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Efficient and timely downstream passage solutions for European silver eels at hydropower dams

Calles, Olle ; Elghagen, Jonas ; Nyqvist, Daniel ; Harbicht, Andrew and Nilsson, P. Anders LU orcid (2021) In Ecological Engineering 170.
Abstract

The European eel population is critically endangered due to a multitude of human-induced factors such as habitat fragmentation, parasites, fishing, and climate change. In freshwater, downstream migrating silver eels encountering hydroelectric plants often suffer substantial delays and increased mortality from trash-rack impingement and turbine-induced mortality. Downstream passage problems can be ameliorated by implementing different types of downstream passage solutions that show variable but promising results for salmonids, but their performance for silver eels remains largely unknown. To address these knowledge gaps, radio telemetry was used to monitor the downstream migration of silver eels during 2 years past a hydroelectric plant... (More)

The European eel population is critically endangered due to a multitude of human-induced factors such as habitat fragmentation, parasites, fishing, and climate change. In freshwater, downstream migrating silver eels encountering hydroelectric plants often suffer substantial delays and increased mortality from trash-rack impingement and turbine-induced mortality. Downstream passage problems can be ameliorated by implementing different types of downstream passage solutions that show variable but promising results for salmonids, but their performance for silver eels remains largely unknown. To address these knowledge gaps, radio telemetry was used to monitor the downstream migration of silver eels during 2 years past a hydroelectric plant recently equipped with two new fish passage solutions, consisting of an angled bar rack with a full-depth bypass, and a nature-like fishway. No tagged eels passed through the turbines, but bypassed the dam evenly between the two passage solutions, resulting in a 95% impediment passage efficiency and a median passage time of 1 h. Movement patterns and route selection were associated with variation in discharge and most individuals approached both passage solutions before passing, resulting in route-specific efficiencies of 69% for the angled rack and bypass, and 46% for the nature-like fishway. We conclude that the combination of a new bypass, paired with an angled rack, and a large nature-like fishway provided downstream migrating silver eels with a highly effective combination of passage solutions, with high impediment passage success and relatively low passage times.

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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Angled rack, Anguilla anguilla, Fish migration, Migration barriers, Nature-like fishway, Passage efficiency, Passage time
in
Ecological Engineering
volume
170
article number
106350
publisher
Elsevier
external identifiers
  • scopus:85110508889
ISSN
0925-8574
DOI
10.1016/j.ecoleng.2021.106350
language
English
LU publication?
yes
id
112b9fac-815b-4e11-b63e-5b40bb8ad19c
date added to LUP
2021-08-19 14:54:48
date last changed
2024-05-04 10:49:12
@article{112b9fac-815b-4e11-b63e-5b40bb8ad19c,
  abstract     = {{<p>The European eel population is critically endangered due to a multitude of human-induced factors such as habitat fragmentation, parasites, fishing, and climate change. In freshwater, downstream migrating silver eels encountering hydroelectric plants often suffer substantial delays and increased mortality from trash-rack impingement and turbine-induced mortality. Downstream passage problems can be ameliorated by implementing different types of downstream passage solutions that show variable but promising results for salmonids, but their performance for silver eels remains largely unknown. To address these knowledge gaps, radio telemetry was used to monitor the downstream migration of silver eels during 2 years past a hydroelectric plant recently equipped with two new fish passage solutions, consisting of an angled bar rack with a full-depth bypass, and a nature-like fishway. No tagged eels passed through the turbines, but bypassed the dam evenly between the two passage solutions, resulting in a 95% impediment passage efficiency and a median passage time of 1 h. Movement patterns and route selection were associated with variation in discharge and most individuals approached both passage solutions before passing, resulting in route-specific efficiencies of 69% for the angled rack and bypass, and 46% for the nature-like fishway. We conclude that the combination of a new bypass, paired with an angled rack, and a large nature-like fishway provided downstream migrating silver eels with a highly effective combination of passage solutions, with high impediment passage success and relatively low passage times.</p>}},
  author       = {{Calles, Olle and Elghagen, Jonas and Nyqvist, Daniel and Harbicht, Andrew and Nilsson, P. Anders}},
  issn         = {{0925-8574}},
  keywords     = {{Angled rack; Anguilla anguilla; Fish migration; Migration barriers; Nature-like fishway; Passage efficiency; Passage time}},
  language     = {{eng}},
  publisher    = {{Elsevier}},
  series       = {{Ecological Engineering}},
  title        = {{Efficient and timely downstream passage solutions for European silver eels at hydropower dams}},
  url          = {{http://dx.doi.org/10.1016/j.ecoleng.2021.106350}},
  doi          = {{10.1016/j.ecoleng.2021.106350}},
  volume       = {{170}},
  year         = {{2021}},
}