City Blueprints: Baseline Assessments of Sustainable Water Management in 11 Cities of the Future

The necessity of Urban Water Cycle Services (UWCS) adapting to future stresses calls for changes that take sustainability into account. Megatrends (e.g. population growth, water scarcity, pollution and climate change) pose urgent water challenges in cities. In a previous paper, a set of indicators, i.e., the City Blueprint has been developed to assess the sustainability of UWCS (Van Leeuwen et al., Wat Resour Manage 26:2177–2197, 2012). In this paper this approach has been applied in 9 cities and regions in Europe (Amsterdam, Algarve, Athens, Bucharest, Hamburg, Reggio Emilia, Rotterdam, Oslo and Cities of Scotland) and in 2 African cities in Angola (Kilamba Kiaxi) and Tanzania (Dar es Salaam). The assessments showed that cities vary considerably with regard to the sustainability of the UWCS. This is also captured in the Blue City Index (BCI), the arithmetic mean of 24 indicators comprising the City Blueprint (Van Leeuwen et al., Wat Resour Manage 26:2177–2197, 2012). Theoretically, the BCI has a minimum score of 0 and a maximum score of 10. The actual BCIs in the 11 cities studied varied from 3.31 (Kilamba Kiaxi) to 7.72 (Hamburg). The BCI was positively correlated with the Gross Domestic Product (GDP) per person, the ambitions of the local authorities regarding the sustainability of the UWCS, the voluntary participation index (VPI) and all governance indicators according to the World Bank. The study demonstrated that the variability in sustainability among the UWCS of cities offers great opportunities for short-term and long-term improvements, provided that cities share their best practices.

[1]  A. Hoekstra,et al.  Global Monthly Water Scarcity: Blue Water Footprints versus Blue Water Availability , 2012, PloS one.

[2]  D. Butler,et al.  Distributed Water Infrastructure for Sustainable Communities , 2010 .

[3]  Jamie Bartram,et al.  Safer water, better health: costs, benefits and sustainability of interventions to protect and promote health. , 2008 .

[4]  R R Brown,et al.  Urban water management in cities: historical, current and future regimes. , 2009, Water science and technology : a journal of the International Association on Water Pollution Research.

[5]  Helena Alegre,et al.  Strategic Asset Management of Water Supply and Wastewater Infrastructures , 2009 .

[6]  Xuemei Bai,et al.  Industrial Ecology and the Global Impacts of Cities , 2007 .

[7]  Jos Frijns,et al.  City Blueprints: 24 Indicators to Assess the Sustainability of the Urban Water Cycle , 2012, Water Resources Management.

[8]  N. Grimm,et al.  Global Change and the Ecology of Cities , 2008, Science.

[9]  N. C. van de Giesen,et al.  The closed city as a strategy to reduce vulnerability of urban areas for climate change. , 2007, Water science and technology : a journal of the International Association on Water Pollution Research.

[10]  Christos Makropoulos,et al.  Source to tap urban water cycle modelling , 2013, Environ. Model. Softw..

[11]  Suzanne L. Smith,et al.  Every Drop Counts Protecting High-Risk Neonates With Human Milk , 2014 .

[12]  Nick van de Giesen,et al.  Alternative water management options to reduce vulnerability for climate change in the Netherlands , 2009 .

[13]  Cornelis J. van Leeuwen,et al.  The city blueprint: experiences with the implementation of 24 indicators to assess the sustainability of the urban water cycle , 2013 .

[14]  D. Revel Urban adaptation to climate change in Europe , 2012 .

[15]  N. C. Van de Giesen,et al.  The closed city as a strategy to reduce vulnerability of urban areas for climate change. , 2007 .

[16]  Daniel A. Kaufmann,et al.  The Worldwide Governance Indicators: Methodology and Analytical Issues , 2010 .

[17]  Arjen Ysbert Hoekstra,et al.  National water footprint accounts: the green, blue and grey water footprint of production and consumption , 2011 .

[18]  P. Driessen,et al.  Governing Towards Sustainability—Conceptualizing Modes of Governance , 2013 .

[19]  Aad Schuetze Thorsten Correlje Every drop counts : environmentally sound technologies for urban and domestic water use efficiency , 2008 .