سیل و تاب آوری: مطالعه مروری
محورهای موضوعی : هیدرولوژی، هیدرولیک و ساختمان های انتقال آب
سعید اسلامیان
1
(گروه علوم و مهندسی آب، دانشکده کشاورزی، دانشگاه صنعتی اصفهان، ایران.)
یاسر سبزواری
2
(گروه علوم و مهندسی آب، دانشکده کشاورزی، دانشگاه صنعتی اصفهان، ایران.)
کلید واژه: ریسک, تابآوری سیل, سیل, مدیریت سیل,
چکیده مقاله :
سیل، یکی از بزرگترین معضلات و بلایای طبیعی در اقلیم ایران است که از دیرباز موجب بروز خسارات زیادی شده است. مدیریت ریسک سیل در کاهش عوارض برخی از خطرات سیل، جلوگیری از تلفات جانی در هنگام وقوع سیل و کاهش بار اقتصادی جوامع و مناطق پس از سیل موفق بوده است. این یک رویکرد مفید برای ارزیابی خطرات و تصمیم گیری در مورد اجرای اقدامات حفاظتی است. اخیراً علاوه بر مدیریت ریسک سیل، تابآوری سیل به عنوان یک رویکرد جدید در ادبیات دانشگاهی مورد بحث قرار گرفته است. این مقاله بر این است تا رابطه بین مدیریت ریسک سیل و تاب آوری سیل را آشکار کند. بنابراین، سه جنبه مورد بحث قرار میگیرد: تعریف تابآوری، روشهای اندازهگیری آن و همچنین امکان اجرا و تعبیه آن در مدیریت ریسک سیل. از اینرو در مطالعه حاضر مروری بر ۳۷ تحقیق مختلف انجام شده در زمینه راهکارهای و تجربیات مقابله با سیل و تابآوری در برابر این مخاطره طبیعی انجام گرفت. نتایج نشان داد گرچه روشهای غیرسازهای در کنترل سیل نسبت به روشهای سازهای کم هزینهتر هستند ولی کاربرد ترکیبی اقدامات سازهای و غیرسازهای برای کنترل سیلاب بهترین بازدهی را خواهد داشت.
Flood is one of the biggest problems and natural disasters in the climate of Iran, which has caused a lot of damage for a long time. Flood risk management has been successful in reducing the effects of some flood risks, preventing loss of life during floods and reducing the economic burden of communities and regions after the flood. This is a useful tip for assessing risks and deciding whether to implement a safety assessment. Recently, in addition to flood risk management, flood resilience has been discussed as a new topic in academic literature. This paper aims to explore the relationship between flood risk management and flood resilience. Therefore, three aspects are discussed: the definition of resilience, its measurement methods, as well as the possibility of implementing it in flood risk management. Therefore, in this review study, 38 different researches have been conducted in the field of methods and experiences of dealing with floods and resilience against this natural hazard. The results showed that although non-structural methods in flood control are less than structural methods, but using a combination of structural and non-structural methods for flood control will have the best results.
Ahmadi, M. M., & Eslamian, S. (2022). Hydrological Resilience of Large Lakes Management. In Flood Handbook (pp. 3-40). CRC Press.
Akstinas, V., Meilutytė-Lukauskienė, D., Kriaučiūnienė, J., & Šarauskienė, D. (2020). Features and causes of catastrophic floods in the Nemunas River basin. Hydrology Research, 51(2), 308-321.
Amini, A., Heydari, R. and Roghani, M., (2012). The Effect of Structural Operations on Runoff Storage and Flood Control in Small Watersheds, 9th International Seminar on River Engineering, Ahvaz. [in Persian]
Angelakis, A. N., Antoniou, G., Voudouris, K., Kazakis, N., Dalezios, N., & Dercas, N. (2020). History of floods in Greece: causes and measures for protection. Natural Hazards, 1-20.
Azari. M., Sadeghi, S.H.R., Telouri A.R., (2008). Contribution Determination of Jaghargh Torrent in Peak Flood and Runoff Volume for Flood Control Prioritization. Geography and Development Iranian Journal, Volume:6 Issue: 12, 2008. Page 199. [in Persian]
Bazari, S., Haqshenesh, E. and Nasirian, Ali., (2016). structural and non-structural methods of urban flood control, the 4th National Conference of Applied Researches in Civil Engineering, Architecture and Urban Management, Tehran, Iran [in Persian]
Connelly, A., O'Hare, P., & White, I. (2020). “The best flood I ever had”: Contingent resilience and the (relative) success of adaptive technologies. Cities, 106, 102842.
Dahri, N., & Abida, H. (2020). Causes and impacts of flash floods: case of Gabes City, Southern Tunisia. Arabian Journal of Geosciences, 13(4), 176.
Disse, M., Johnson, T. G., Leandro, J., & Hartmann, T. (2020). Exploring the relation between flood risk management and flood resilience. Water Security, 9, 100059.
