Impacts of subway development on air pollution and vegetation in Tabriz and Shiraz, Iran
,
Abstract
Introduction: Presently, air pollution is viewed as a critical environmental challenge that has deleterious effects on human health and ecosystems. The subway system is extensively developed in numerous countries with the
objective of minimizing traffic congestion and pollutant emissions. The aim of the present study is to explore the impact of metro activities on air pollution and, subsequently, urban vegetation inside the two metropolises of Tabriz and Shiraz in comparison to prior years.
Materials and methods: To assess air quality before and after the establishment of the metro, we collected average data for Particulate Matters less than 2.5 µm (PM2.5), Particulate Matters less than 10 µm (PM10), SO2,
NO2, O3, and CO, as well as the Air Quality Index (AQI), retrieved frommonitoring stations in Tabriz and Shiraz between 2014 and 2019. We used the average of the Normalized Difference Vegetation Index (NDVI) calculated by the Landsat 8 satellite in the second phase in order to numerically determine the status of urban vegetation across two timeframes.
Results: Preliminary evidence revealed that the average concentration of pollutants in Tabriz, excluding NO2, fell after the launch of the metro system in 2016. Simultaneously, several pollutants, including O3 , NO2, and PM2.5, and consequently the AQI, increased following the subway's establishment in Shiraz in 2017. Moreover, it was observed that decreasing emissions in Tabriz amplified vegetation, whereas reducing air quality in Shiraz lowered the NDVI values.
Conclusion: Although it appears that the metro's operation improved environmental conditions in Tabriz, a similar outcome was not evident in Shiraz. Therefore, it is suggested that future studies consider meteorological variables whenever addressing the metro's efficiency.
restrictions reduced air pollution: evidence from
prefecture-level cities of China. Environ Sci
Pollut Res Int. 2021;28(3):3106-20.
2. Khoshmanesh B, Nasr S. The impact
of urban transportation on air pollution and the
role of subway inits control (Tehran, Beijing,
Barcelona). Journal of Fundamental and Applied
Sciences 2016 Aug 22;8(2):1700-8.
3. Ghorani-Azam A, Riahi-Zanjani B,
Balali-Mood M. Effects of air pollution on human
health and practical measures for prevention in
Iran. Journal of research in medical sciences: the
official journal of Isfahan University of Medical
Sciences. 2016;21:65.
4. Rad AK, Shamshiri RR, Azarm H,
Balasundram SK, Sultan M. Effects of the
COVID-19 Pandemic on Food Security and
Agriculture in Iran: A Survey. Sustainability. 2021;13(18):10103.
5. Atash F. The deterioration of urban
environments in developing countries: Mitigating
the air pollution crisis in Tehran, Iran. Cities.
2007;24(6):399-409.
6. Hosseinpoor AR, Forouzanfar MH,
Yunesian M, Asghari F, Naieni KH, Farhood D.
Air pollution and hospitalization due to angina
pectoris in Tehran, Iran: a time-series study.
Environ Res. 2005;99(1):126-31.
7. Soleimani Z, Darvishi Boloorani A,
Khalifeh R, Teymouri P, Mesdaghinia A, Griffin
DW. Air pollution and respiratory hospital
admissions in Shiraz, Iran, 2009 to 2015.
Atmospheric Environment. 2019;209:233-9.
8. Soleimani Z, Darvishi Boloorani A,
Khalifeh R, Griffin DW, Mesdaghinia A.
Short-term effects of ambient air pollution and
cardiovascular events in Shiraz, Iran, 2009 to 2015.
Environ Sci Pollut Res Int. 2019;26(7):6359-67.
9. Miri M, Derakhshan Z, Allahabadi A,
Ahmadi E, Oliveri Conti G, Ferrante M, et al.
Mortality and morbidity due to exposure to
outdoor air pollution in Mashhad metropolis,
Iran. The AirQ model approach. Environ Res.
2016;151:451-7.
10. Karimi B, Samadi S. Mortality and
hospitalizations due to cardiovascular and
respiratory diseases associated with air pollution
in Iran: A systematic review and meta-analysis.
