Afshari Azad, M. R., & Pouraki, H. (2013). Classification and analysis of geomorphic phenomena in the west coast of the Caspian with approach to water level fluctuations. Journal of Geography and Regional Development, 10(2), -. Doi: 10.22067/geography.v0i0.23245 (in Persian)
Afsharmanesh H, hejazizadeh Z, Alijani B. Future studies of the Crisis Increases surface Temperature and Reduces the Climatic Comfort of Citizens in Tehran Metropolis. Jgs 2021; 21 (61): 1(in Persian)
Ahadnead, M., Garakhlo, M., & Zyarei, K. (2010). Modeling the Vulnerability of Urban Buildings against Earthquake by Method of Analytical Hierarchy Process (AHP) (Case Study of Zanjan City). Geography and Development, 8(19), 171-198. Doi: 10.22111/gdij.2010.1114 (in Persian)
Alizadeh A, (2014), principles of applied hydrology, Imam Reza University Press: Mashhad. (in Persian)
Azadkhani, P., Hoseinzadeh, J., & Kamari, S. (2021). Evaluating the Vulnerability of Ilam City Facilities to Environmental Threats (Flood) Using Passive Defense Approach. Journal of Natural Environmental Hazards, 10(29), 33-52. Doi: 10.22111/jneh.2020.32690.1599 (in Persian)
Belvasi, I. A., Asghari Saraskanrod, S., Esfandiari Dorabad, F., & Zeinali, B. (2020). The Role of Land Use Changes on Run-off and Flood Properties in the Doab Catchment. Iranian journal of Ecohydrology, 7(2), 331-344. Doi: 10.22059/ije.2020.295346.1263 (in Persian)
Cutter, Susan (1996). “Societal Vulnerability to Environmental Hazards”, InternationalSocial Social Science Journal. 47 (4): 525-536.
Darban, A. R., & Haraeeni, M. (2019). Spatial analysis of Social _economic resilience against earthquake in rural community’s Case study: Aftab district, Tehran County. Journal of Geography and Planning, 23(68), 91-111. (In Persian)
Ebrahimi Dehkordi, A. (2018). Evaluation of the level of preparedness of Royan city against natural disasters with an emphasis on the urban resilience approach, geography and urban planning Journal of Zagros landscape, Vol.10, No.37, Pp. 153-166. https://sanad.iau.ir/fa/Journal/zagros/Article/667175?jid=667175 (in Persian)
Ghanbari, A., Salaki Maleki, M. A., & Ghasemi, M. (2013). Zoning of Cities Level of Vulnerability toEarthquake Danger (Case Study: Tabriz. Journal of Geography and Environmental Hazards, 2(1), 21-36. Doi: 10.22067/geo.v2i1.15617 (in Persian)
Jia, u., Wang, X., Naima, A., Hersi, M., Zhao, W. (2019): Flood-Risk Zoning Based on Analytic Hierarchy Process and Fuzzy Variable Set Theory, Natural Hazards, 20(3), PP.1-8.
Khazaei.S & Kazemi, M., J. (2016). Modeling of Required Time to Reach the Maximum Phosgene Oxime Pollution in Runoff (Case Study: The Adjacent Areas of Kan River and North Flood Return of West Tehran). Journal of Advanced Defense Science & Technology, 7(1), 9-18. 20.1001.1.26762935.1395.7.1.2.3(In Persian)
Khodapanah, K. (2022). Evaluation and measurement of resilience of tourism target villages (Case study: Ardabil region). Journal of Geography and Planning, 26(80), 131-117. Doi: 10.22034/gp.2021.45990.2838 (in Persian)
Maleki, Y. (2022), Explanation and evaluation of land use against floods with non-active defense approach (case study: Ravansar city), Master's Thesis of Geography and Urban Planning, Department of Geography, Faculty of Social Sciences, Payam Noor University, Paveh Branch(in Persian)
Nazari AN H, Mirzaali M, Taleshi M. (2019), Effects of Economic Components on the Resilience of Flooded Villagers; a Case Study of Gorganrud Marginal Villages. GeoRes; 34 (3):333-346(in Persian)
Ramezanzadelasbooi, M., & Badri, A. (2014). Explaining the socio-economic structures of resilience of local communities against natural disasters with an emphasis on floods, a case study: the tourism basins of Kileh Tankabon spring and Sardabroud Kalardasht.. Geography, 12(40), 109-131. (in Persian)
Rana, Irfan Ahmad. Bhatti, Saad Saleem. Jamshid, Ali.Ahmad, Shakil(2021) An approach to inderstanding the intrinsing complexity of resilience against floods: Evidences from three urban communities of Pakistan, International Journal of Disaster Risk Reduction, Volume 63,September 2021, 102442.
Rodrıguez, Havidan, Quarantelli, Enrico L. and Dynes, Russell (2008), Handbook of Disaster Research, Springer Science+Business Media, LLC.
Roohi, B., Mirza Ebrahim Tehrani, M., Estalaji, A., & Farzad Behtash, M. R. (2021). Resilience of key buildings in Hamedan against floods using LISREL structural equation modeling. Environmental Management Hazards, 8(3), 207-228. Doi: 10.22059/jhsci.2021.329891.672 (in Persian).
Salehi, H., Gandomkar, A., Khademolhoseini, A., & Abbasi, A. (2022). Assessing the Problems and Increasing the Resilience of Madi in Isfahan against Urban Floods (A Case Study: Zones 1 and 3). Geography and Environmental Sustainability, 12(4), 37-53. Doi: 10.22126/ges.2022.7807.2539 (in Persian)
Singh, R.B. (2006). Natural hazards and disaster management, vulnerability and Mitigation, New Delhi: Rawat Publications.
Tilio, L. Murgante, M. Di Trani, F. Vona, M. & Masi, A. (2011). Resilient City and Seismic Risk: A Spatial Multi criteria Approach, ICCSA, Part I, Springer-Verlag, Berlin, Heidelberg, 410-422.
Vink, K. & Takeuchi, K. (2013). International comparison of measures taken for vulnerable People in disaster risk management laws, International Journal of Disaster Risk Reduction, 4, 63–70.
Wisner, B, Blaikie, P, Cannon, T, Davis, I. (2004). At risk: natural hazards, people’s vulnerability and disasters, 2nd end. Routledge, London, 220p.
