Spatial Analysis of Physical Resilience of Shiraz Metropolitan in Dealing with Flood Risk

Nasr, Tahereh; Abdolazimi, Hadi

doi:10.22034/hyd.2022.52006.1645

Document Type : پژوهشی

Authors

Tahereh Nasr ¹
hadi Abdolazimi ²

¹ Associate Professor, Department of Architecture, Shiraz Branch, Islamic Azad University, Shiraz, Iran.

² Assistant Professor, Department of Remote Sensing and GIS, Shiraz Branch, Islamic Azad University, Shiraz, Iran

https://doi.org/10.22034/hyd.2022.52006.1645

Abstract

Understanding the levels of urban resilience and planning to reduce the effects of various risks has a key role in managing urban crises. The purpose of this research is to identify areas with different resilience in the eleven districts of the Shiraz metropolis in order to deal with the flood crisis. The current research is based on the Fuzzy-AHP method and uses the criteria of the level of relief (sub-criteria of the density of firefighting centers, emergency, medical centers, hospitals, law enforcement, and Red Crescent), the state of residence (sub-criteria of the density of temporary accommodation places, population density and spaces Occupied), access status (sub-criteria of the density of arterial type and width of passages), worn texture and equipment placement status, identifies areas with different levels of resilience (weak, medium, good and very good). Examination of the level of relief showed that there is a weakness of relief in areas far from the city center. Therefore, it is suggested to increase the emergency services in the neighborhoods and areas far from the center of Shiraz in these places. In terms of criteria and sub-criteria examined in this research, weaker resilience was generally seen in the east and northwest of the city. The results of this research can be considered by executive managers in the phase of crisis management prevention and preparation.

Keywords

20.1001.1.23833254.1401.9.32.7.5

References

Abdolazimi, H., Shahinifar, H.R., Noroozi, H., and Emtehani, M.R. (2022). Site selection of emergency drinking water supply tanks in post-earthquake conditions, a case study of Shiraz. Vol.11, Issue 3.129-148. [In Persian]. https://dx.doi.org/10.22111/jneh.2022.37402.1762.

Abdolazimi, H., Roshun, H., S.A, Shamsniya, and Shahinifar, H.R. (2021). Identification of Potential Areas to Flood Inundation in Shiraz City Using TOPSIS-GIS. Hydrogeomorphology, Volume 7, Issue 25, Number 25, 139-159. [In Persian]. https://dx.doi.org/10.22034/hyd.2021.43413.1565.

Ahamed, T.N., Rao, K.G., Murthy, J. (2000): GIS-based fuzzy membership model for crop-land suitability analysis. Agricultural systems 63, 75-95. https://doi.org/10.1016/S0308521X(99)00036-0.

Amirahmadi A., Keramati S., and Ahmadi, T. (2012). Micro zoning of Flood Hazard in Neyshabur to Urban Development. Volume 2, Number 7, 91-110. 20.1001.1.22285229.1390.2.7.6.4. [In Persian]

https://www.sid.ir/en/journal/ViewPaper.aspx?id=303393.

Arkhodi, M., Boroumand, R., and Akbari, E. (2020). Explaining the resilience of rural areas against natural hazards with emphasis on the flood. Journal of Natural Environmental Hazards, Volume 9, Issue 23, 151-172. [In Persian] https://dx.doi.org/10.22111/jneh.2019.30067.1525.

Asadafrooz, A., Motedayen, H., Masnavi, M.R., and Mansoori, S.A. (2020). Shiraz Environmental Resilience of the March 2019 Flood Hazards; through Landscape Approach, Systems Theory, and DPSIR Model. Environmental Hazard Management. Volume 7, Issue 1, 55-75. [In Persian]

https://dx.doi.org/10.22059/jhsci.2020.301219.556.

Eghbali, M., Motevali, S. Janbaz Ghobadi, G.R., Gholami, S. (2021). The resilience of Border Cities Against Floods Case Study: Border City of Mahmudabad. Vol. 9, No.3. [In Persian]. http://dor.net/dor/20.1001.1.23454512.1400.9.3.1.7.

