Poor Performance of a Retrofitted Downstream Bypass Revealed by the Analysis of Approaching Behaviour in Combination with a Trapping System

peer reviewed The implementation of fish downstream migration bypass systems is still a major challenge, and there is interest in validating the adequacy of different configurations of bypass devices. In the Amblève River (Belgium), a mobile 3.3-m height dam feeds two principal Francis and one Franc...

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Bibliographic Details
Published in:River Research and Applications
Main Authors: Ovidio, Michaël, Dierckx, Arnaud, Bunel, Sarah, Grandry, Louise, Spronck, Christelle, Benitez, Jean-Philippe
Other Authors: AFFISH-RC - Applied and Fundamental FISH Research Center - ULiège, FOCUS - Freshwater and OCeanic science Unit of reSearch - ULiège
Format: Article in Journal/Newspaper
Language:English
Published: John Wiley & Sons, Inc 2017
Subjects:
Salmo salar
Bypass
Performance
Hydroelectricity
Rivers
Behaviour
Fish-passage
Fishpass
Migration
Life sciences
Environmental sciences & ecology
Sciences du vivant
Sciences de l’environnement & écologie
Atlantic salmon
Online Access:https://orbi.uliege.be/handle/2268/200433
https://doi.org/10.1002/rra.3062
Description
Summary:peer reviewed The implementation of fish downstream migration bypass systems is still a major challenge, and there is interest in validating the adequacy of different configurations of bypass devices. In the Amblève River (Belgium), a mobile 3.3-m height dam feeds two principal Francis and one Francis micro-turbine and is equipped with a modern vertical slot fish pass and a downstream bypass. The aim of this study was to test the bypass attraction and efficiency (i.e. percentage of fish that approach the entrance and use the bypass) for Atlantic salmon smolts. During three consecutive years, a total of 1346 smolts were equipped with a radio frequency identification tag and released from March to May upstream of the dam of Lorcé. The entrance of the downstream migration bypass was equipped with a radio frequency identification antenna in order to detect the smolts approaching. In 2014, a capture cage was also placed downstream the bypass to evaluate its efficiency. The mean percentage of detected smolts at the entrance varied from 26.2 to 39.7%. In 2014, 16.5% of the released smolts entered the bypass and were finally caught in the cage, representing 39% of the smolts detected at the entrance. More than 98% of the detections occurred during night (mainly between 9 PM and 3 AM). The searching delay near the bypass entrance varied from less than 5 min to more than 5 days (median 4.3 min). Visual observation indicated a behavioural reluctance before entering the bypass, with a shift from positive to negative rheotaxy. Our results underline the difficulty to install retrofitted bypass system on old existing hydropower plants. Copyright © 2016 John Wiley & Sons, Ltd.

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