Modeling the cooling effect of urban green infrastructures with an ecosystem services approach ( case study: Tehran metropolis)

S. Malekzadeh; H.R. Jafari; R. Nazari; T. Blaschke; A. Hof; M. Karimi

Modeling the cooling effect of urban green infrastructures with an ecosystem services approach ( case study: Tehran metropolis)

محل انتشار: فصلنامه بین المللی سرمایه انسانی در مدیریت شهری، دوره: 10، شماره: 2

سال انتشار: 1404

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 51

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https://civilica.com/doc/2218215

شناسه ملی سند علمی:

JR_IJHCUM-10-2_001

تاریخ نمایه سازی: 24 فروردین 1404

چکیده مقاله:

TRACT:BACKGROUND AND OBJECTIVES: The heating of inner cities is an immense global phenomenon, and urban green spaces are crucial in mitigating this predicament. This study evaluates the cooling effects of urban green infrastructures in a dry region, specifically the Middle East by analyzing Tehran, a metropolis severely impacted by urban heating. We use advanced methodologies to estimate regulating ecosystem services.METHODS: This research employed a multi-stage methodology utilizing satellite data and in-situ measurements. Land use/land cover maps of Tehran were generated using Landsat imagery from Thematic Mapper (۲۰۰۲), Enhanced Thematic Mapper Plus (۲۰۱۲), and Operational Land Imager (۲۰۲۲), processed with geometric and radiometric corrections in ENVI ۵.۳. A supervised classification via the Super Vector Machine algorithm identified four land use categories: built-up areas, barren lands, green spaces, and water bodies. The cooling effects of these land uses, analyzed using the InVEST ecosystem service software, were assessed over the ۲۰۰۲-۲۰۲۲ period, incorporating variables such as evapotranspiration, temperature, and shading effects.FINDINGS: The results showed a decline in green spaces from ۱۳.۱% in ۲۰۰۲ to ۱۱.۹% in ۲۰۱۲ and ۱۱.۸% in ۲۰۲۲, with a projected further decline to ۱۱.۷% by ۲۰۳۲. The reduction rate was significant in the first decade, with a loss of ۷۱۷ hectares, compared to ۱۴ hectares in the second decade. An additional reduction of ۶۶ hectares is predicted over the next decade. The Urban Heat Mitigation Index was highest in the green District ۲۲ with values of ۰.۹۱, ۰.۷۹, and ۰.۶۶, respectively, and lowest in District ۱۰ with values of ۰.۲۲, ۰.۲۱, and ۰.۱۹. Projections for ۲۰۳۲ suggest that District ۲۲ will maintain the highest cooling capacity at ۰.۶۵, while District ۱۰ will remain the lowest at ۰.۱۹.CONCLUSION: This study highlights the critical relationship between urban development and green infrastructure. It particularly underscores the importance of preserving green infrastructure as a means to mitigate urban heat, with a focus on its influence on Tehran's microclimate and overall environmental quality. The findings indicate a worrying decline in green spaces, posing significant challenges for urban environmental management. This persistent loss of natural areas undermines ecological stability and urban resilience, especially in terms of heat mitigation and quality of life. Additionally, the uneven distribution of green spaces exacerbates vulnerability in specific Districts, emphasizing the pressing need for sustainable urban planning in Tehran. This study assessed past and future changes to provide valuable insights for urban decision-makers and managers.

کلیدواژه ها:

Ecosystem service modeling ، Urban heat management ، Urban Microclimate ، Urban Resilience ، Remote Sensing

نویسندگان

S. Malekzadeh

Department of Planning, Environmental Management and HSE, Alborz Campus, University of Tehran, Iran

H.R. Jafari

Department of Planning, Environmental Management and HSE, Alborz Campus, University of Tehran, Iran

R. Nazari

Department of Civil, Construction, and Environmental Engineering, University of Alabama at Birmingham, Birmingham, AL, USA

T. Blaschke

Department of Geoinformatics, University of Salzburg, Austria

A. Hof

Department of Environment and Biodiversity, University of Salzburg, Austria

M. Karimi

Department of Environmental Health Science, University of Alabama at Birmingham, Birmingham, AL, USA

