Abstract
Climate change is likely to increase droughts. The vulnerability of cities to droughts is increasing worldwide. Policy responses from cities to droughts lack consideration of long-term climatic and socio-economic scenarios, and focus on short-term emergency actions that disregard sustainability in the connected regional and river basin systems. We aim to explore the dynamics of the water-energy-land nexus in urban systems suffering increased climate change-related droughts, and their implications for sustainability. We complement a case study with a literature review providing cross-regional insights, and detail pervasive knowledge, policy and ambition gaps in the interaction between cities and droughts. We show that water availability with low emissions, without compromising ecosystems and with low costs to society, poses a local-scale limit to sustainable urban growth, a new concept delineating the limits to growth in cities. We conclude that urban and river basin planners need to institutionalize transparency and cross-sectoral integration in multi-sector partnerships, to consider long-term land use planning together with water and energy, and to apply integrated climate services to cities. Our study reveals the importance of including land, water and energy in long-term urban planning, and to connect them with the county, region, river basin and global scales.
Highlights
Climate change is likely to increase drought duration and intensity (Vicente-Serrano et al, 2020; IPCC, 2013), while widespread urbani sation processes contribute to increased urban water demands
We aim to explore the dynamics of the water-energy-land nexus in urban systems suffering increased climate change-related droughts, and their implications for sustainability
We address the following overarching question: how can changes in available water under climate change be translated into attainable options for long-term sustainability in urban systems? This question has no clear answers yet, and it triggers further questions about the mutual implications between (i) the cross-scale and cross-sector interactions and related trade-offs within the water-energy-land nexus, emerging from the interactions between water demand from land uses, water supply under climate change, and energy demand to make more water available, (ii) the feedbacks between urban governance and sur rounding regions, and (iii) whether the Sustainable Development Goals (SDGs) can be achieved without limits to growth in urban systems (Nilsson et al, 2016)
Summary
Climate change is likely to increase drought duration and intensity (Vicente-Serrano et al, 2020; IPCC, 2013), while widespread urbani sation processes contribute to increased urban water demands. This question has no clear answers yet, and it triggers further questions about the mutual implications between (i) the cross-scale and cross-sector interactions and related trade-offs within the water-energy-land nexus, emerging from the interactions between water demand from land uses, water supply under climate change, and energy demand to make more water available, (ii) the feedbacks between urban governance and sur rounding regions, and (iii) whether the Sustainable Development Goals (SDGs) can be achieved without limits to growth in urban systems (Nilsson et al, 2016). We define drought as an existing or predicted imbalance between urban water supply and urban water demand
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