Ebrahimi, Z., (2013). Optimization of Flood Management and Control Based on Structural and Non-structural Methods, the second national conference on sustainable agriculture and natural resources, Tehran, Iran [in Persian]
Eludoyin, A.O., Eslamian, S., Ayinde, A.F.O., Ayanlade, A., Oladimeji, A.A., Okegbola, O.M., Perkins, P.E., (2022). Effect of Climate Change on Water Availability and Quality: An Assessment of Socio-Resilience in Nigeria, Ch 11, Handbook of Disaster Risk Reduction for Resilience: Disaster and Social Aspects, Ed. By Eslamian, S., Eslamian, F., Springer Nature Switzerland AG, 245-262.
Eslamian, S., & Maleki, M. (2021). Disaster Resilience and Computational Methods for Urban Infrastructures. In Handbook of Disaster Risk Reduction for Resilience (pp. 279-298). Springer, Cham.
Eslamian, S., Parvizi, S., & Behnassi, M. (2021). New Frameworks for Building Resilience in Hazard Management. In Handbook of Disaster Risk Reduction for Resilience (pp. 107-130). Springer, Cham.
Fraser, A., Pelling, M., Scolobig, A., & Mavrogenis, S. (2020). Relating root causes to local risk conditions: A comparative study of the institutional pathways to small-scale disasters in three urban flood contexts. Global Environmental Change, 63, 102102.
Ghazavi, R., Babaei Hessar, S. and Erfanian, M., (2019). Mapping of the Urban Sub Basins Prone to Flood Using PCA Method as A New Weighting Technique. Journal of Natural environment hazards, 8 (20): 83 – 99. [in Persian]
Gregory, K.J. (2006). The Human role in changing river channels. Geomorphology, 76: 172-191.
Grimaldi, S., Xu, J., Li, Y., Pauwels, V. R., & Walker, J. P. (2020). Flood mapping under vegetation using single SAR acquisitions. Remote Sensing of Environment, 237, 111582.
Hochrainer-Stigler, S., Laurien, F., Velev, S., Keating, A., & Mechler, R. (2020). Standardized disaster and climate resilience grading: A global scale empirical analysis of community flood resilience. Journal of Environmental Management, 276, 111332.
Holling, C. S., & Meffe, G. K. (1996). Command and control and the pathology of natural resource management. Conservation biology, 10(2), 328-337.
Hou, J., Li, B., Tong, Y., Ma, L., Ball, J., Luo, H., ... & Xia, J. (2020). Cause analysis for a new type of devastating flash flood. Hydrology Research, 51(1), 1-16.
Igbatayo, S. A., Eslamian, S., Babalola, O. O., & Makanju, A. A. (2022). Strengthening Climate Resilience and Disaster Risk Reduction: Case Study of the Sahel Adaptive Social Protection. In Disaster Risk Reduction for Resilience (pp. 221-243). Springer, Cham.
Ja'fari, T., (2013). Flood management techniques based on geomorphological capabilities in rural areas Case study: Fartan village from the functions of the city of Esfarayen, Geographic Information Quarterly (Sepehr), 21 (82), 27. [in Persian]
Jamshidi, S. and Kakavand, E., )2017). Use of Structural Methods in Flood Control of Urban Watersheds, case study: Sharifia city, Qazvin province, 5th Comprehensive Conference on Flood Management and Engineering, Tehran. [in Persian]
Koshki, S. and Mazidi, A., (2013). Determination of Participation of Khorramabad Basin's Sub-Basins in Peak Discharge and Runoff Volume to Find the Prioritization in Flood Control. Geography and Sustainability of Environment, 3 (8), 57 – 66. [in Persian]
Kuang, D., & Liao, K. H. (2020). Learning from Floods: Linking flood experience and flood resilience. Journal of environmental management, 271, 111025.
Liu, S., Huang, S., Xie, Y., Wang, H., Leng, G., Huang, Q., et al. (2019). Identification of the non-stationarity of floods: Changing patterns, causes, and implications. Water Resources Management, 33(3), 939-953.
Madani, K. (2014). "Water management in Iran: what is causing the looming crisis? " J. Environmental Studies and Sciences, 4(4), 315-328.
Mahmood, S., Rahman, A. U., & Sajjad, A. (2019). Assessment of 2010 flood disaster causes and damages in district Muzaffargarh, Central Indus Basin, Pakistan. Environmental Earth Sciences, 78(3), 63.
Maleki Ilkhanlar, Y. and Rafiei Fandokht, M., (2015). Non-structural methods in flood control, International Conference on Environmental Sciences, Engineering and Technologies, Tehran. [in Persian]
Masoudian, M., Fendereski, N. and Gharahgezlou, M. (2015). Urban Flood Damage Reduction using Non-Structural Management (Case Study: the Nekarood River flood, 1999). Journal of Watershed Management Research, Volume:5 Issue: 10, pp. 1 – 14. [in Persian]
Mehryar, S., & Surminski, S. (2022). Investigating flood resilience perceptions and supporting collective decision-making through fuzzy cognitive mapping. Science of the Total Environment, 155854.
