Abstract
Adaptive water management is a promising management paradigm for rivers that addresses the uncertainty of decision consequences. However, its implementation into current practice is still a challenge. An optimization assessment can be framed within the adaptive management cycle allowing the definition of environmental flows (e-flows) in a suitable format for decision making. In this study, we demonstrate its suitability to mediate the incorporation of e-flows into diversion management planning, fostering the realization of an adaptive management approach. We used the case study of the Pas River, Northern Spain, as the setting for the optimization of surface water diversion. We considered e-flow requirements for three key river biological groups to reflect conditions that promote ecological conservation. By drawing from hydrological scenarios (i.e., dry, normal, and wet), our assessment showed that the overall target water demand can be met, whereas the daily volume of water available for diversion was not constant throughout the year. These results suggest that current the decision making needs to consider the seasonal time frame as the reference temporal scale for objectives adjustment and monitoring. The approach can be transferred to other study areas and can inform decision makers that aim to engage with all the stages of the adaptive water management cycle.
Highlights
The optimization assessment framework presented in this study represents the “structured set of steps and considerations used for the formulation [of the optimization problem]” [44] underpinning the optimization modeling exercise conducted for the case study of the Pas River, Northern Spain (Section 2.2)
The results indicate that the daily availability of water for abstraction varied throughout the year; what we explored from the model results was this day-to-day variability in the water quantity for municipal diversion defined as optimized discharge (OD)
We demonstrated that the optimization process structure matches the presented approach applied for e-flow requirements incorporation
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. The concept of integrated water resource management (IWRM) embodies the willingness to account for the economic, social, and ecological implications of water management [1]. River regulation, such as damming, barrages, and river training, can affect both the sediment balance, inducing morphological changes, and the hydrological regime [2,3]. Many of the current water management decisions for regulated rivers worldwide aim for the sustainable use of water resources to protect natural ecosystems [4]
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