Defining Renewable Groundwater Use and Its Relevance to Sustainable Groundwater Management

Author:

Cuthbert M. O.12ORCID,Gleeson T.3ORCID,Bierkens M. F. P.45ORCID,Ferguson G.678ORCID,Taylor R. G.9ORCID

Affiliation:

1. School of Earth and Environmental Sciences Cardiff University Cardiff UK

2. School of Civil and Environmental Engineering The University of New South Wales Sydney Australia

3. Department of Civil Engineering and School of Earth and Ocean Science University of Victoria Victoria BC Canada

4. Department of Physical Geography Utrecht University Utrecht The Netherlands

5. Deltares Unit Soil and Groundwater Systems Utrecht The Netherlands

6. Department of Civil Geological and Environmental Engineering University of Saskatchewan Saskatoon SK Canada

7. Global Institute for Water Security University of Saskatchewan Saskatoon SK Canada

8. Hydrology and Atmospheric Sciences University of Arizona Tucson AZ USA

9. Department of Geography University College London London UK

Abstract

AbstractGroundwater systems are commonly defined as renewable or non‐renewable based on natural fluxes of recharge or on estimates of aquifer storage and groundwater residence time. However, we show here that the principle of capture (i.e., how recharge and discharge change due to pumping) challenges simple definitions so that a groundwater system cannot be renewable or non‐renewable in and of itself, but only with reference to how the groundwater is being used. We develop and propose more hydraulically informed definitions for flux‐renewable and storage‐renewable groundwater use, and a combined definition that encompasses both the flux‐based and storage‐based perspectives such that: renewable groundwater use allows for dynamically stable re‐equilibrium of groundwater levels and quality on human timescales. Further, we show how a matrix of combinations of (a) the ratio of pumping rate to the maximum rate of capture along with (b) the response or recovery timescales implicit in this definition, leads to a useful four‐quadrant framework for characterizing groundwater use, illustrated using case studies from aquifers around the world. Renewable groundwater use may inform pathways to groundwater sustainability, which encompasses a broader set of dimensions (e.g., socio‐political, economic, ecological and cultural) beyond the scope of groundwater science. We propose that separating physically robust definitions of renewable groundwater use from the inherently value‐based language of sustainability, can help bring much needed clarity to wider discussions about sustainable groundwater management strategies, and the role of groundwater science and scientists in such endeavors.

Funder

Natural Environment Research Council

European Research Council

Publisher

American Geophysical Union (AGU)

Subject

Water Science and Technology

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