Esmaili, R., Ghorayshvandi, M., and Jokar Sarhangi, E. (2019). The Identification and Ranking of Flood-Prone Areas in the Alluvial Fans, North of Izeh, Khuzestan Province. Hydromorphology, Volume 5, Issue 17, serial number 17, 163-183. [In Persian]. https://hyd.tabrizu.ac.ir/article_8609.html?lang=en#:~:text=20.1001.1.23833254.1397.5.17.9.9

Ghanbari, A., Zolfi, A. (2015). Assessment of urban vulnerability to earthquakes with emphasis on urban crisis management (a case study of Kashmar). Journal of Spatial Analysis of Environmental Hazards, 1(4), pp 59-74, [In Persian]. http://jsaeh.khu.ac.ir/article-1-2460-en.html.

Khaledi Sh., Ghahroodi Tali M., Farahmand Gh. (2019). Measuring and Evaluating the Resilience of Urban Areas against Urban Flooding (Case Study: Urmia City). SUSTAINABLE DEVELOPMENT OF GEOGRAPHICAL ENVIRONMENT, 1, 1-15. [In Persian]. https://dx.doi.org/10.52547/sdge.2.3.169.

Madadi, A., Piroozi, E., and Aghayari, L. (2019). Flood Hazard Zonation by Combining SCS-CN and WLC Methods (Case study: Khiyave Chay Meshkinshahr Basin). Hydrogeomorphology, Volume 5, Issue 17, Serial Number 17, 85-102. [In Persian]. https://dorl.net/dor/20.1001.1.23833254.1397.5.17.5.5.

Nasr, T. (2019). The Significance of Future Studies in Urban Sustainable Development Scenarios (Case Study: Shiraz City). International Journal of Urban and Rural Management, 18(55), 189-208. HTTP://IJURM.IMO.ORG.IR/BROWSE.PHP?A_ID=2584&SID=1&SLC_LANG=FA [In Persian]. HTTP://IJURM.IMO.ORG.IR/BROWSE.PHP?A_ID=2584&SID=1&SLC_LANG=FA.

Noori, M., Rezaei, M.R., and Asgari, E. (2020). Structural-Interpretive Modeling Factors Affecting the Physical and Social Resilience of Shiraz to Natural Disasters of Flood. Urban Social Geography, 7(2), 149-172. [In Persian]. DOI: 10.22103/JUSG.2020.2024.

Pourmohammadi, M.R., Mosayebzadeh A. (2009). The Vulnerability of Iranian Cities against Earthquake and the Role of Neighborhood Participation in Providing Assistance for Them. GEOGRAPHY AND DEVELOPMENT. Volume 6, Number 12Y 117-144. [In Persian].

https://gdij.usb.ac.ir/article_1246.html.

Rezaei Moghaddam, MH., Hejazi, A., Valizadeh Kamran, K., and Rahimpour, T. (2020). Flood Analysis of Subbasins Using WASPAS Model (Case Study: Aland Chai Basin, Northwest of Iran). Hydrogeomorphology, Volume 7, Issue 24, December 2020, 83-106. [In Persian]. https://dx.doi.org/10.22034/hyd.2020.39815.1534

Shamai, A., Mirzazadeh, H. (2019). Spatial analysis of Tabriz region’s resilience against the earthquake. Journal of Natural Environmental Hazards, 8(20), pp 245-266, [In Persian].

DOI:10.22111/JNEH.2019.25449.1415.

Zayyari, K., Ebrahimipoor, M., Pourjafar, M.R., and Salehi, E. 2020. Explaining

Strategies for Increasing Physical Resilience against Flood Case Study: Cheshmeh Kile River, Tonekabon River. Journal Sustainable City, 3: 89-105. [In Persian].

https://dx.doi.org/10.22034/jsc.2019.186626.1014.

Baud, I., Sridharan, N., and Peffeffer, K. (2008). Mapping urban poverty for local governance in an Indian mega-city: The case of Delhi. Urban Studies, 45(7), 1385-1412.

https://doi.org/10.1177%2F0042098008090679.

