scholarly journals Water Sensitive Cities: integrated approach to enhance urban flood resilience in Parma (Northen Italy)

Author(s):  
Arianna Dada ◽  
Christian Urich ◽  
Michèle Pezzagno ◽  
Giovanna Grossi

<p>The climate change of the last half century is globally causing an increasingly in violent meteorological phenomena. Cities are experiencing the pressures of these phenomena and they are facing many challenges - economic, social, health and environmental.</p><p>Over the coming decades the population growth and the rapid urbanization will bring to a tumultuous growth of the cities that will become more and more vulnerable, especially to flood hazards.</p><p>In order to make our urban water systems more effective to these challenges new water management strategies must be developed. The complexity of this challenge calls for the integration of knowledge from different disciplines and collaborative approaches.</p><p>The concept of Water Sensitive Cities is one of the starting points for developing new techniques, strategies, policies, and tools to ensure a better liveability, sustainability, and resilience of the cities.</p><p>In this study, the DAnCE4Water model to promote the development of Water Sensitive Cities, was applied to Parma, an Italian town that faced serious water issues in the last years. Through the model the efficiency of new decentralized technologies, as green roofs and porous pavement, and their integration with the existing centralized technologies (sewerage), was estimated.</p><p>The first phase of the study concerned the analysis of the current state of the sewerage network and the relative critical issues. Flow rates and the amount of surface runoff were calculated using the SWMM modelling software.</p><p>In the second phase three hypothetical different scenarios were created by adopting different intervention strategies. The first scenario was created by using green roofs for a percentage of existing buildings in the urban area equal to 30%; the second scenario was created by adopting the porous pavement technology. For the third scenario, a possible urban development was simulated, with its consequent population, without adopting any flood risk mitigation strategy. A hydraulic study was carried out for each scenario highlighting the differences in terms of runoff formation and percentage of infiltration.</p><p>The integrated approach enables a city to test its current water management practices and policy, it helps cities to identify their short and long term goals to enhance water sensitivity, it gives a quantification of benefits and costs and it provides an estimate,  still in the design phase, of the effectiveness of possible strategies under different scenarios like climate changes, changes in the societal needs and urban changes by modelling the complex dynamics between societal system, urban environment and the urban water system.</p>

2014 ◽  
Vol 70 (11) ◽  
pp. 1774-1781 ◽  
Author(s):  
Yifan Ding ◽  
Deshan Tang ◽  
Yuhang Wei ◽  
Sun Yin

Water resources in many urban areas are under enormous stress due to large-scale urban expansion and population explosion. The decision-makers are often faced with the dilemma of either maintaining high economic growth or protecting water resources and the environment. Simple criteria of water supply and drainage do not reflect the requirement of integrated urban water management. The Urban-Water Harmony (UWH) model is based on the concept of harmony and offers a more integrated approach to urban water management. This model calculates four dimensions, namely urban development, urban water services, water–society coordination, and water environment coordination. And the Analytic Hierarchy Process has been used to determine the indices weights. We applied the UWH model to Beijing, China for an 11-year assessment. Our findings show that, despite the severe stress inherent in rapid development and water shortage, the urban water relationship of Beijing is generally evolving in a positive way. The social–economic factors such as the water recycling technologies contribute a lot to this change. The UWH evaluation can provide a reasonable analysis approach to combine various urban and water indices to produce an integrated and comparable evaluation index. This, in turn, enables more effective water management in decision-making processes.


2020 ◽  
Author(s):  
Geoff Beeson

Freshwater scarcity is a critical challenge, with social, economic, political and environmental consequences. Water crises in Australia have already led to severe restrictions being applied in cities, drought ravaging farmlands, and the near-terminal decline of some rivers and wetlands. A Water Story provides an account of Australian water management practices, set against important historical precedents and the contemporary experience of other countries. It describes the nature and distribution of the country's natural water resources, management of these resources by Indigenous Australians, the development of urban water supply, and support for pastoral activities and agricultural irrigation, with the aid of case studies and anecdotes. This is followed by discussion of the environmental consequences and current challenges of water management, including food supply, energy and climate change, along with options for ensuring sustainable, adequate high-quality water supplies for a growing population. A Water Story is an important resource for water professionals and those with an interest in water and the environment and related issues, as well as students and the wider community.


