Hypolimnetic withdrawal as a lake restoration technique: determination of feasibility and continued benefits

Author:

Nürnberg Gertrud K.ORCID

Publisher

Springer Science and Business Media LLC

Subject

Aquatic Science

Reference43 articles.

1. Anderson, M. A., A. Komor & K. Ikehata, 2014. Flow routing with bottom withdrawal to improve water quality in Walnut Canyon Reservoir, California. Lake and Reservoir Management 30: 131–142.

2. Araújo, F., F. van Oosterhout, V. Becker, J. L. Attayde & M. Lürling, 2018. Effects of polyaluminum chloride and lanthanum-modified bentonite on the growth rates of three Cylindrospermopsis raciborskii strains. PLoS ONE 13: e0195359.

3. Austin, H., D. Bradley, I. Stewart-Russon & N. Milner, 2015. Literature review of the influence of large impoundments on downstream temperature, water quality and ecology, with reference to the Water Framework Directive Scottish Environmental Protection Agency APEM Ref: 413570. Scottish Environmental Protection Agency: 84.

4. Bormans, M., B. Maršálek & D. Jančula, 2016. Controlling internal phosphorus loading in lakes by physical methods to reduce cyanobacterial blooms: a review. Aquatic Ecology 50: 407–422.

5. Cancelli, M. & G. Ferrari, 2019. Environmental impact of the hypolimnetic withdrawal system on Varese Lake. Master of Science, University of Brescia, Civil and Environmental Engineering.

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