Living within the safe and just Earth system boundaries for blue water
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Published:2023-11-16
Issue:1
Volume:7
Page:53-63
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ISSN:2398-9629
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Container-title:Nature Sustainability
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language:en
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Short-container-title:Nat Sustain
Author:
Stewart-Koster BenORCID, Bunn Stuart E.ORCID, Green PamelaORCID, Ndehedehe ChristopherORCID, Andersen Lauren S.ORCID, Armstrong McKay David I., Bai XuemeiORCID, DeClerck FabriceORCID, Ebi Kristie L.ORCID, Gordon Christopher, Gupta JoyeetaORCID, Hasan SyezlinORCID, Jacobson LisaORCID, Lade Steven J., Liverman Diana, Loriani SinaORCID, Mohamed AwazORCID, Nakicenovic Nebojsa, Obura DavidORCID, Qin Dahe, Rammelt CrelisORCID, Rocha Juan C.ORCID, Rockström JohanORCID, Verburg Peter H.ORCID, Zimm CarolineORCID
Abstract
AbstractSafe and just Earth system boundaries (ESBs) for surface water and groundwater (blue water) have been defined for sustainable water management in the Anthropocene. Here we assessed whether minimum human needs could be met with surface water from within individual river basins alone and, where this is not possible, quantified how much groundwater would be required. Approximately 2.6 billion people live in river basins where groundwater is needed because they are already outside the surface water ESB or have insufficient surface water to meet human needs and the ESB. Approximately 1.4 billion people live in river basins where demand-side transformations would be required as they either exceed the surface water ESB or face a decline in groundwater recharge and cannot meet minimum needs within the ESB. A further 1.5 billion people live in river basins outside the ESB, with insufficient surface water to meet minimum needs, requiring both supply- and demand-side transformations. These results highlight the challenges and opportunities of meeting even basic human access needs to water and protecting aquatic ecosystems.
Publisher
Springer Science and Business Media LLC
Subject
Management, Monitoring, Policy and Law,Nature and Landscape Conservation,Urban Studies,Renewable Energy, Sustainability and the Environment,Ecology,Geography, Planning and Development,Food Science,Global and Planetary Change
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