Mensah, H., & Ahadzie, D. K. (2020). Causes, impacts and coping strategies of floods in Ghana: a systematic review. SN Applied Sciences, 2, 1-13.
Mir Yagoub Zadeh, M.H., Zabihi, M., Khosravi, S.A. and Mohtadi, M., (2018). structural and non-structural measures in flood control, the 13th National Conference on Watershed Engineering and Science and the 3rd National Conference on Natural Resources and Environment Protection Watershed Management and Protection of Natural Resources and Environment, Ardabil, Iran [in Persian]
Mohammadjani, A. and Yazdanian, N. (2013). "Analysis of the water crisis situation in the country and its management requirements" Trend Quarterly, 21st year, Numbers 65 and 66, pp. 117-144. [in Persian]
Mokhtari Mutlagh, P., Sadeghi, A. and Basirpour, Ali., (2017). the role of regional planning in reducing the flood risks of the Zayandeh Rood River, the 5th Comprehensive Conference on Flood Management and Engineering, Tehran. [in Persian]
Nadfi, A., Hosseini, M. (2014). A new perspective on the single flood response method in prioritizing the flood control mechanism, Civil Engineering (Faculty of Engineering), 27 (1), 51-66. [in Persian]
Nafarzadegan, A.R., Mohammadifar, A.A., Vagharfard, H. and Foruzanfard, M., (2019). Combination of Multi-criteria Decision-making Models and Regional Flood Analysis Technique to Prioritize Sub-watersheds for Flood Control (Case study: Dehbar Watershed of Khorasan), Journal of Geography and Environmental Hazards, 8 (30), 27 – 45. [in Persian]
Nasim, A. and Selajgeh, A., (2006). Determination of Harim and river bed using AUTOCAD, HEC-RAS software, case study: a section of the Karaj River (Sira-Pul Khob). 7th International Conference on River Engineering, Shahid Chamran University, Ahvaz, Iran. [in Persian]
Nazif, S., Mohammadpour Khoie, M. M., & Eslamian, S. (2021). Urban Disaster Management and Resilience. In Handbook of Disaster Risk Reduction for Resilience (pp. 157-185). Springer, Cham.
Orei Zare, S. and Saghafian, B., (2011). Non-structural Methods of Flood Control and Assessment of Direct and Indirect Damages in Urban Watersheds, the 4th Iran Water Resources Management Conference, Tehran. [in Persian]
Panahi, R., Hoseinzadeh, M.M. and Khaleghi Khaleghi, S., (2019). Flood risk zonation in order to determine river flood fringe (Case study: Gamasiyab river), Iranian Journal of Eco Hydrology, 6 (2), 553-567. [in Persian]
Pinho, J. L., Vieira, L., Vieira, J. M. P., Venâncio, S., Simões, N. E., Sá Marques, J. A., & Santos, F. S. (2020). Assessing causes and associated water levels for an urban flood using hydroinformatic tools. Journal of Hydroinformatics, 22(1), 61-76.
Rezende, O. M., de Oliveira, A. K. B., Jacob, A. C. P., & Miguez, M. G. (2019). A framework to introduce urban flood resilience into the design of flood control alternatives. Journal of Hydrology, 576, 478-493.
Schultz, B., 2017, Agricultural Water Management And Food Security In a Sustainable Environment.13th International Drainage Workshop of ICID, Ahwaz, Iran.
Soltani, S., Pourreza Bilandi, M. and Shahidi, A., (2013). Investigating Management and Structural Methods to Control Urban Runoff. The First National Conference on Drainage in Sustainable Agriculture, Tehran - March 8 [in Persian]
Subia, E. G. S., Jocson, E. J. C., & Florencondia, E. N. T. (2019). Flood prevention and mitigation initiatives towards a flood-free city. American Scientific Research Journal for Engineering, Technology, and Sciences (ASRJETS), 58(1), 215-224.
Sun, R., Shi, S., Reheman, Y., & Li, S. (2022). Measurement of urban flood resilience using a quantitative model based on the correlation of vulnerability and resilience. International Journal of Disaster Risk Reduction, 103344.
Townend, I. H., French, J. R., Nicholls, R. J., Brown, S., Carpenter, S., Haigh, I. D., ... & Tompkins, E. L. (2021). Operationalising coastal resilience to flood and erosion hazard: A demonstration for England. Science of the Total Environment, 783, 146880.
Zeraatkar, Z., Hasan Pour, F., Tabee, M. and Jafari, F., (2014). Assessment of the Estimation Methods of Flood Peak Discharge in Urban Catchment for Controlling Flood. Iranian Journal of Rainwater Catchment Systems, Volume:2 Issue: 4, pp. 23 – 32. [in Persian]
_||_