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Manuscript ID : JEST-2203-5657 (R1) Visit : 133 Page: 121 - 136

10.30495/jest.2023.66753.5657

Article Type: Original Research

Analysis of the Physical-Spatial Resilience Pattern Affected by Environmental Hazards in Tehran Metropolis (Case study: Comparative Analysis between of Regions 2 and 12)

Subject Areas : Sustainable Development

Karim Hosainzadeh dalir 1 , elahe bigdeli 2 , Bakhtyar Ezatpanah 3

1 - Professor, Department of Geography and Urban Planning, Islamic Azad University, Marand Branch, Marand, Iran. *(Corresponding Author)
2 - PhD student in Urban Planning, Islamic Azad University, Marand Branch, Marand, Iran.
3 - Assistant Professor, Department of Geography and Urban Planning, Islamic Azad University, Marand Branch, Marand, Iran.

Received: 2022-03-28 Accepted : 2022-07-05 Published : 2022-08-23

Keywords: Imperialist Competitive Algorithm, Physical, Regions 2 and 12, resilience, spatial and social factors,

Abstract :

Background and Objective: In Academic literature has recently emphasized that why urban resilience is different from urban sustainability. Urban policymakers, on the other hand, use the terms almost interchangeably. In this study by analyzing the pattern of physical-spatial resilience; Factors affecting environmental hazards such as earthquakes, subsidence, etc. are studied in areas 2 and 12 of Tehran. Material and Methodology: This study is an applied research that has been done with case-analysis method and quantitative approach. Due to the nature of the data is descriptive. To achieve the objectives of research and analysis of physical-spatial resilience pattern affected by environmental hazards in Tehran metropolis including subsidence and earthquake, the dimensions studied in 13 indicators including base price (square meters), material, construction year, building age, building skeleton, number of floors , Degree of concentration or dispersion of residential land use, grain size, permeability, total area of ​​uses (green and open space) and area of ​​residential land use in spatial and physical part) and (degree of concentration or dispersion of population, residential clusters and open and green spaces for population based The majority of residents in the neighborhoods were extracted for the geographical direction of population distribution in the social sector (based on land use studies of the current situation). To evaluate and analyze spatial and social patterns, the colonial competition algorithm in Matlab a2019 software environment and to spatialize the studied indicators, the method (Tracking Analyst Tools) in the network analysis process (Network Analyst Tools) in ArcGIS software environment has been used. Findings: Due to the location of District 12 in the historical context and the concentration and density of the population in the focal axes with regional performance, it shows more vulnerability. In relation to the criteria of population density, granulation as well as the skeletal condition of buildings; Overall, Zone 2 shows a better situation. Although the population density in both zones is the same despite the larger population and size of Zone 2, it shows lower resilience due to the flood of floating population visiting and living in Zone 12. Discussion and Conclusion: Due to the erosion of buildings and low space permeability, the pattern of spatial distribution of the population and the factors affecting the physical-spatial ruptures in Zones 2 and 12, the results show that the pattern of distribution and fracture rupture in neighborhoods are different in Zone 12. Indicates a more unstable situation.

References:


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  28. Sun, H., Zhen, F., & Xie, Z. (2021) Urban resilience assessment based on contradiction between supply and demand of the daily activity–environment system: A case study on Nanjing, China. Science of The Total Environment, Vol. 765, No. 14, pp.45-67.
    29.

 

 

 

 

