Abstract
Floods in urban areas have become more frequent globally, with catastrophic impacts. The cause is not only a natural event of extensive rain but is also artificial. The artificial cause of floods in urban areas can be attributed to two main factors – urban flooding and mismanagement of water resources leading to riverine flooding. Urban flooding is characterized by quicker inundation of the developed regions due to faulty city planning and development. Faster run-offs, overwhelmed drainage systems, disregard to topography and hydrology in city development, construction on reclaimed wetlands and flood plains increase urban flood vulnerability. For regular water supply to the cities, many dams and reservoirs are built upstream of the rivers flowing through the cities. With rains in the catchment, the capacities of these dams are surpassed, and water is released into the river. Unplanned water release and ill-treatment of riverfronts that can no longer harmlessly swell in urban areas lead to riverine flooding. Urban flooding and riverine flooding in urban areas could happen simultaneously, disrupting transport, life and economy. This review discusses the causes of flooding in urban areas and how to mitigate and reduce vulnerability using natural elements in urban planning, design and landscaping. Mitigation measures suggested in national and local policies are reviewed. Concepts like more Room for River, Sponge City and Green Rain Infrastructure are presented with relevant case studies. A holistic approach to flood-sensitive GIS-based city planning and design, including critical infrastructure design and flood mitigating landscape is recommended as a strategy for nature-based disaster risk reduction of flooding in urban areas.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data Availability
The data can be made available proper request from editor.
References
Alphen SV (2020) Room for the River: Innovation, or Tradition? The Case of the Noordwaard. In Adaptive Strategies for Water Heritage (pp. 308–323). Springer, Cham
Anand A, Goswami S (2020) Living with water: integrating blue, green and grey infrastructure to manage urban floods. Retrieved November 21, 2021, from WRI India: https://wri-india.org/blog/living-water-integrating-blue-green-and-grey-infrastructure-manage-urban-floods
Busscher T, Brink MVD, Verweij S (2018) Strategies for integrating water management and spatial planning: Organising for spatial quality in the Dutch “Room for the River” program. J Flood Risk Manag 12:e12448
Chan F, Chuah CJ, Ziegler A, Da˛browski M, Varis O (2018) Towards resilient flood risk management for Asian coastal cities: Lessons learned from Hong Kong and Singapore. J Clean Prod 2018(187):576–589
City of Vancouver (2019). Rain City Strategy: A green rainwater infrastructure and rainwater management initiative. Vancouver
Dada A, Urich C, Berteni F, Pezzagno M, Piro P, Grossi G (2021) Water Sensitive Cities: An Integrated Approach to Enhance Urban Flood Resilience in Parma (Northern Italy). Climate 9(152)
Debele SE, Kumar P, Sahani J, Marti-Cardona B, Mickovski SB, Leo LS, Porcù F, Bertini F, Montesi D, Vojinovic Z (2019) Nature-based solutions for hydro-meteorological hazards: Revised concepts, classification schemes and databases. Environ Res 179:108799
Digital Globe & CNES Airbus (2018) Satellite image of Pune. Google Earth Pro
Dutch Water Sector (2019) Room for the River Programme. Retrieved November 25, 2021, from https://www.dutchwatersector.com/news/room-for-the-river-programme
Faivre N, Fritz M, Freitas T, De Boissezon B, Vandewoestijne S (2017) Nature-Based Solutions in the EU: Innovating with nature to address social, economic and environmental challenges. Environ Res 159:509–518
