Integrated Water Resources Management in Cities in the World: Global Solutions

Abstract

Population growth, urbanisation, climate change, biodiversity loss, energy use, water security and ageing infrastructures for water supply and treatment require a thorough understanding of the options available for moving towards sustainable cities. The present study provides an analysis of transformation patterns regarding integrated water resources management (IWRM) of cities across the globe. We evaluate IWRM in 125 cities with 48 mostly quantitative indicators collected for each city by performing a cluster analysis of 6,000 indicator scores following the City Blueprint Approach. We distinguish five clusters of cities which show a pattern of problem-shifting, i.e., the shifting of largely preventable water resources problems often in the following sequence: drinking water insecurity, pollution caused by inadequate wastewater treatment, inadequate solid waste management, inaction on climate change adaptation, and resource depletion. A city that can address and solve all these problems can be classified as water-wise. Based on the cluster analysis, seven principles are defined to enable urban areas to become water-wise. Because water takes a central position in the United Nations sustainable development goals (SDGs), and is linked, directly or indirectly, to nearly all SDGs, success in IWRM is an important enabler for the other SDGs.