho B, Fagerlande GC, Niemeyer ML, Cortês MM, Torres JC. Rio de Janeiro noise mapping during the COVID-19 pandemic period. Noise Mapp. 2021;8(1):162-171.10.1515/noise-2021-0012Search in Google Scholar

[27] Mishra A, Das S, Singh D, Maurya AK. Efect of COVID-19 lock-down on noise pollution levels in an Indian city: a case study of Kanpur. Envir Sci Pollut Res. 2021;1-13.10.21203/rs.3.rs-221634/v1Search in Google Scholar

[28] Dhole AD, Kadu PA. Study of Noise Pollution in Washim Town. Int J Eng Sci & Res Technol. 2018;7(4):137-143.Search in Google Scholar

[29] Bhandara City. Wikipedia.org. Available from https://en.wikipedia.org/wiki/Bhandara (Accessed March 1st, 2021)Search in Google Scholar

[30] Noise Tracker. Android application for noise monitoring. Available from https://play.google.com/store/apps/details?id=appinventor.ai_noisedatabase_aid.Noise_Meter&hl=en_IN&gl=US (Accessed March 1st, 2021)Search in Google Scholar

[31] Lokhande SK, Dhawale SA, Pathak SS, Gautam R, Jain MC, Bodhe GL. Appraisal of noise level dissemination surrounding mining and industrial areas of Keonjhar, Odisha: a comprehensive approach using noise mapping. Archiv Acoust. 2017;42(3):423-432.10.1515/aoa-2017-0044Search in Google Scholar

[32] Manwar V, Mandal BB, Pal AK. Application of noise mapping in an Indian opencast mine for efective noise management. In: 12th ICBEN Congress on Noise as a Public Health Problem. 2017;18-22.10.4103/1463-1741.189246Search in Google Scholar PubMed PubMed Central

[33] Lokhande SK, Motwani DM, Dange SS, Jain MC. Abatement of traffic noise pollution on educational institute and visualization by noise maps using computational software: a case study. In: Sustainable Communication Networks and Application, Springer. Singapore; 2021:93 – 103.10.1007/978-981-15-8677-4_8Search in Google Scholar

[34] Alsaif KA, Foda MA. Development of Noise Maps of Great City of Riyadh by Using LimA, Int J Envir Sci Develop. 2015;6(8):581 – 84.10.7763/IJESD.2015.V6.661Search in Google Scholar

Received: 2021-03-09
Accepted: 2021-06-17
Published Online: 2021-08-13

© 2021 Satish K. Lokhande et al., published by De Gruyter

This work is licensed under the Creative Commons Attribution 4.0 International License.

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