Feng B, Zhang Y, Bourke R (2021) Urbanization impacts on flood risks based on urban growth data and coupled flood models. Nat Hazards 106
Gouldby B, Samuels P (2005) Language of risk: Project Definitions. © FLOODsite Consortium
Hein C (2020) Adaptive Strategies for Water Heritage Past, Present and Future, Springer Nature, 11, 6330 Cham, Switzerland, ISBN 978–3–030–00268–8 (eBook) https://doi.org/10.1007/978-3-030-00268-8
Ilieva L, McQuistan C, Breda AV, Rodriguez AV, Guevara O, Cordero D et al (2018) Adopting nature-based solutions for flood risk reduction in Latin America
Johan-Roerink, RWS (2021) Room for the River. Retrieved November 19, 2021, from urbanNext: https://urbannext.net/room-for-the-river/
King HW, Woolmington ER (1960) The role of the river in the development of settlement in the Lower Hunter Valley. Aust Geogr 8(1):3–6
Kumar N, Liu X, Narayanasamydamodaran S, Pandey KK (2021) A Systematic Review Comparing Urban Flood Management Practices in India to China’s Sponge City Program. Sustainability 13:6346
Maddox I (2014) The risks of hazard: Three common types of flood explained. Retrieved October 31, 2021, from Intermap: https://www.intermap.com/risks-of-hazard-blog/three-common-types-of-flood-explained
Mendes R, Fidélis T, Roebeling PC, Teles F (2020) The Institutionalization of Nature-Based Solutions—A Discourse Analysis of Emergent Literature. Resources 9:6
Ministry of Urban Development (2017) Urban Flooding, Standard Operating Procedure. Government of India
Nambiar N (2019) Flood line maps faulty: Activists. Retrieved October 26, 2021, from The Times of India: https://timesofindia.indiatimes.com/city/pune/flood-line-maps-faulty-activists/articleshow/70564806.cms
Nasiri H, Mohd Yusof MJ, Mohammad Ali TA (2016) An overview to flood vulnerability assessment methods. Sustain Water Resour Manag 2:331–336
National Disaster Management Authority (2010) National Disaster Management Guidelines Management of Urban Flooding. New Delhi: Government of India.
National Disaster Management Authority (2019) National Disaster Management Plan. New Delhi: Ministry of Home Affairs, Government of India
Niti Aayog (2020) Transferable Development Rights
Nitnaware H (2021) Lessons from group of 5000 who made their village flood-free after 70 years. Retrieved January 18, 2022, from The Better India: https://www.thebetterindia.com/261165/maharashtra-river-restoration-flood-village-community-success-story/
O'Donnell E, Colin T, Sangaralingam A, Scott A, Stephen B, David B, David D, Glyn E, Richard F, Vassilis G, Leon K, Chris K, Vladimir K, Jessica L, Shaun M, Greg O’D, Karen P, Kim V, Tudorel V, Nigel W (2020) Blue-Green Systems 2(1):28–45
Organization of American States (1991) Chapter 8 : Flood Plain Definition and Flood Hazard Assessment. In Primer on Natural Hazard Management in Integrated Regional Development Planning. Washington, D.C.: Department of Regional Development and Environment Executive Secretariat for Economic and Social Affairs
Ozkan SP, Tarhan C (2016) Detection of flood hazard in urban areas using GIS: Izmir case. 9th International Conference Interdiciplinarity in engineering, 2015 (pp. 373–381). Tirgu-Mures, Romania: Procedia Technology 22, Elsevier
Pais R (2021) Flood control mechanisms in India. Retrieved January 18, 2022, from daijiworld: https://www.daijiworld.com/chan/exclusiveDisplay?articlesID=5708
Parashar K (2021) Concretisation of storm water drains and encroachment of lakes leading to flooding in Bengaluru: CAG report. Retrieved October 26, 2021, from The Indian Express: https://indianexpress.com/article/cities/bangalore/concretisation-of-storm-water-drains-and-encroachment-of-lakes-leading-to-flooding-in-bengaluru-cag-report-7551976/
Pontee N, Narayan S, Beck MW, Hosking AH (2016) Nature-based solutions: Lessons from around the world. Proc Inst Civ Eng Marit Eng 169:29–36
