Abstract
The management of droughts is a challenging issue, especially in water scarcity areas, where this problem will be exacerbated in the future. The aim of this paper is to identify potential groundwater (GW) bodies with reduced vulnerability to pumping, which can be used as buffer values to define sustainable conjunctive use management during droughts. Assuming that the long term natural mean reserves are maintained, a preliminary assessment of GW vulnerability can be obtained by using the natural turnover time (T) index, defined in each GW body as the storage capacity (S) divided by the recharge (R). Aquifers where R is close to S are extremely vulnerable to exploitation. This approach will be applied in the 146 Spanish GW bodies at risk of not achieving the Water Framework Directive (WFD objectives, to maintain a good quantitative status. The analyses will be focused on the impacts of the climate drivers on the mean T value for Historical and potential future scenarios, assuming that the Land Use and Land Cover (LULC) changes and the management strategies will allow maintenance of the long term mean natural GW body reserves. Around 26.9% of these GW bodies show low vulnerability to pumping, when viewing historical T values over 100 years, this percentage growing to 33.1% in near future horizon values (until 2045). The results show a significant heterogeneity. The range of variability for the historical T values is around 3700 years, which also increases in the near future to 4200 years. These T indices will change in future horizons, and, therefore, the potential of GW resources to undergo sustainable strategies to adapt to climate change will also change accordingly, making it necessary to apply adaptive management strategies.
Highlights
The management of droughts is a challenging issue, especially in water scarcity areas with water deficits in terms of long-term average conditions [1]
Tvalues above 100 years, with this percentage increasing to 33.1% in the near future horizon values
T values are used to assess vulnerability to pumping during drought periods, assuming that the long-term management of the Water Resources Systems will allow for the maintenance of natural mean reserves of the GW bodies, even under future long-term recharge (R) scenarios
Summary
The management of droughts is a challenging issue, especially in water scarcity areas with water deficits in terms of long-term average conditions [1]. Water 2020, 12, 3281 deficit in water demand satisfaction in a system In most of these areas, the frequency and intensity of the drought events will be exacerbated in the future, due to climate change [4]. In this framework, groundwater (GW) may play a significant role for sustainable management of water scarcity, due to its role as buffer value, providing additional resources that can be temporarily employed to cover necessities during critical droughts [5]. GW resources are crucial for appropriate analyses of scarcity, and due to aquifer status have an important influence on water availability to fulfil demands
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