Groundwater governance for improving city water resilience in Cape Town, South Africa

IF 2.4 Q3 ENVIRONMENTAL SCIENCES
Tamsin Faragher, K. Carden
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引用次数: 1

Abstract

Until recently, Cape Town, South Africa's second largest city relied entirely on surface water for water supply. Low rainfall between 2015 and 2018 caused extreme water scarcity and water insecurity, even though the city is located on a number of significant aquifers. Water demand management measures instituted during the drought accelerated the transition to a decentralized, hybrid system. Groundwater played an important role in this transition, particularly for households, the bulk users of utility-supplied water. The current water governance and management is ill-equipped for the emergent hybrid system underpinned by an engineering approach that treats water narrowly as a resource for supply and use. This approach is problematic because it does not adequately consider water as one of multiple systems comprising the environment that supplies critical ecosystem services. Even though the City of Cape Town, as local government, effectively does not have a groundwater management role, its responsibilities for water and sanitation services, spatial planning, land-use management and environmental management all intersect with groundwater management. Significant water governance reform is therefore necessary for sustainable groundwater use and resilience in Cape Town and other South African cities.
南非开普敦地下水治理提高城市水恢复力
直到最近,南非第二大城市开普敦的供水完全依赖地表水。2015年至2018年的低降雨量导致了极度缺水和水不安全,尽管该市位于许多重要的含水层上。干旱期间制定的水需求管理措施加速了向分散的混合系统的过渡。地下水在这一转变中发挥了重要作用,尤其是对家庭来说,他们是公用事业供水的主要用户。目前的水治理和管理不适合以工程方法为基础的紧急混合系统,该方法将水狭隘地视为供应和使用的资源。这种方法是有问题的,因为它没有充分考虑到水是构成提供关键生态系统服务的环境的多个系统之一。尽管开普敦市作为地方政府实际上没有地下水管理的作用,但其在水和卫生服务、空间规划、土地使用管理和环境管理方面的职责都与地下水管理相交叉。因此,为了开普敦和其他南非城市的地下水可持续利用和恢复能力,有必要进行重大的水治理改革。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.00
自引率
7.10%
发文量
176
审稿时长
13 weeks
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