Water ◽  
2020 ◽  
Vol 12 (5) ◽  
pp. 1456
Author(s):  
Robert Sitzenfrei ◽  
Manfred Kleidorfer ◽  
Peter M. Bach ◽  
Taneha Kuzniecow Bacchin

Urban water systems face severe challenges such as urbanisation, population growth and climate change. Traditional technical solutions, i.e., pipe-based, grey infrastructure, have a single purpose and are proven to be unsustainable compared to multi-purpose nature-based solutions. Green Infrastructure encompasses on-site stormwater management practices, which, in contrast to the centralised grey infrastructure, are often decentralised. Technologies such as green roofs, walls, trees, infiltration trenches, wetlands, rainwater harvesting and permeable pavements exhibit multi-functionality. They are capable of reducing stormwater runoff, retaining stormwater in the landscape, preserving the natural water balance, enhancing local climate resilience and also delivering ecological, social and community services. Creating multi-functional, multiple-benefit systems, however, also warrants multidisciplinary approaches involving landscape architects, urban planners, engineers and more to successfully create a balance between cities and nature. This Special Issue aims to bridge this multidisciplinary research gap by collecting recent challenges and opportunities from on-site systems up to the watershed scale.


Climate ◽  
2021 ◽  
Vol 9 (10) ◽  
pp. 152
Author(s):  
Arianna Dada ◽  
Christian Urich ◽  
Francesca Berteni ◽  
Michèle Pezzagno ◽  
Patrizia Piro ◽  
...  

Climate change is globally causing more intense meteorological phenomena. Our cities experience increased rainfall intensity, more intense heat waves, and prolonged droughts providing economic, social, health and environmental challenges. Combined with population growth and rapid urbanization, the increasing impact of climate change will make our cities more and more vulnerable, especially to urban flooding. In order to adapt our urban water systems to these challenges, the adoption of newly emerging water management strategies is required. The complexity and scale of this challenge calls for the integration of knowledge from different disciplines and collaborative approaches. The water sensitive cities principles provide guidance for developing new techniques, strategies, policies, and tools to improve the livability, sustainability, and resilience of cities. In this study, the DAnCE4Water modeling approach promoting the development of water sensitive cities was applied to Parma, an Italian town that has faced serious water issues in the last few years. The city, indeed, had to face the consequences of flooding several times, caused by the inadequacy of both the network of open channels and the sewerage network due to the urban expansion and climate change of the last 30 years. Through the model, the efficiency of decentralized technologies, such as green roofs and porous pavement, and their integration with the existing centralized combined sewer system was assessed under a range of urban development scenarios. The obtained results show that the adoption of an integrated approach, including soft engineering hydraulic strategies, consisting in the use of natural and sustainable solutions, can increase resilience to urban flooding. Further, the study shows that there is a critical need for strategic investment in solutions that will deliver long-term sustainable outcomes.


2021 ◽  
Author(s):  
Sarin Raj Pokhrel ◽  
Gyan Chhipi-Shrestha ◽  
Kasun Hewage ◽  
Rehan Sadiq

An urban water system (UWS) has three main service components: 1) drinking water, 2) wastewater, and 3) stormwater. Historically, each component in urban water development evolved over time with different objectives for “different” types of water. Even today, the trend continues, as different urban water services are managed in silos. This trend is less sustainable, resilient, and reliable mainly because of significant pressures on freshwater supplies exerted by increasing population, demand for high living standards, rapid urbanization, and climate change. To cope with these challenges, the conventional thinking necessitates a change. This paper identifies a number of significant research gaps related to inter-relationships among various UWS service components. An innovative paradigm - One Water Approach (OWA), which considers “urban water” as a single entity, is investigated. Currently, Australia, the United States, and Singapore are leading the pack to implement OWA, whereas only a few Canadian municipalities have embraced OWA at a very basic level. In the European Union nations, Amsterdam (Netherlands) emphasized the need for integrated water resource management in an urban environment. This review highlights the challenges in adopting OWA and also proposes guiding principles in ongoing water management practices. Institutional complexities involving an intricate regulatory structure for different UWS service components, a wider fragmentation in decision making at government levels, and insufficient stakeholder engagement within and between water utilities and other institutions present serious challenges. Various strategies such as, data sharing between water utilities, use of novel technologies (e.g., artificial intelligence, sensor technologies), and visionary leadership at different government levels have been identified as key drivers for the adoption and implementation of OWA. The authors believe that a paradigm shift from ‘conventional’ approach to OWA is needed to increase resiliency and reliability of water services and assist decision-makers of UWSs.


