Air Pollution Assessment in the Main Roads of Surabaya-Indonesia During Post Covid-19

Authors

  • Ida MUNFARIDA UIN Sunan Ampel Surabaya, Indonesia
  • Vera ARIDA UIN Sunan Ampel Surabaya, Indonesia

DOI:

https://doi.org/10.38142/ijesss.v4i3.540

Keywords:

Carbon Monoxide, Covid-19, Main Roads, Transportation, Vehicles

Abstract

An increase in population in Surabaya City may have an impact on the activities of industrial, trade and service centres. One of the most important supporting facilities is the transportation sector. The use of fuel in transportation is the main cause of the impact on air quality. This study aims to evaluate the concentration of carbon monoxide on main roads in Surabaya City and to analyse the effect of vehicles on carbon monoxide on the main roads in the city of Surabaya on covid-19 transition. The research was conducted in the field by directly measuring the concentration of carbon monoxide and the number of vehicles on three main roads in Surabaya. The results of carbon monoxide measurements and the number of vehicles were analysed using linear regression. This research reveals that in general, the carbon monoxide concentration has exceeded the air quality standard based on Government Regulation no. 22 of 2021. This result indicates that many people have travelled for various activities in the city after the covid-19 outbreak. In addition, based on the results of the linear regression test, it is known that there is a significant effect of the number of vehicles on the carbon monoxide concentration (?<0.05).

Downloads

Download data is not yet available.

References

Al-Obaidy, A.H.M., Jasim, I.M. and Al-Kubaisi, A.R. (2019). Air Pollution Effects in Some Plant Leave Morphological and Anatomical Characteristics within Baghdad City. Engineering and Technology Journal 37(1):84-89.

Diener, A. and Mudu, P. (2021). How can vegetation protect us from air pollution? A critical review on green spaces' mitigation abilities for air-borne particles from a public health perspective - with implications for urban planning. Science of The Total Environment 796(1):1-19.

Egberts, V., van Schaik, G., Brunekreef, B. and Hoek, G. (2019). Short-term effects of air pollution and temperature on cattle mortality in the Netherlands. Preventive Veterinary Medicine 168(1), 1–8.

Huang, J., Pan, X., Guo, X. and Li, G. (2018). Impacts of Air Pollution Wave on Years of Life Lost: A Crucial Way to Communicate the Health Risks of Air Pollution to the Public. Environment International 113(1):42-49.

Jayaratne, R., Thai, P., Christensen, B., Liu, X., Zing, I., Lamont, R., Dunbabin, M., Dawkins, L., Bertrand, L. and Morawska, L. (2021). The effect of cold-start emissions on the diurnal variation of carbon monoxide concentration in a city centre. Atmospheric Environment 245(1):1-9.

Junior, D.P.M., Bueno, C. and da Silva, C.M. (2022). The Effect of Urban Green Spaces on Reduction of Particulate Matter Concentration. Bulletin of Environmental Contamination Toxicology 108(6):1104–1110.

Kruize, H., van der Vliet, N., Staatsen, B., Bell, R., Chiabai, A., Muiños, G., Higgins, S., Quiroga, S., Martinez-Juarez, P., Aberg Yngwe, M., Tsichlas, F., Karnaki, P., Lima, M.L., García de Jalón, S., Khan, M., Morris, G. and Stegeman, I. (2019). Urban Green Space: Creating a Triple Win for Environmental Sustainability, Health, and Health Equity through Behavior Change. International Journal of Environmental Research and Public Health 16(22):4403-4425.

Kurniawati, I. D., Nurullita, U. and Mifbakhuddin, M. (2017). Indikator Pencemaran Udara Berdasarkan Jumlah Kendaraan Dan Kondisi Iklim (Studi di Wilayah Terminal Mangkang dan Terminal Penggaron Semarang). Jurnal Kesehatan Masyarakat Indonesia 12(2):19-24.

Mahriyar, M. Z. and Rho, J. H. (2014). The Compact City Concept in Creating Resilient City and Transportation System in Surabaya. Procedia - Social and Behavioral Sciences 135(1), 41–49.

Munfarida, I., and Sofyan, A. (2019). Effect of gaseous pollutant on vegetable crops and its controlling. Paper presented at the International Conference on Advances in Civil and Environmental Engineering (ICAnCEE 2018). Bali, Indonesia. October 2018.

Nevers, N. D. (2004). Air Pollution Control Engineering. Waveland Press, Inc. 612 pp.

Pramono, S. (2019). Evaluasi Kebijakan Pembangunan Frontage Roads Dalam Mengurangi Kemacetan Lalu Lintas Di Kota Surabaya. Jurnal Ilmiah Manajemen Publik dan Kebijakan Sosial 3(2):358-373.

Pratama, D. S., Munfarida, I. and Setyowati, R. D. N. (2022). Analisis Konsentrasi Karbon Monoksida Di Kawasan Aloha Sidoarjo Secara Roadside. Envirotek Jurnal Ilmiah Teknik Lingkungan 14(1):33–38.

Pratiwi, A. and Zaenab, Z. (2020). Faktor - Faktor Yang Mempengaruhi Kepadatan Kendaraan Dengan Kandungan Karbon Monoksida (CO) Di Kota Makassar Tahun 2019. Sulolipu: Media Komunikasi Sivitas Akademika Dan Masyarakat 20(1):35-41.

Singh, A. (2020). Impact of Air Pollutants on Plant Metabolism and Antioxidant Machinery. In: Environmental Chemistry for a Sustainable World. (ed. E. Lichtfouse, J. Schwarzbauer and D. Robert). Springer Nature, Switzerland. pp. 57-86.

Stevens, C.J., Bell, J.N.B., Brimblecombe, P., Clark, C.M., Dise, N.B., Fowler, D., Lovett, G.M. and Wolseley, P. A. (2020). The impact of air pollution on terrestrial managed and natural vegetation. Philosophical Transactions Royal Society A 378(2183):1-18.

Tang, S., Yan, Q., Shi, W., Wang, X., Sun, X., Yu, P., Wu, J. and Xiao, Y. (2018). Measuring the impact of air pollution on respiratory infection risk in China. Environmental Pollution 232(1):477–486.

Downloads

Published

2023-05-31

Issue

Vol. 4 No. 3 (2023): International Journal of Environmental, Sustainability, and Social Science (May - June 2023)

Section

Articles

License

Copyright (c) 2023 Ida MUNFARIDA, Vera ARIDA

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Creative Commons Attribution-NonCommercial 4.0 International License.