Journal of Water and Climate Change (Dec 2023)
Assessing environmental flow alterations induced by dams and climate change using a distributed hydrological model at catchment scale
Abstract
Hydrological alterations by dams and climate change can reduce aquatic biodiversity by disrupting the life cycles of organisms. Here, we aimed to evaluate and compare the hydrological alterations caused by dams and climate change throughout the Omaru River catchment, Japan, using a distributed hydrological model (DHM). First, to assess the impacts of dam and climate change independently, we performed runoff analyses using either dam discharge or future climatic data (two future periods, 2031–2050 and 2081–2100 × three representative concentration pathways). Subsequently, we derived indicators of hydrologic alterations (IHA) to quantify changes in flow alterations by comparing them to IHA under natural conditions (i.e., without dam or climate change data). We found that dams altered IHAs more than climate change. However, on a catchment-scale standpoint, climate change induced wider ranges of flow alterations, such as a further decrease in low flow metrics along the tributaries and uppermost main stem, suggesting a catchment-level shrinkage in important corridors of aquatic organisms. We also observed that the altered flow by water withdrawals was ameliorated by the confluence of tributaries and downstream hydropower outflows. Our approach using a DHM captured the various patterns of flow alterations by dams and climate change. HIGHLIGHTS The hydrologic model is used to assess flow alterations by dams and climate change.; Compared with climate change, dams altered most environmental flow metrics.; Climate change decreased low flow metrics in upland streams and tributaries.; Ameliorations of the natural flow regime by hydropower outflows remained insufficient.; Prediction of spatial patterns of flow regime alterations is useful to river managers.;
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