<p>Dam operations worldwide have traditionally prioritized flood control, water supply, and hydropower generation, often resulting in altered flow regimes that affect downstream river environments. In this study, we present an indicator-based framework for monitoring and assessing ecological flows downstream of dams under alternative release scenarios designed to reflect key characteristics of natural runoff. The framework integrates hydraulic modeling with an ecological flow assessment approach to support the evaluation of flow conditions relevant to fish habitat sustainability. The methodology consists of five sequential steps: (1) selection of representative fish species as ecological targets, (2) development of dam release scenarios using the building block methodology (BBM), (3) estimation of ecologically critical flow (ECF) and ecological minimum flow (EMF) using the River2D hydrodynamic model, (4) formulation of the River Ecological Flow Index (REFI) to characterize flow–habitat conditions, and (5) long-term assessment of ecological flow status. Habitat responses to different release scenarios were quantified using weighted usable area (WUA), while REFI classified ecological flow conditions into five categories based on ECF and EMF thresholds. Application of the framework showed that hydropower-oriented releases produced persistently low ecological flow conditions, whereas ecologically informed release scenarios resulted in improved flow classifications. The proposed framework provides a practical and monitoring-oriented tool for assessing ecological flow conditions downstream of dams and offers quantitative support for adaptive dam operation and river management.</p>

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An indicator-based framework for monitoring and assessing ecological flows downstream of dams

  • Semin Kim

摘要

Dam operations worldwide have traditionally prioritized flood control, water supply, and hydropower generation, often resulting in altered flow regimes that affect downstream river environments. In this study, we present an indicator-based framework for monitoring and assessing ecological flows downstream of dams under alternative release scenarios designed to reflect key characteristics of natural runoff. The framework integrates hydraulic modeling with an ecological flow assessment approach to support the evaluation of flow conditions relevant to fish habitat sustainability. The methodology consists of five sequential steps: (1) selection of representative fish species as ecological targets, (2) development of dam release scenarios using the building block methodology (BBM), (3) estimation of ecologically critical flow (ECF) and ecological minimum flow (EMF) using the River2D hydrodynamic model, (4) formulation of the River Ecological Flow Index (REFI) to characterize flow–habitat conditions, and (5) long-term assessment of ecological flow status. Habitat responses to different release scenarios were quantified using weighted usable area (WUA), while REFI classified ecological flow conditions into five categories based on ECF and EMF thresholds. Application of the framework showed that hydropower-oriented releases produced persistently low ecological flow conditions, whereas ecologically informed release scenarios resulted in improved flow classifications. The proposed framework provides a practical and monitoring-oriented tool for assessing ecological flow conditions downstream of dams and offers quantitative support for adaptive dam operation and river management.