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Alibakhshi, Z.; Ahmadi, M.; Farajzadeh Asl, M., (۲۰۲۰). Modeling biophysical ...
Babaeian, I.; Ansari Ghojghar, M.; Pourgholam-Amiji, M.; Parsi, E., (۲۰۲۰). ...
Balist, J.; Malekmohammadi, B.; Jafari, H.R.; Nohegar, A., Geneletti, D., ...
Bartesaghi-Koc, C.; Osmond, P.; and Peters, A., (۲۰۱۸). Evaluating the ...
Bherwani, H.; Singh, A.; Kumar, R., (۲۰۲۰). Assessment methods of ...
Bowler, D.E.; Buyung-Ali, L.; Knight, T.M.; Pullin, A.S., (۲۰۱۰). Urban ...
Chavez Jr, P. S., (۱۹۸۸). An improved dark-object subtraction technique ...
Cortinovis, C.; Geneletti, D., (۲۰۱۹). A framework to explore the ...
Deilami, K.; Kamruzzaman, M.; Liu, Y., (۲۰۱۸). Urban heat island ...
Du, H.; Song, X.; Jiang, H.; Kan, Z.; Wang, Z.; ...
Erell, E., (۲۰۰۸). The application of urban climate research in ...
Fahad, M.G.R.; Karimi, M.; Nazari, R.; Sabrin, S., (۲۰۲۱). Developing ...
Feizizadeh, B.; Blaschke, T., (۲۰۱۳). Examining urban heat island relations ...
Gasparrini, A.; Guo, Y.; Hashizume, M.; Lavigne, E.; Zanobetti, A.; ...
Hamel, P.; Bosch, M.; Tardieu, L.; Lemonsu, A.; de Munck, ...
Hu, Y.; Wang, C.; Li, J., (۲۰۲۳). Assessment of heat ...
Iran Statistical Center (۲۰۱۶) (۴ pages). (In Persian)Karimi, M.; Vant-Hull, ...
Khan, A.; Carlosena, L.; Khorat, S.; Khatun, R.; Das, D.; ...
Krayenhoff, E.S.; Broadbent, A.M.; Zhao, L.; Georgescu, M.; Middel, A.; ...
Kunapo, J.; Fletcher, T.D.; Ladson, A.R.; Cunningham, L.; Burns, M. ...
Leemans, R.; Groot, R.S.de., (۲۰۰۳). Millennium ecosystem assessment: ecosystems and ...
Li, H.; Zhao, Y.; Wang, C.; Ürge-Vorsatz, D.; Carmeliet, J.; ...
Lin, P.; Gou, Z.; Lau, S.S.Y.; Qin, H., (۲۰۱۷). The ...
Luo, J.; Fu, H., (۲۰۲۳). Constructing an urban cooling network ...
Nice, K.A.; Demuzere, M.; Coutts, A.M.; Tapper, N., (۲۰۲۴). Present ...
Norton, B.A.; Coutts, A.M.; Livesley, S.J.; Harris, R.J.; Hunter, A.M.; ...
Management and planning organization., (۲۰۲۴) (۴ pages). (In Persian)McDonald, R.; ...
Mughal, M.O.; Li, X.X.; Norford, L. K., (۲۰۲۰). Urban heat ...
Oke, T.R.; Johnson, G.T.; Steyn, D.G.; Watson, I.D., (۱۹۹۱). Simulation ...
Pezzuto, C.C.; Alchapar, N.L.; Correa, E. N., (۲۰۲۲). Urban cooling ...
Phelan, P.E.; Kaloush, K.; Miner, M.; Golden, J.; Phelan, B.; ...
Rehan, R. M., (۲۰۱۶). Cool city as a sustainable example ...
Roth, M.; Oke, T.R.; Emery, W.J., (۱۹۸۹). Satellite-derived urban heat ...
Sabrin, S.; Zech, W.C.; Nazari, R.; Karimi, M., (۲۰۲۱). Understanding ...
Sharp, R.; Douglass, J.; Wolny, S.; Arkema, K.; Bernhardt, J.; ...
Tsoka, S.; Tsikaloudaki, K.; Theodosiou, T.; Bikas, D., (۲۰۲۰). Urban ...
United Nations, Department of Economic, Social Affairs, Population Division., (۲۰۱۹). ...
USGS Landsat User Services., (۲۰۱۶). Landsat ۸ (L۸) data users ...
Voogt, J.A.; Oke, T.R., (۲۰۰۳). Thermal remote sensing of urban ...
Wang, W.; Yao, X.; Shu, J., (۲۰۲۰). Air advection induced ...
Wei, C.; Chen, W.; Lu, Y.; Blaschke, T.; Peng, J.; ...
Yan, L.; Jia, W.; Zhao, S., (۲۰۲۱). The cooling effect ...
Zarandi, S.M.; Shahsavani, A.; Nasiri, R.; Pradhan, B., (۲۰۲۱). A ...
Zardo, L.; Geneletti, D.; Pérez-Soba, M.; Van Eupen, M., (۲۰۱۷). ...
Zhou, D.; Xiao, J.; Bonafoni, S.; Berger, C.; Deilami, K.; ...
Zhou, W.; Wang, J.; Qian, Y.; Pickett, S.T.; Li, W.; ...
Zhu, Z.; Zhou, D.; Wang, Y.; Ma, D.; Meng, X., ...

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