2015 ◽  
Vol 15 (3) ◽  
pp. 456-473 ◽  
Author(s):  
K. Y. Foo

Urban water management remains a complex interplay between climate change, population growth, water scarcity, and the living environment. This agenda has called for an integrated, coordinated, ecologically-oriented, and participatory approach to the reliable protection of water resources. Malaysia, endowed with its rich natural resources and diversity recognizes the need to adopt a sound developmental framework to transform the country's water management landscape to a high quality and excellent level. In parallel with this development, both government and non-governmental organizations continue to advocate national efforts to address environmental research for incorporating the sustainability of environmental literacy and conservation of ecosystems. The plan espouses the establishment of urban water recycling, bio-retention systems, and constructed wetlands to buffer the impacts of water pollution, and preserve ecosystems for the neighboring communities. The impetus is accompanied by the integration of water quality monitoring systems, and boosted by the implementation of expert analysis. The present work attempts to address the dynamic pressure, key challenges, and benefits of urban water management practices in Malaysia. The sustainable concepts of waterfronts, constructed wetlands, and implementation of water monitoring analysis are elucidated. In addition, the research breakthroughs, major obstacles, and co-operative ventures for the promotion of urban water management are outlined.


2017 ◽  
Vol 23 (2) ◽  
pp. 186-198 ◽  
Author(s):  
Neil S. Grigg ◽  
Theresa Connor ◽  
Alex Maas

Cities seeking to reform water management practices that degrade sustainability are challenged by limited resources, financial needs of legacy infrastructures, institutional barriers, and rigid regulatory environments. Stakeholders in urban water programs report that financial aspects of One Water top their list of concerns. As shown by local initiatives, integrated water management strategies based on the One Water concept can help to mitigate these problems and provide additional benefits and co-benefits. Experiences reported by cities identify practices that facilitate financial solutions to ongoing concerns. Drawing from three sets of One Water cases, 36 examples were shown to include significant financial innovation. Analysis of them pointed to strategies that involve organizational approaches, regional shared governance, partnerships, resource conservation, and corporate social responsibility. Financial innovation in each category requires further study to identify new opportunities and to validate feasibility, along with benefits and co-benefits.


2019 ◽  
Vol 11 (11) ◽  
pp. 3001 ◽  
Author(s):  
Meine Pieter van Dijk ◽  
Mingshun Zhang

Three paradigms used in China to deal with urban water issues are compared. The analysis focuses on their definition and objectives, the role of different stakeholders, the issues they deal with and the possible solutions suggested. The use of these paradigms in Chinese cities is compared on different dimensions to conclude when and where they can be used for which purpose. The paradigms differ substantially in their scope (from the narrow focus of the sponge city paradigm to the broad goals of eco-city paradigms) and in terms of the governance mechanisms used to coordinate between different actors. The resilient and sponge paradigms mainly use government structures to achieve their objectives, while the idea is to also involve the private sector (certainly in case of the sponge city paradigm). This has not happened most of the times because project money had to be spent in time. In the eco-cities approach the citizens want to be involved through newly created governance structures. In resilient cities potential victims may be involved. Resilient and eco-city initiatives emphasize the involvement of stakeholders, while in the sponge cities approach the initiative is often taken by local government. Finally, in terms of expected solutions, the paradigms want to avoid disaster, create an eco-city or improve water management. Only in the case of eco-cities there is more space for different water management practices and using alternative technologies. Water-related technologies are available, generating energy from wastewater or underground water and diminishing the dependence on fossil fuels.


2020 ◽  
Vol 12 (7) ◽  
pp. 3055
Author(s):  
Karoline Richter ◽  
Daniel Costa dos Santos ◽  
Aloísio Leoni Schmid

The challenges of urban water management and sanitary infrastructure (water supply (WSS), sewage (SS), urban drainage (UDS) systems) are increasingly frequent in Brazilian cities whether as a combined result of overcrowding and/or a lack governmental interest and hence investments, in the sector. Such an increase in environmental pressure reflects directly on population welfare and well-being related to the availability of drinking water, wastewater treatment, and access to effective drainage systems in order to minimize, or at least reduce, the occurrence of urban flooding and associated public health risks. Thus, alternatives with an integrated approach to urban water management are interesting to the reality of countries such as Brazil. The urban water use (UWU) model is a strategic planning tool with integrated way of thinking, which selects measures to mitigate the urban impacts in sanitary infrastructure and buildings. In this sense, the objective of this research is to apply the UWU model in a case study in Curitiba/Brazil to demonstrate the effect of the systematic approach and its intrinsic synergies in the systems in question, promoting water conservation in urban areas. The results are favorable to integrated systems with synergy use, evidencing quantitatively a greater efficiency in them.


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