1. Ghasemzadeh, B., et al., A framework for urban flood resilience assessment with emphasis on social, economic and institutional dimensions: A qualitative study. Sustainability, 2021. 13(14): p. 7852.
2. Bera, S., B. Guru, and T. Oommen, Indicator-based approach for assigning physical vulnerability of the houses to landslide hazard in the Himalayan region of India. International Journal of Disaster Risk Reduction, 2020. 50: p. 101891.
3. Armah, F.A., et al., Impact of floods on livelihoods and vulnerability of natural resource dependent communities in Northern Ghana. Water, 2010. 2(2): p. 120-139.
4. Poole, J.A., et al., Impact of weather and climate change with indoor and outdoor air quality in asthma: A Work Group Report of the AAAAI Environmental Exposure and Respiratory Health Committee. Journal of Allergy and Clinical Immunology, 2019. 143(5): p. 1702-1710.
5. Agonafir, C., et al., A review of recent advances in urban flood research. Water Security, 2023. 19: p. 100141.
6. Becker, G., J.C. Aerts, and D. Huitema, Influence of flood risk perception and other factors on risk‐reducing behaviour: a survey of municipalities along the R hine. Journal of Flood Risk Management, 2014. 7(1): p. 16-30.
7. Rana, I.A., et al., Disaster management cycle and its application for flood risk reduction in urban areas of Pakistan. Urban Climate, 2021. 38: p. 100893.
8. Al-Taani, A., Y. Al-husban, and A. Ayan, Assessment of potential flash flood hazards. Concerning land use/land cover in Aqaba Governorate, Jordan, using a multi-criteria technique. The Egyptian Journal of Remote Sensing and Space Science, 2023. 26(1): p. 17-24.
9.Tariq, A., et al., Flash flood susceptibility assessment and zonation by integrating analytic hierarchy process and frequency ratio model with diverse spatial data. Water, 2022. 14(19): p. 3069.
10. Boudou, M., B. Danière, and M. Lang, Assessing changes in urban flood vulnerability through mapping land use from historical information. Hydrology and Earth System Sciences, 2016. 20(1): p. 161-173.
11. Dammalage, T. and N. Jayasinghe, Land-Use Change and Its Impact on Urban Flooding: A Case Study on Colombo District Flood on May 2016. Engineering, Technology & Applied Science Research, 2019. 9(2).
12. Feng, B., Y. Zhang, and R. Bourke, Urbanization impacts on flood risks based on urban growth data and coupled flood models. Natural Hazards, 2021. 106: p. 613-627.
13. Genovese, E., A methodological approach to land use-based flood damage assessment in urban areas: Prague case study. Technical EUR Reports, EUR, 2006. 22497.
14. Lee, Y. and S.D. Brody, Examining the impact of land use on flood losses in Seoul, Korea. Land use policy, 2018. 70: p. 500-509.
15. Moulds, S., et al., Modeling the impacts of urban flood risk management on social inequality. Water Resources Research, 2021. 57(6): p. e2020WR029024.
16.Chen, Y., et al., Urban flood risk warning under rapid urbanization. Environmental research, 2015. 139: p. 3-10.
17. Kawaguchi, L., et al., Seroprevalence of leptospirosis and risk factor analysis in flood-prone rural areas in Lao PDR. The American journal of tropical medicine and hygiene, 2008. 78(6): p. 957-961.
18. Moarab, Y., et al., Construction of a conceptual model for against disasters using a sustainable development approach. Journal of Environmental Science and Technology, 1970. 21(3): p. 139-156.
19. NOROUZI, T.R. and Y. Binai, Zoning sensitive areas and environmental vulnerabilities in a District 1of Tehran metropolitan by Fuzzy classification method and hierarchical process. 2018.
20. Ghahroudi Tali, M., A. Majidi Heravi, and E. Abdoli, Vulnerability of urban flooding case study: Tehran, Darake to Kan. Journal of Geography and Environmental Hazards, 2016. 5(1): p. 21-36.
21. Afsari, R., et al., A spatial decision support approach for flood vulnerability analysis in urban areas: A case study of Tehran. ISPRS International Journal of Geo-Information, 2022. 11(7): p. 380.
22. Sarker, M.S.H., Assessing levels of migrant-friendliness in the context of vulnerability to climate variability, change and environmental hazard: A comparison of two different-sized cities. International Journal of Disaster Risk Reduction, 2022. 68: p. 102525.
23. Hosseinzadeh, S.R., et al., An assessment of environmental sustainability in urban areas using multi-criteria decision making method-Linear assignment (Case Study: City of Bandar Turkman). 2011.
24. Waqas, H., et al., Flash flood susceptibility assessment and zonation using an integrating analytic hierarchy process and frequency ratio model for the Chitral District, Khyber Pakhtunkhwa, Pakistan. Water, 2021. 13(12): p. 1650.
25. Haghighi Fard, S.M. and N. Doratli, Evaluation of resilience in historic urban areas by combining multi-criteria decision-making system and GIS, with sustainability and regeneration approach: The case study of Tehran (IRAN). Sustainability, 2022. 14(5): p. 2495.
