Session C9: Following Downstream Migration of Atlantic Salmon Smolt at a German Hydropower Station with Novel Fish Protection Technology: A Radiotelemetry Study

Abstract: To mitigate negative effects of hydropower production on riverine fish populations, new technological solutions need to be found to increase downstream fish passage. In this study, downstream passage of Atlantic salmon smolt was documented at the power plant Unkelmühle (River Sieg, Germany...

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Main Authors: Heermann, Lisa, Borcherding, Jost, Hedger, Richard, Staas, Stefan, Tambets, Meelis, Teichert, Maxim, Thorstadt, Eva, Økland, Finn
Format: Text
Language:unknown
Published: ScholarWorks@UMass Amherst 2015
Subjects:
Aquaculture and Fisheries
Hydraulic Engineering
Atlantic salmon
Online Access:https://scholarworks.umass.edu/fishpassage_conference/2015/June24/35
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spelling ftunivmassamh:oai:scholarworks.umass.edu:fishpassage_conference-1960 2023-05-15T15:31:50+02:00 Session C9: Following Downstream Migration of Atlantic Salmon Smolt at a German Hydropower Station with Novel Fish Protection Technology: A Radiotelemetry Study Heermann, Lisa Borcherding, Jost Hedger, Richard Staas, Stefan Tambets, Meelis Teichert, Maxim Thorstadt, Eva Økland, Finn 2015-06-24T23:30:00Z https://scholarworks.umass.edu/fishpassage_conference/2015/June24/35 unknown ScholarWorks@UMass Amherst https://scholarworks.umass.edu/fishpassage_conference/2015/June24/35 International Conference on Engineering and Ecohydrology for Fish Passage Aquaculture and Fisheries Hydraulic Engineering text 2015 ftunivmassamh 2022-01-10T06:53:55Z Abstract: To mitigate negative effects of hydropower production on riverine fish populations, new technological solutions need to be found to increase downstream fish passage. In this study, downstream passage of Atlantic salmon smolt was documented at the power plant Unkelmühle (River Sieg, Germany). Here, a novel approach is used, combining a 10 mm vertical trashrack with surface bypasses and a vertical slot pass for fish protection. Fish migrating through surface bypasses can be diverted into a concrete basin for monitoring purposes. A complex radio telemetry system was used to cover all potential migration corridors. In spring 2014, 78 salmon smolt were tagged with radio transmitters and released about 9 km upstream the power station. Additionally, another 800 smolt were dye marked and released at the same site. An intense monitoring program during the following weeks provided, amongst others, migration time, routes and speed. Catches in the monitoring basin showed that salmon was the dominant species migrating through the surface bypass (more than 60%), followed by nase, barbel and brown trout. Smolt were mainly caught after dusk and migration could be related to water discharge and temperature with wild smolt migrating slightly later than the stocked ones. Telemetry data showed that most smolt migrated with the main current towards the turbines, but were prevented from going through the turbines by the trashrack and used the surface bypasses instead. Migration speed for smolt differed according to the river stretch fish swam through (natural river stretch, reservoir and power plant). Studies at Unkelmühle as well as at two other power plants with different technological approaches for fish protection will continue to compare solutions and concepts that enable downstream fish passage. Text Atlantic salmon University of Massachusetts: ScholarWorks@UMass Amherst
institution Open Polar
collection University of Massachusetts: ScholarWorks@UMass Amherst
op_collection_id ftunivmassamh
language unknown
topic Aquaculture and Fisheries
Hydraulic Engineering
spellingShingle Aquaculture and Fisheries
Hydraulic Engineering
Heermann, Lisa
Borcherding, Jost
Hedger, Richard
Staas, Stefan
Tambets, Meelis
Teichert, Maxim
Thorstadt, Eva
Økland, Finn
Session C9: Following Downstream Migration of Atlantic Salmon Smolt at a German Hydropower Station with Novel Fish Protection Technology: A Radiotelemetry Study
topic_facet Aquaculture and Fisheries
Hydraulic Engineering
description Abstract: To mitigate negative effects of hydropower production on riverine fish populations, new technological solutions need to be found to increase downstream fish passage. In this study, downstream passage of Atlantic salmon smolt was documented at the power plant Unkelmühle (River Sieg, Germany). Here, a novel approach is used, combining a 10 mm vertical trashrack with surface bypasses and a vertical slot pass for fish protection. Fish migrating through surface bypasses can be diverted into a concrete basin for monitoring purposes. A complex radio telemetry system was used to cover all potential migration corridors. In spring 2014, 78 salmon smolt were tagged with radio transmitters and released about 9 km upstream the power station. Additionally, another 800 smolt were dye marked and released at the same site. An intense monitoring program during the following weeks provided, amongst others, migration time, routes and speed. Catches in the monitoring basin showed that salmon was the dominant species migrating through the surface bypass (more than 60%), followed by nase, barbel and brown trout. Smolt were mainly caught after dusk and migration could be related to water discharge and temperature with wild smolt migrating slightly later than the stocked ones. Telemetry data showed that most smolt migrated with the main current towards the turbines, but were prevented from going through the turbines by the trashrack and used the surface bypasses instead. Migration speed for smolt differed according to the river stretch fish swam through (natural river stretch, reservoir and power plant). Studies at Unkelmühle as well as at two other power plants with different technological approaches for fish protection will continue to compare solutions and concepts that enable downstream fish passage.
format Text
author Heermann, Lisa
Borcherding, Jost
Hedger, Richard
Staas, Stefan
Tambets, Meelis
Teichert, Maxim
Thorstadt, Eva
Økland, Finn
author_facet Heermann, Lisa
Borcherding, Jost
Hedger, Richard
Staas, Stefan
Tambets, Meelis
Teichert, Maxim
Thorstadt, Eva
Økland, Finn
author_sort Heermann, Lisa
title Session C9: Following Downstream Migration of Atlantic Salmon Smolt at a German Hydropower Station with Novel Fish Protection Technology: A Radiotelemetry Study
title_short Session C9: Following Downstream Migration of Atlantic Salmon Smolt at a German Hydropower Station with Novel Fish Protection Technology: A Radiotelemetry Study
title_full Session C9: Following Downstream Migration of Atlantic Salmon Smolt at a German Hydropower Station with Novel Fish Protection Technology: A Radiotelemetry Study
title_fullStr Session C9: Following Downstream Migration of Atlantic Salmon Smolt at a German Hydropower Station with Novel Fish Protection Technology: A Radiotelemetry Study
title_full_unstemmed Session C9: Following Downstream Migration of Atlantic Salmon Smolt at a German Hydropower Station with Novel Fish Protection Technology: A Radiotelemetry Study
title_sort session c9: following downstream migration of atlantic salmon smolt at a german hydropower station with novel fish protection technology: a radiotelemetry study
publisher ScholarWorks@UMass Amherst
publishDate 2015
url https://scholarworks.umass.edu/fishpassage_conference/2015/June24/35
genre Atlantic salmon
genre_facet Atlantic salmon
op_source International Conference on Engineering and Ecohydrology for Fish Passage
op_relation https://scholarworks.umass.edu/fishpassage_conference/2015/June24/35
_version_ 1766362354490015744

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