Linking fish tolerance to water quality criteria for the assessment of environmental flows: A practical method for streamflow regulation and pollution control

The survival of aquatic biota in stream ecosystems depends on both water quantity and quality, and is particularly susceptible to degraded water quality in regulated rivers. Maintenance of environmental flows (e-flows) for aquatic biota with optimum water quantity and quality is essential for sustai...

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Bibliographic Details
Published in:Water research (Oxford) 2018-09, Vol.141, p.96-108
Main Authors: Zhao, Changsen, Yang, Shengtian, Liu, Junguo, Liu, Changming, Hao, Fanghua, Wang, Zhonggen, Zhang, Huitong, Song, Jinxi, Mitrovic, Simon M., Lim, Richard P.
Format: Article
Language:English
Subjects:
Animals
Environmental flows
Environmental Monitoring - methods
Fish tolerance
Fishes
Hydrology
Rivers
Seasons
Streamflow regulation
Water pollutant control
Water Pollution - prevention & control
Water Quality
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Summary:The survival of aquatic biota in stream ecosystems depends on both water quantity and quality, and is particularly susceptible to degraded water quality in regulated rivers. Maintenance of environmental flows (e-flows) for aquatic biota with optimum water quantity and quality is essential for sustainable ecosystem services, especially in developing regions with insufficient stream monitoring of hydrology, water quality and aquatic biota. Few e-flow methods are available that closely link aquatic biota tolerances to pollutant concentrations in a simple and practical manner. In this paper a new method was proposed to assess e-flows that aimed to satisfy the requirements of aquatic biota for both the quantity and quality of the streamflow by linking fish tolerances to water quality criteria, or the allowable concentration of pollutants. For better operation of water projects and control of pollutants discharged into streams, this paper presented two coefficients for streamflow adjustment and pollutant control. Assessment of e-flows in the Wei River, the largest tributary of the Yellow River, shows that streamflow in dry seasons failed to meet e-flow requirements. Pollutant influx exerted a large pressure on the aquatic ecosystem, with pollutant concentrations much higher than that of the fish tolerance thresholds. We found that both flow velocity and water temperature exerted great influences on the pollutant degradation rate. Flow velocity had a much greater influence on pollutant degradation than did the standard deviation of flow velocity. This study provides new methods to closely link the tolerance of aquatic biota to water quality criteria for e-flow assessment. The recommended coefficients for streamflow adjustment and pollutant control, to dynamically regulate streamflow and control pollutant discharge, are helpful for river management and ecosystems rehabilitation. The relatively low data requirement also makes the method easy to use efficiently in developing regions, and thus this study has significant implications for managing flows in polluted and regulated rivers worldwide. [Display omitted] •We present a new e-flows assessment method linking fish tolerances to pollutant criteria.•Requirements of fish for both quantity and quality of streamflow were well addressed.•The method is not data-intensive especially suitable for data-scarce rivers.•It provides new ways to link tolerance of aquatic biota to water quality concentrations.•It has significant
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2018.05.025