26.Ghavami, S.M., Multi-criteria spatial decision support system for identifying strategic roads in disaster situations. International Journal of Critical Infrastructure Protection, 2019. 24: p. 23-36.
27. Parizi, S.M., M. Taleai, and A. Sharifi, Integrated methods to determine urban physical resilience characteristics and their interactions. Natural Hazards, 2021. 109(1): p. 725-754.
28. Lines, R.L., et al., Stress, physical activity, sedentary behavior, and resilience—The effects of naturalistic periods of elevated stress: A measurement‐burst study. Psychophysiology, 2021. 58(8): p. e13846.
29. Kodag, S., et al., Earthquake and flood resilience through spatial Planning in the complex urban system. Progress in disaster science, 2022. 14: p. 100219.
30.Hemmati, M., B.R. Ellingwood, and H.N. Mahmoud, The role of urban growth in resilience of communities under flood risk. Earth's Future, 2020. 8(3): p. e2019EF001382.
31.Van der Brugge, R. and R. Roosjen, An institutional and socio-cultural perspective on the adaptation pathways approach. Journal of Water and Climate Change, 2015. 6(4): p. 743-758.
32. Yeh, C.-H. and Y.-R. Chen, Location model analysis of flood relief facilities: a case study of the Fazih River floodplain, Taiwan. Natural Hazards, 2020. 103(1): p. 317-327.
33. Kodippili, N. and G. Fernando, IDENTIFICATION OF FLOOD AFFECTED AREAS AND PREPARATION OF BETTER MECHANISM FOR RELIEF SERVICES USING GIS TECHNOLOGY: A CASE STUDY OF WELIVITA AND MAHADENIYA GRAMA NILADHARI DIVISIONS OF KADUWELA DIVISIONAL SECRETARIAT DIVISION, SRI LANKA. Age, 2011. 2.
34. Jaafar, J.B., et al., A study of customer satisfaction with planning movement of goods during disaster aid programs: A case study of flood hit in segamat, johor. J. Environ. Treat. Tech, 2020. 8(1): p. 419-428.
35. Rittelmeyer, P., Socio-cultural perceptions of flood risk and management of a levee system: Applying the Q methodology in the California Delta. Geoforum, 2020. 111: p. 11-23.
36. Guiza Valverde, F., The Socio-Cultural Dimension of Flood Vulnerability in a Periurban Community in Central Mexico. 2011, University of East Anglia.
37. Laoupi, A. The socio-cultural profile of Hazards. Disaster Archaeology and the risk assessment of past catastrophic events. in 11th International Symposium on Natural and Human-induced Hazards. 2006.
38. Lamond, J.E., et al., Flood risk insurance, mitigation and commercial property valuation. Property Management, 2019. 37(4): p. 512-528.
39. Lamond, J., et al., Flood risk mitigation and commercial property advice: an international comparison. 2017.
40. Porter, J.R., et al., Commercial Real-Estate at Risk: An Examination of Commercial Building and Economic Impacts in the United States Using a High-Precision Flood Risk Assessment Tool. Frontiers in Water, 2022. 4: p. 875995.
41. Mis, N.B., et al., Grass-root preparedness against potential flood risk among residential and commercial property holders. International Journal of Disaster Resilience in the Built Environment, 2015. 6(1): p. 44-56.
42.Walker, G.B., Public participation as participatory communication in environmental policy decision-making: From concepts to structured conversations. Environmental Communication, 2007. 1(1): p. 99-110.
43. Tu, Z., T. Hu, and R. Shen, Evaluating public participation impact on environmental protection and ecological efficiency in China: Evidence from PITI disclosure. China Economic Review, 2019. 55: p. 111-123.
44.Peñuelas, J. and J. Sardans, Global change and forest disturbances in the Mediterranean basin: Breakthroughs, knowledge gaps, and recommendations. Forests, 2021. 12(5): p. 603.
45.Landström, C., Public Participation in Environmental Decision Making, in Environmental Participation: Practices engaging the public with science and governance. 2019, Springer. p. 45-65.
46. Khan, S., L.C.M. Alvarez, and Y. Wei, Sustainable management of municipal solid waste under changing climate: A case study of Karachi, Pakistan. Asian Journal of Environmental Biotechnology, 2018. 2(1): p. 23-32.
47.Kumar, N., et al., A systematic review comparing urban flood management practices in India to China’s sponge city program. Sustainability, 2021. 13(11): p. 6346.
48.Li, X., et al., Impact of land use on urban water-logging disaster: a case study of Beijing and New York cities. Environmental Engineering & Management Journal (EEMJ), 2017. 16 (5).
49.Moghadas, M., et al., A multi-criteria approach for assessing urban flood resilience in Tehran, Iran. International journal of disaster risk reduction, 2019. 35: p. 101069.
50. Tobler, W.R., A computer movie simulating urban growth in the Detroit region. Economic geography, 1970. 46(sup1): p. 234-240.
51.Dark, S.J. and D. Bram, The modifiable areal unit problem (MAUP) in physical geography. Progress in physical geography, 2007. 31(5): p. 471-479.
