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Journal Article

Integrating the water planetary boundary with water management from local to global scales

Authors

Zipper,  S. C.
External Organizations;

Jaramillo,  F.
External Organizations;

Wang-Erlandsson,  L.
External Organizations;

Cornell,  S. E.
External Organizations;

Gleeson,  T.
External Organizations;

Porkka,  M.
External Organizations;

Häyhä,  T.
External Organizations;

Crépin,  A.-S.
External Organizations;

Fetzer,  I.
External Organizations;

/persons/resource/Dieter.Gerten

Gerten,  Dieter
Potsdam Institute for Climate Impact Research;

/persons/resource/hhoff

Hoff,  Holger
Potsdam Institute for Climate Impact Research;

Matthews,  N.
External Organizations;

Ricaurte-Villota,  C.
External Organizations;

Kummu,  M.
External Organizations;

Wada,  Y.
External Organizations;

Gordon,  L.
External Organizations;

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23590oa.pdf
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Citation

Zipper, S. C., Jaramillo, F., Wang-Erlandsson, L., Cornell, S. E., Gleeson, T., Porkka, M., Häyhä, T., Crépin, A.-S., Fetzer, I., Gerten, D., Hoff, H., Matthews, N., Ricaurte-Villota, C., Kummu, M., Wada, Y., Gordon, L. (2020): Integrating the water planetary boundary with water management from local to global scales. - Earth's Future, 8, 2, e2019EF001377.
https://doi.org/10.1029/2019EF001377


Cite as: https://publications.pik-potsdam.de/pubman/item/item_23590
Abstract
The planetary boundaries framework defines the “safe operating space for humanity” represented by nine global processes that can destabilize the Earth System if perturbed. The water planetary boundary attempts to provide a global limit to anthropogenic water cycle modifications, but it has been challenging to translate and apply it to the regional and local scales at which water problems and management typically occur. We develop a cross‐scale approach by which the water planetary boundary could guide sustainable water management and governance at subglobal contexts defined by physical features (e.g., watershed or aquifer), political borders (e.g., city, nation, or group of nations), or commercial entities (e.g., corporation, trade group, or financial institution). The application of the water planetary boundary at these subglobal contexts occurs via two approaches: (i) calculating fair shares, in which local water cycle modifications are compared to that context's allocation of the global safe operating space, taking into account biophysical, socioeconomic, and ethical considerations; and (ii) defining a local safe operating space, in which interactions between water stores and Earth System components are used to define local boundaries required for sustaining the local water system in stable conditions, which we demonstrate with a case study of the Cienaga Grande de Santa Marta wetlands in Colombia. By harmonizing these two approaches, the water planetary boundary can ensure that water cycle modifications remain within both local and global boundaries and complement existing water management and governance approaches.