Cumulative effects of cascade dams on river water cycle: Evidence from hydrogen and oxygen isotopes
Abstract
Cascade dams are known to influence the river water cycle, but their cumulative effects (CEs) are still not well understood. Water hydrogen (H) and oxygen (O) isotopes are hypothesized to be used to characterize the CEs. To test this hypothesis, we investigated water δD, δ18O, and related environmental factors in cascade reservoirs on the Wujiang River, Southwest China. The δD and δ18O ranged from -64.2‰ to -45.4‰ and from -9.7‰ to -6.8‰, respectively, and showed obvious temporal and spatial variations. Water temperature is an important factor influencing these variations. After damming, an increase of water retention time caused the enrichment of heavy H-O isotopes in reservoir surface water, and thermal stratification induced a decrease of δD and δ18O with depth. Due to bottom discharge, released water showed more negative δD and δ18O than reservoir surface water, and these δD and δ18O differences were controlled by water retention time and mean water depth of the reservoir. Overall, the CEs of cascade dams caused δD and δ18O to display a jagged increase from upstream to downstream in the impounded Wujiang River. Therefore H-O isotopes can be used to estimate the CEs of cascade dams. As cascade dams can modify H-O isotope signatures, caution should be exercised when using H and O isotopes to trace the source of the impounded river water.
- Publication:
-
Journal of Hydrology
- Pub Date:
- January 2019
- DOI:
- 10.1016/j.jhydrol.2018.11.016
- Bibcode:
- 2019JHyd..568..604W
- Keywords:
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- Hydrogen and oxygen isotopes;
- Cumulative effects;
- Retention time;
- Cascade reservoirs;
- Wujiang River