ID:
publications-2477
Type:
Peer reviewed articles
Year:
2020
Authors:
Angus J. Lothian, Jeroen S. Tummers, Atticus J. Albright, Pat OâBrien, Martyn C. Lucas
Title:
River connectivity restoration for upstream-migrating European river lamprey: The efficacy of two horizontally-mounted studded tile designs
Venue/Journal:
River Research and Applications
DOI:
10.1002/rra.3734
Research type:
Data Management & Analytics
Water System:
Irrigation Systems
Technical Focus:
Abstract:
AbstractMany rivers are heavily fragmented, resulting from anthropogenic crossâchannel structures. Costâeffective solutions are needed to restore habitat connectivity for migratory fishes, including those of conservation concern, such as the European river lamprey (Lampetra fluviatilis). Studded material is becoming increasingly used as a lowâcost retrofit solution for lamprey passage at sloping weirs, although little is known about the efficacy of the material or what stud arrangements may be most effective. This study tested whether expanding a singleâdensity studded tile (SDT) lane from 1 to 2âm width increased passage success (nreleased = 133), and also compared the passage performance between a SDT lane and a dualâdensity studded tile (DDT) lane (nreleased = 115) at a sloping weir, using PIT telemetry. No passage was recorded (nattempted = 89) at the 2âm wide SDT lane, but 61.6% (npassed/attempted = 53/86) passed using DDT/SDT lane combination. However, increased passage efficiency was likely a result of high river flow (Q2.0âQ30.6) during DDT/SDT comparison versus low (Q8.3âQ88.5) while the 2âm wide SDT lane was employed. There was no evidence that passage occurred using solely one stud configuration. It is, therefore, hypothesised that passage of river lamprey at weirs is more dependent on flow regime than the provision of either stud configuration. However, with 46.1% (npassed/released = 53/115) of those released during DDT/SDT comparison passing on the instrumented section (10.5% of weir face), the provision of studded tiles may aid in lamprey passage at high flows, presumably as the tiles generate a lowâvelocity boundary layer that can be utilised as lamprey swim above the studs.
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689682
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