Atmospheric Environment. 2019;198:438-47.
11. He X, Jiang S. Effects of vehicle purchase
restrictions on urban air quality: Empirical
study on cities in China. Energy Policy.
2021;148:112001.
12. Mangones SC, Jaramillo P, Rojas NY,
Fischbeck P. Air pollution emission effects
of changes in transport supply: the case of
Bogota, Colombia. Environ Sci Pollut Res Int.
2020;27(29):35971-8.
13. Mao R, Bao Y, Duan H, Liu G. Global
urban subway development, construction
material stocks, and embodied carbon emissions.
Humanities and Social Sciences Communications.
2021;8(1):1-1.
14. Sun C, Zhang W, Luo Y, Xu Y. The
improvement and substitution effect of
transportation infrastructure on air quality: An
empirical evidence from China's rail transit
construction. Energy Policy. 2019;129:949-57.
15. Li S, Liu Y, Purevjav A-O, Yang L. Does
subway expansion improve air quality? Journal
of Environmental Economics and Management.
2019;96:213-35.
16. Zheng M, Guo X, Liu F, Shen J.
Contribution of Subway Expansions to Air
Quality Improvement and the Corresponding
Health Implications in Nanjing, China. Int J
Environ Res Public Health. 2021;18(3):969.
17. Guo X, Sun W, Yao S, Zheng S. Does
high-speed railway reduce air pollution along
highways? Evidence from China. Transportation
Research Part D: Transport and Environment.
2020 Dec 1;89:102607.
18. Lu H, Zhu Y, Qi Y, Yu J. Do Urban Subway
Openings Reduce PM2.5 Concentrations? Evidence
from China. Sustainability. 2018;10(11):4147.
19. Xiao, Li B, Li Q, An L, Cheng S. The
effects of subway openings on air quality:
evidence from China. Environ Sci Pollut Res Int.
2021;28(46):66133-57.
20. Wei H. Impacts of China's national
vehicle fuel standards and subway development
on air pollution. Journal of Cleaner Production.
2019 Dec 20;241:118399.
21. Zheng S, Zhang X, Sun W, Wang J. The effect of a new subway line on local air quality: A
case study in Changsha. Transportation Research
Part D: Transport and Environment. 2019;68:26-
38.
22. Ma L, Graham DJ, Stettler ME. Air
quality impacts of new public transport provision:
A causal analysis of the Jubilee Line Extension
in London. Atmospheric Environment. 2021 Jan
15;245:118025.
23. Abdullah Kaviani R, Mohsen S, Mehdi Z.
The impact of COVID-19 on air pollution in Iran
in the first and second waves with emphasis on
the city of Tehran. Journal of Air Pollution and
Health. 2020;5(3).
24. Rad AK, Shariati M, Naghipour A.
Analyzing relationships between air pollutants
and Covid-19 cases during lockdowns in Iran
using Sentinel-5 data. Journal of Air Pollution
and Health. 2021;6(3):209-24.
25. Vafa-Arani H, Jahani S, Dashti H, Heydari
J, Moazen S. A system dynamics modeling for
urban air pollution: A case study of Tehran, Iran.
Transportation Research Part D: Transport and
Environment. 2014;31:21-36.
26. Vafa-Arani H, Jahani S, Dashti H, Heydari
J, Moazen S. A system dynamics modeling for
urban air pollution: A case study of Tehran, Iran.
Transportation Research Part D: Transport and
Environment. 2014;31:21-36.
27. Kaviani Rad A, Zarei M, Pourghasemi
HR, Tiefenbacher JP. Chapter 27 - The COVID-19
crisis and its consequences for global warming
and climate change. In: Pourghasemi HR, editor.
Computers in Earth and Environmental Sciences:
Elsevier; 2022. p. 377-85
| Files | ||
| Issue | Vol 7 No 2 (2022): Spring 2022 | |
| Section | Original Research | |
| DOI | https://doi.org/10.18502/japh.v7i2.9596 | |
| Keywords | ||
| Air pollution; Subway; Vegetation ; Tabriz; Shiraz | ||
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