_||_

  1. Arvin, M., Faraji, A., Bazrafkan, S. (2018) Study of Social Capital Effect on Earthquake Disaster Management with Emphasis on Resiliency (Case: Tehran City Region 9). Social Capital Management, Vol. 5, No. 1, pp. 1-24. (In Persian)
    2.
  2. Bazgeer, S., Firoozi, Z., Shamsipour, A., Moghbel, M. (2019) Spatial Analysis of Environmental Conditions for Urban Agriculture in Tehran Metropolis (Case Study: District 5). Geographical Urban Planning Research (GUPR), Vol. 7, No. 1, pp. 111-125. (In Persian)
    3.
  3. Ebrahimzadeh, Issa and Ismailnejad, Morteza (2017) Climatic Refugees the Challenge of the Future of Regional Developments (Case Study: South Khorasan), Geography and Development Quarterly, Vol. 15, No 48, pp. 1-18. (In Persian)
    4.
  4. Ainuddin, S., & Routray, J. K. (2012) Community resilience framework for an earthquake prone area in Baluchistan, International Journal of Disaster Risk Reduction, Vol. 2, No. 6, pp. 25-36.
    5.
  5. Cai, Heng., Lam, Nina S.N., Qiang, Yi., Zou, Lei, Correll, Rachel M., Mihunov, V. (2018) A Synthesis of Disaster Resilience Measurement Methods and Indices, International Journal of Disaster Risk Reduction, Vol. 31, No. 6, pp. 844-855.
    6.
  6. Chelleri, L., & Baravikova, A. (2021) Understandings of urban resilience meanings and principles across Europe. Cities, Vol. 108, No.10, pp.29-85.
    7.
  7. Jalalian, I. (2019) Assessment of Structural-Natural Resilience of Urban Land Use Case Study: Tehran Metropolitan Area 4. Sustainable city, Vol. 1, No. 4, pp. 109-122. (In Persian)
    8.
  8. Sasanpour F, ahangari N, hajinejad S. (2017) Evaluation of the urban resilience against natural hazards in 12 region of Tehran Metropolis, jsaeh, Vol. 4, No. 3, pp. 85-98. (In Persian)
    9.
  9. Das, S. (2019) Geospatial mapping of flood susceptibility and hydro-geomorphic response to the floods in Ulhas basin, India. Remote Sensing Applications: Society and Environment, Vol. 14, No.3, pp. 60-74.
    10.
  10. Gralepois, M. (2020) What Can We Learn from Planning Instruments in Flood Prevention? Comparative Illustration to Highlight the Challenges of Governance in Europe. Water, Vol.12, No. 6, pp.18-41.
    11.
  11. Hawley, R. J., Bledsoe, B. P., Stein, E. D., & Haines, B. E. (2012) Channel Evolution Model of Semiarid Stream Response to Urban‐Induced Hydro modification 1, JAWRA Journal of the American Water Resources Association, Vol. 48, No.4, pp. 722-744.
    12.
  12. Jabareen, Y. (2013) Planning the resilient city: Concepts and strategies for coping with climate change and environmental risk. Cities, Vol. 31, No. 20, pp. 220-229.
    13.
  13. Kamrholm, A., Mechler, R., Mochizuki, J., Kunreuther, H., Bayer, J., Hanger, S., ... & Egan, C. (2014) Operationalizing resilience against natural disaster risk: opportunities, barriers, and a way forward. White Paper, Zurich Flood Resilience Alliance.
    14.
  14. Lechner, S., Jacometti, J., McBean, G., & Mitchison, N. (2016) Resilience in a complex world–Avoiding cross-sector collapse. International Journal of Disaster Risk Reduction, Vol. 19, No. 4, pp. 84-91.
    15.
  15. León, J., & March, A. (2014) Urban morphology as a tool for supporting tsunami rapid resilience: A case study of Talcahuano, Chile. Habitat international, Vol. 43, No. 21, pp. 250-262.
    16.
  16. Madzharov, S., (2013) the chalets of the future and the increasing significance of crisis management, university of Illinois Press. Retrieved from: https://www.longdom.org/.../the impact-of-strategic planning-on-crisis.
    17.
  17. Meng, M., Dabrowski, M., & Stead, D. (2020) Enhancing Flood Resilience and Climate Adaptation: The State of the Art and New Directions for Spatial Planning. Sustainability, Vol. 12, No.19, pp.64-78.
    18.
  18. Parizadi, T., shaikholeslami, A., karimi razakani, A. (2019) Analysis of the state of urban resilience against natural hazards (Case Study: Baqer-shahr City), Vol. 10, No. 37, pp. 41-54. (In Persian)
    19.
  19. Pashapour, H., pourakrami, M. (2018) Measuring Physical Dimensions of Urban Resilience in The Face of the Natural Disasters (Earthquake) (Case Study: Tehran's 12th District). Journal of Studies of Human Settlements Planning, Vol. 12, No. 4, pp. 985-1002. (In Persian)
    20.
  20. Mitchell, T., & Harris, K. (2012) Resilience: A risk management approach. ODI background note, 1-7.
    21.
  21. Morelli, S., Battistini, A., & Catani, F. (2014) Rapid assessment of flood susceptibility in urbanized rivers using digital terrain data: Application to the Arno river case study (Firenze, northern Italy). Applied Geography, Vol. 54, No. 13, pp. 35-53.
    22.
  22. Morelli, S., Battistini, A., & Catani, F. (2014) Rapid assessment of flood susceptibility in urbanized rivers using digital terrain data: Application to the Arno river case study (Firenze, northern Italy). Applied Geography, Vol. 54, No.13, pp. 35-53.
    23.
  23. Usamah, M., Handmer, J., Mitchell, D., & Ahmed, I. (2014) Can the vulnerable be resilient? Co-existence of vulnerability and disaster resilience: Informal settlements in the Philippines. International journal of disaster risk reduction, Vol. 10, No. 33, pp. 178-189.
    24.
  24. Werchoch, V. (2012) Evaluation of multifunctional indicators to measure earthquake resilience in urban areas: A new literature review. International journal of disaster risk reduction, Vol. 31, No.12, pp. 311-330.
    25.
  25. Hashemi Petrudi, S., Jafarnejad, A., Sadeghi Moghadam, M., Safari, H. (2017) Governance Challenges of Disaster Management Network: A Case Study of Tehran City. Journal of Public Administration, Vol. 9, No. 3, pp. 379-402. (In Persian)
    26.
  26. Norris, F. H., Sherrieb, K., & Pfefferbaum, B. (2011). Community resilience: concepts, assessment, and implications for. Resilience and mental health: Challenges across the lifespan, 162.
    27.
  27. Rashid, H. (2011) Interpreting flood disasters and flood hazard perceptions from newspaper discourse: Tale of two floods in the Red River valley, Manitoba, Canada. Applied Geography, Vol. 31, No. 1, pp. 35-45.
    28.
  28. Sun, H., Zhen, F., & Xie, Z. (2021) Urban resilience assessment based on contradiction between supply and demand of the daily activity–environment system: A case study on Nanjing, China. Science of The Total Environment, Vol. 765, No. 14, pp.45-67.
    29.


