Abstract
The provision of a sustainable supply of water is an increasingly difficult task to achieve in many urban environments. This arises because of pressures related to population growth and increased per capita demand for water. Additionally, climate change is impacting the natural cycle of water in many locations, with a significant impact projected for the future. Many scholars advocate ‘sustainable urban water management’ (SUWM) as an approach that can address the root causes of these challenges. Yet the implementation of SUWM and adaptation to climate change in the urban water sector remains limited. This paper argues that spatial planning provides tools and processes that can facilitate the full implementation of SUWM goals, and adaptation to climate change. The potential of spatial planning to achieve SUWM, including sustainable urban water supply management through both supply and demand end initiatives, in light of climate change, is discussed. A framework is developed to consider a broad range of spatial planning interventions that can facilitate adaptation to climate change and SUWM concurrently. The paper provides information and tools to assist water planners achieve SUWM and a well-adapted water sector and urban environment, in an integrated, holistic and comprehensive manner, to meet future water supply needs. Achieving these goals will need collaborative activities across multiple built environment disciplines. Future research activities to advance these goals are outlined.
Highlights
Water is essential for life, and yet there is evidence that we are facing a water crisis [1,2], with recent warnings that we are already experiencing “peak water” [3]
We argue that spatial planning can play a key role in achieving the implementation of sustainable urban water management’ (SUWM), and climate change adaptation in the urban water supply sector
While acknowledging the significant role water plays in all sectors of society, this paper focuses on urban water supply management rather than on flood control
Summary
Water is essential for life, and yet there is evidence that we are facing a water crisis [1,2], with recent warnings that we are already experiencing “peak water” [3]. The impacts of climate change are predicted to undermine the ability of many existing urban water supply systems to meet both the future and present needs of the populations they serve [5,6]. SUWM has been defined by Gleick as requiring ‘the use of water that supports the ability of human society to endure and flourish into the indefinite future without undermining the integrity of the hydrological cycle or the ecological systems that depend on it’ [8]
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