Bierman, S.M. (1997). The strategic identification of suitable land for low-income residential development. South African Geographical Journal, 79(3), 188-194.

Carsjens, G.J., and Ligtenberg, A. (2007). A GIS-based support tool for sustainable spatial planning in metropolitan areas. Landscape and Urban Planning, 80(1-2), 72-83.

https://doi.org/10.1016/j.landurbplan.2006.06.004.

Farhadi, H., Esmaeily, A., Najafzadeh, M., (2022). Flood monitoring by integration of Remote Sensing technique and Multi-Criteria Decision Making method. Computers & Geosciences 160, 105045. https://doi.org/10.1016/j.cageo.2022.105045.

Gao, M., Wang, Z., and Yan, H. (2022). Review of Urban Flood Resilience: Insights from Scientometric and Systematic Analysis. International Journal of Environmental Research and Public Health, Res. Public Health, 1-19, 8837. https://doi.org/10.3390/ ijerph19148837.

Garschagen, M. (2011). Resilience and organizational institutionalism from a cross-cultural perspective: an exploration based on urban climate change adaptation in Vietnam, Natural Hazards, 67(1), pp 25-46.

DOI: 10.1007/s11069-011-9753-4.

Li, D.; Zhu, X.; Huang, G.; Feng, H.; Zhu, S.; Li, X. (2022). A hybrid method for evaluating the resilience of urban road trafﬁc network under ﬂood disaster: An example of Nanjing, China. Environ. Sci. Pollut. Res, 29, 46306–46324.

Fernando, M.P. (2016). Flood resilience: A new paradigm for urban design / Resiliencia a inundaciones: nuevo paradigma para el diseño urbano. http://dx.doi.org/10.14718/RevArq.2016.18.2.8.

Moradpour, N. Pourahmad, A. Hataminejad, and H. Sharifi, A. (2022). An overview of the state of urban resilience in Iran. International Journal of Disaster Resilience in the Built Environment.

http://dx.doi.org/10.1108/IJDRBE-01-2022-0001.

Reinhard, P. (2020). Quantifying resilience in hydraulic engineering: Floods, flood records, and resilience in urban areas. WIREs Water, 7. https://doi.org/10.1002/wat2.1431.

Su, C.-M., Chang, K.-Y., Cheng, C.-Y., (2012). Fuzzy decision on optimal collision avoidance measures for ships in vessel traffic service. Journal of Marine Science and Technology 20, 5. https://jmstt.ntou.edu.tw/journal/vol20/iss1/5.

Zarea, N., and Talebbeydokhti, N. (2018). Policies and governance impact maps of ﬂoods on metropolitan Shiraz (the ﬁrst step toward resilience modeling of the city). International Journal of Disaster Risk Reduction 28 298–317. https://doi.org/10.1016/j.ijdrr.2018.03.003.

Zhang, J. Wang, H., Huang, J., Sun, D., and Liu, G. (2022). Evaluation of Urban Flood Resilience Enhancement Strategies—A Case Study in Jingdezhen City under 20-Year Return Period Precipitation Scenario. International Journal of Geo-Information. 11, 285. https://doi.org/10.3390/ijgi11050285.

Wanga, Y., Liua, Z., Wanga, G, and Xueb, W. (2021). Cellular automata-based framework for evaluating mitigation strategies of sponge city. Science of the Total Environment, 796, 1. https://doi.org/10.1016/j.scitotenv.2021.148991.

Spatial Analysis of Physical Resilience of Shiraz Metropolitan in Dealing with Flood Risk

References

References

Arkhodi, M., Boroumand, R., and Akbari, E. (2020). Explaining the resilience of rural areas against natural hazards with emphasis on the flood. Journal of Natural Environmental Hazards, Volume 9, Issue 23, 151-172. [In Persian] https://dx.doi.org/10.22111/jneh.2019.30067.1525.

Zayyari, K., Ebrahimipoor, M., Pourjafar, M.R., and Salehi, E. 2020. Explaining

Volume 9, Issue 32 - Serial Number 32November 2022Pages 152-129

Volume 9, Issue 32 - Serial Number 32
November 2022
Pages 152-129