  1. Arvin, M., Faraji, A., Bazrafkan, S. (2018) Study of Social Capital Effect on Earthquake Disaster Management with Emphasis on Resiliency (Case: Tehran City Region 9). Social Capital Management, Vol. 5, No. 1, pp. 1-24. (In Persian)
    2.
  2. Bazgeer, S., Firoozi, Z., Shamsipour, A., Moghbel, M. (2019) Spatial Analysis of Environmental Conditions for Urban Agriculture in Tehran Metropolis (Case Study: District 5). Geographical Urban Planning Research (GUPR), Vol. 7, No. 1, pp. 111-125. (In Persian)
    3.
  3. Ebrahimzadeh, Issa and Ismailnejad, Morteza (2017) Climatic Refugees the Challenge of the Future of Regional Developments (Case Study: South Khorasan), Geography and Development Quarterly, Vol. 15, No 48, pp. 1-18. (In Persian)
    4.
  4. Ainuddin, S., & Routray, J. K. (2012) Community resilience framework for an earthquake prone area in Baluchistan, International Journal of Disaster Risk Reduction, Vol. 2, No. 6, pp. 25-36.
    5.
  5. Cai, Heng., Lam, Nina S.N., Qiang, Yi., Zou, Lei, Correll, Rachel M., Mihunov, V. (2018) A Synthesis of Disaster Resilience Measurement Methods and Indices, International Journal of Disaster Risk Reduction, Vol. 31, No. 6, pp. 844-855.
    6.
  6. Chelleri, L., & Baravikova, A. (2021) Understandings of urban resilience meanings and principles across Europe. Cities, Vol. 108, No.10, pp.29-85.
    7.
  7. Jalalian, I. (2019) Assessment of Structural-Natural Resilience of Urban Land Use Case Study: Tehran Metropolitan Area 4. Sustainable city, Vol. 1, No. 4, pp. 109-122. (In Persian)
    8.
  8. Sasanpour F, ahangari N, hajinejad S. (2017) Evaluation of the urban resilience against natural hazards in 12 region of Tehran Metropolis, jsaeh, Vol. 4, No. 3, pp. 85-98. (In Persian)
    9.
  9. Das, S. (2019) Geospatial mapping of flood susceptibility and hydro-geomorphic response to the floods in Ulhas basin, India. Remote Sensing Applications: Society and Environment, Vol. 14, No.3, pp. 60-74.
    10.
  10. Gralepois, M. (2020) What Can We Learn from Planning Instruments in Flood Prevention? Comparative Illustration to Highlight the Challenges of Governance in Europe. Water, Vol.12, No. 6, pp.18-41.
    11.
  11. Hawley, R. J., Bledsoe, B. P., Stein, E. D., & Haines, B. E. (2012) Channel Evolution Model of Semiarid Stream Response to Urban‐Induced Hydro modification 1, JAWRA Journal of the American Water Resources Association, Vol. 48, No.4, pp. 722-744.
    12.
  12. Jabareen, Y. (2013) Planning the resilient city: Concepts and strategies for coping with climate change and environmental risk. Cities, Vol. 31, No. 20, pp. 220-229.
    13.
  13. Kamrholm, A., Mechler, R., Mochizuki, J., Kunreuther, H., Bayer, J., Hanger, S., ... & Egan, C. (2014) Operationalizing resilience against natural disaster risk: opportunities, barriers, and a way forward. White Paper, Zurich Flood Resilience Alliance.
    14.
  14. Lechner, S., Jacometti, J., McBean, G., & Mitchison, N. (2016) Resilience in a complex world–Avoiding cross-sector collapse. International Journal of Disaster Risk Reduction, Vol. 19, No. 4, pp. 84-91.
    15.
  15. León, J., & March, A. (2014) Urban morphology as a tool for supporting tsunami rapid resilience: A case study of Talcahuano, Chile. Habitat international, Vol. 43, No. 21, pp. 250-262.