Pune Municipal Corporation (2021) Pune River Rejuvination Project. Retrieved November 19, 2021 from https://www.pmc.gov.in/en/riverfront
Qi Y, Chan F, Thorne C, O’Donnell E, Quagliolo C, Comino E et al (2020) Addressing Challenges of Urban Water Management in Chinese Sponge Cities via Nature-Based Solutions. Water 12(10):2788
Silva W, Klijn F, Dijkman J (2001) Room for the Rhine branches in The Netherlands: What the research has taught us. Deltares (WL); RIZA
Singh M, Upmanyu V (2019) Urban flooding: The case of drowning cities and rising vulnerability. Retrieved October 26, 2021, from Downtoearth: https://www.downtoearth.org.in/blog/natural-disasters/urban-flooding-the-case-of-drowning-cities-and-rising-vulnerability-67203
Sirur S (2021) This is why Kerala and Uttarakhand are seeing heavy rainfall, flooding in October. Retrieved October 26, 2021, from The Print: https://theprint.in/environment/this-is-why-kerala-and-uttarakhand-are-seeing-heavy-rainfall-flooding-in-october/754184/
Sudmeier RK, Nehren U, Sandholz S, Doswald N (2019) Disasters and ecosystems: Resilience in a changing climate - source book. Geneva: UNEP and Cologne: TH Köln - University of Applied Sciences
Thakkar H (2021) No lessons learnt from past flood disasters. Retrieved October 25, 2021, from The Tribune: https://www.tribuneindia.com/news/comment/no-lessons-learnt-from-past-flood-disasters-329093
Town and Country Planning Organisation (2021) River Centric Urban Planning Guidelines. New Delhi: Ministry of Housing and Urban Affairs, Government of India
Tyson AS (2021) To curb urban flooding, China is building ‘sponge cities.’ Do they work? Retrieved November 9, 2021, from The Christian Science Monitor: https://www.csmonitor.com/World/Asia-Pacific/2021/0729/To-curb-urban-flooding-China-is-building-sponge-cities.-Do-they-work
UNDRR (2020) Ecosystem-based disaster risk reduction: Implementing nature-based solutions for resilience. Bangkok, Thailand: United Nations
Vazhuthi HI, Kumar A (2020) Causes and Impacts of Urban Floods in Indian Cities: A Review. Int J Emerg Technol 11(4):140–147
Vousdoukas MI, Athanasiou P, Giardino A, Mentaschi L, Stocchino A, Kopp RE, Menéndez P, Beck MW, Ranasinghe R, Feyen L (2023) Small Island Developing States under threat by rising seas even in a 1.5 °C warming world. Nat Sustain 6:1552–1564
Wani SP, Garg KK (2009) Watershed management concept and principles. Best-bet Options for Integrated Watershed Management Proceedings of the Comprehensive Assessment of Watershed Programs in India (pp. 1–11). Patancheru, Andhra Pradesh,India.: ICRISAT
World Bank Group, CAPRA (2016) Technical note - Methods in flood hazard and risk assessment. International Bank for Reconstruction and Development / The World Bank, Washington, DC
Yadwadkar S (2021) Pune River Front Development. Retrieved October 26, 2021, from South Asia Network on Dams, Rivers and People: https://sandrp.in/2021/08/05/pune-river-front-development-project/
Funding
There is no funding from any agency.
Author information
Authors and Affiliations
Contributions
Author 1 and 2, reviewed the entire work and drafted the paper, author 3, reviewed and corrected the script.
Corresponding author
Ethics declarations
Ethical Approval
There is no human or animal sample used in this study.
Consent to Participate
The authors wish to participate as authors in WARM.
Consent to Publish
The authors wish to publish their work in WARM.
Competing Interests
The authors having no competing interest.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Ghosh, P., Sudarsan, J.S. & Nithiyanantham, S. Nature-Based Disaster Risk Reduction of Floods in Urban Areas. Water Resour Manage 38, 1847–1866 (2024). https://doi.org/10.1007/s11269-024-03757-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11269-024-03757-4