Data from: Response of seaward migrating European eel (Anguilla anguilla) to manipulated flow fields
Data from: Response of seaward migrating European eel (Anguilla anguilla) to manipulated flow fields
Anthropogenic structures (e.g. weirs and dams) fragment river networks and restrict the movement of migratory fish. Poor understanding of behavioural response to hydrodynamic cues at structures currently limits the development of effective barrier mitigation measures. This study aimed to assess the effect of flow constriction and associated flow patterns on eel behaviour during downstream migration. In a field experiment, we tracked the movements of 40 tagged adult European eels (Anguilla anguilla) through the forebay of a redundant hydropower intake under two manipulated hydrodynamic treatments. Interrogation of fish trajectories in relation to measured and modelled water velocities provided new insights into behaviour, fundamental for developing passage technologies for this endangered species. Eels rarely followed direct routes through the site. Initially, fish aligned with streamlines near the channel banks and approached the intake semi-passively. A switch to more energetically costly avoidance behaviours occurred on encountering constricted flow, prior to physical contact with structures. Under high water velocity gradients, fish then tended to escape rapidly back upstream, whereas exploratory 'search' behaviour was common when acceleration was low. This study highlights the importance of hydrodynamics in informing eel behaviour. This offers potential to develop behavioural guidance, improve fish passage solutions and enhance traditional physical screening.
Siniscalchi, Fabio
8feedf76-35fb-4138-8446-b8569ff9a327
Marion, Andrea
9c1a820f-e29f-4328-a274-e08da1bd91e9
Wright, Rosalind M.
d2608e88-f522-44ed-b58e-bad60c522f23
Manes, Costantino
7d9d5123-4d1b-4760-beff-d82fe0bd0acf
Piper, Adam T.
2c816a29-68a2-4267-8283-fef27c2e75f3
Kemp, Paul S.
9e33fba6-cccf-4eb5-965b-b70e72b11cd7
Siniscalchi, Fabio
8feedf76-35fb-4138-8446-b8569ff9a327
Marion, Andrea
9c1a820f-e29f-4328-a274-e08da1bd91e9
Wright, Rosalind M.
d2608e88-f522-44ed-b58e-bad60c522f23
Manes, Costantino
7d9d5123-4d1b-4760-beff-d82fe0bd0acf
Piper, Adam T.
2c816a29-68a2-4267-8283-fef27c2e75f3
Kemp, Paul S.
9e33fba6-cccf-4eb5-965b-b70e72b11cd7
(2015)
Data from: Response of seaward migrating European eel (Anguilla anguilla) to manipulated flow fields.
Zenodo
doi:10.5061/dryad.c77jn
[Dataset]
Abstract
Anthropogenic structures (e.g. weirs and dams) fragment river networks and restrict the movement of migratory fish. Poor understanding of behavioural response to hydrodynamic cues at structures currently limits the development of effective barrier mitigation measures. This study aimed to assess the effect of flow constriction and associated flow patterns on eel behaviour during downstream migration. In a field experiment, we tracked the movements of 40 tagged adult European eels (Anguilla anguilla) through the forebay of a redundant hydropower intake under two manipulated hydrodynamic treatments. Interrogation of fish trajectories in relation to measured and modelled water velocities provided new insights into behaviour, fundamental for developing passage technologies for this endangered species. Eels rarely followed direct routes through the site. Initially, fish aligned with streamlines near the channel banks and approached the intake semi-passively. A switch to more energetically costly avoidance behaviours occurred on encountering constricted flow, prior to physical contact with structures. Under high water velocity gradients, fish then tended to escape rapidly back upstream, whereas exploratory 'search' behaviour was common when acceleration was low. This study highlights the importance of hydrodynamics in informing eel behaviour. This offers potential to develop behavioural guidance, improve fish passage solutions and enhance traditional physical screening.
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More information
Published date: 4 June 2015
Identifiers
Local EPrints ID: 448477
URI: http://eprints.soton.ac.uk/id/eprint/448477
PURE UUID: b97073d3-7d59-4551-a546-f9b9445fe8bd
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Date deposited: 22 Apr 2021 16:48
Last modified: 06 May 2023 01:40
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Contributors
Contributor:
Fabio Siniscalchi
Contributor:
Andrea Marion
Contributor:
Rosalind M. Wright
Contributor:
Costantino Manes
Contributor:
Adam T. Piper
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