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Effects of lake – reservoir pumped-storage operations on temperature and water quality
Kobler, U. G., Wüest, A., & Schmid, M. (2018). Effects of lake – reservoir pumped-storage operations on temperature and water quality. Sustainability, 10(6), 1968 (15 pp.). https://doi.org/10.3390/su10061968
Hydropower externalities: a meta-analysis
Mattmann, M., Logar, I., & Brouwer, R. (2016). Hydropower externalities: a meta-analysis. Energy Economics, 57, 66-77. https://doi.org/10.1016/j.eneco.2016.04.016
Exploring the public value of increased hydropower use: a choice experiment study for Austria
Klinglmair, A., Bliem, M. G., & Brouwer, R. (2015). Exploring the public value of increased hydropower use: a choice experiment study for Austria. Journal of Environmental Economics and Policy, 4(3), 315-336. https://doi.org/10.1080/21606544.2015.1018956
Mitigation measures for fish habitat improvement in Alpine rivers affected by hydropower operations
Person, E., Bieri, M., Peter, A., & Schleiss, A. J. (2014). Mitigation measures for fish habitat improvement in Alpine rivers affected by hydropower operations. Ecohydrology, 7(2), 580-599. https://doi.org/10.1002/eco.1380
Wasserkraftnutzung im Wasserschloss Schweiz: Herausforderungen aus ökologischer Sicht
Weber, C., & Schmid, M. (2014). Wasserkraftnutzung im Wasserschloss Schweiz: Herausforderungen aus ökologischer Sicht. WSL-Berichte: Vol. 21. (pp. 15-23).
Streamflow modeling in a highly managed mountainous glacier watershed using SWAT: the upper Rhone river watershed case in Switzerland
Rahman, K., Maringanti, C., Beniston, M., Widmer, F., Abbaspour, K., & Lehmann, A. (2013). Streamflow modeling in a highly managed mountainous glacier watershed using SWAT: the upper Rhone river watershed case in Switzerland. Water Resources Management, 27(2), 323-339. https://doi.org/10.1007/s11269-012-0188-9
Integrated environmental management of hydropower operation under conditions of market liberalization
Truffer, B. (2010). Integrated environmental management of hydropower operation under conditions of market liberalization. In U. Bundi (Ed.), The handbook of environmental chemistry: Vol. 6. Alpine waters (pp. 227-234). https://doi.org/10.1007/978-3-540-88275-6_11
Riparian arthropod responses to flow regulation and river channelization
Paetzold, A., Yoshimura, C., & Tockner, K. (2008). Riparian arthropod responses to flow regulation and river channelization. Journal of Applied Ecology, 45(3), 894-903. https://doi.org/10.1111/j.1365-2664.2008.01463.x
Hydropower production and river rehabilitation: a case study on an alpine river
Fette, M., Weber, C., Peter, A., & Wehrli, B. (2007). Hydropower production and river rehabilitation: a case study on an alpine river. Environmental Modeling and Assessment, 12(4), 257-267. https://doi.org/10.1007/s10666-006-9061-7
Lake Brienz project: an interdisciplinary catchment-to-lake study
Wüest, A., Zeh, M., & Ackerman, J. D. (2007). Lake Brienz project: an interdisciplinary catchment-to-lake study. Aquatic Sciences, 69(2), 173-178. https://doi.org/10.1007/s00027-007-0016-0
An application of physical habitat modelling to quantify ecological flow for the Rheinau hydropower plant, River Rhine
Bloesch, J., Schneider, M., & Ortlepp, J. (2005). An application of physical habitat modelling to quantify ecological flow for the Rheinau hydropower plant, River Rhine. Archiv für Hydrobiologie Supplement: Large Rivers, 158(1-2), 305-328. https://doi.org/10.1127/lr/16/2005/305
Green hydropower: a new assessment procedure for river management
Bratrich, C., Truffer, B., Jorde, K., Markard, J., Meier, W., Peter, A., … Wehrli, B. (2004). Green hydropower: a new assessment procedure for river management. River Research and Applications, 20(7), 865-882. https://doi.org/10.1002/rra.788