    16.
  16. Madzharov, S., (2013) the chalets of the future and the increasing significance of crisis management, university of Illinois Press. Retrieved from: https://www.longdom.org/.../the impact-of-strategic planning-on-crisis.
    17.
  17. Meng, M., Dabrowski, M., & Stead, D. (2020) Enhancing Flood Resilience and Climate Adaptation: The State of the Art and New Directions for Spatial Planning. Sustainability, Vol. 12, No.19, pp.64-78.
    18.
  18. Parizadi, T., shaikholeslami, A., karimi razakani, A. (2019) Analysis of the state of urban resilience against natural hazards (Case Study: Baqer-shahr City), Vol. 10, No. 37, pp. 41-54. (In Persian)
    19.
  19. Pashapour, H., pourakrami, M. (2018) Measuring Physical Dimensions of Urban Resilience in The Face of the Natural Disasters (Earthquake) (Case Study: Tehran's 12th District). Journal of Studies of Human Settlements Planning, Vol. 12, No. 4, pp. 985-1002. (In Persian)
    20.
  20. Mitchell, T., & Harris, K. (2012) Resilience: A risk management approach. ODI background note, 1-7.
    21.
  21. Morelli, S., Battistini, A., & Catani, F. (2014) Rapid assessment of flood susceptibility in urbanized rivers using digital terrain data: Application to the Arno river case study (Firenze, northern Italy). Applied Geography, Vol. 54, No. 13, pp. 35-53.
    22.
  22. Morelli, S., Battistini, A., & Catani, F. (2014) Rapid assessment of flood susceptibility in urbanized rivers using digital terrain data: Application to the Arno river case study (Firenze, northern Italy). Applied Geography, Vol. 54, No.13, pp. 35-53.
    23.
  23. Usamah, M., Handmer, J., Mitchell, D., & Ahmed, I. (2014) Can the vulnerable be resilient? Co-existence of vulnerability and disaster resilience: Informal settlements in the Philippines. International journal of disaster risk reduction, Vol. 10, No. 33, pp. 178-189.
    24.
  24. Werchoch, V. (2012) Evaluation of multifunctional indicators to measure earthquake resilience in urban areas: A new literature review. International journal of disaster risk reduction, Vol. 31, No.12, pp. 311-330.
    25.
  25. Hashemi Petrudi, S., Jafarnejad, A., Sadeghi Moghadam, M., Safari, H. (2017) Governance Challenges of Disaster Management Network: A Case Study of Tehran City. Journal of Public Administration, Vol. 9, No. 3, pp. 379-402. (In Persian)
    26.
  26. Norris, F. H., Sherrieb, K., & Pfefferbaum, B. (2011). Community resilience: concepts, assessment, and implications for. Resilience and mental health: Challenges across the lifespan, 162.
    27.
  27. Rashid, H. (2011) Interpreting flood disasters and flood hazard perceptions from newspaper discourse: Tale of two floods in the Red River valley, Manitoba, Canada. Applied Geography, Vol. 31, No. 1, pp. 35-45.
    28.
  28. Sun, H., Zhen, F., & Xie, Z. (2021) Urban resilience assessment based on contradiction between supply and demand of the daily activity–environment system: A case study on Nanjing, China. Science of The Total Environment, Vol. 765, No. 14, pp.45-67.
    29.

 

 

 

 

 

 

 

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