Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5743846 | Ecological Engineering | 2017 | 12 Pages |
Abstract
Fish passage systems (fishways) have become the most common mitigation tool for improving the connectivity of migratory fish populations in ecosystems with barriers to movement. Because fishways often have high-velocity and high-turbulence environments, fish should seek low-energy movement paths during passage. We tested this hypothesis by analyzing the swimming paths of 90 adult Pacific lamprey (Entosphenus tridentatus) in response to hydraulic conditions when passing a vertical-slot weir in an experimental fishway. Varying hydraulic conditions were achieved by manipulating three variables: water velocity (1.2, 1.8, 2.4Â m/s), vertical-slot length (0.33Â m, 0.66Â m, 1.00Â m), and presence or absence of a turbulence-inducing structure. Turbulence parameters, such as turbulent kinetic energy (TKE), were quantified using an Acoustic Doppler Velocimeter (ADV). Pacific lamprey exhibited context-dependent behaviors in response to turbulence whereby lamprey were more likely to move towards areas of lower turbulence along their swimming paths, but only as the surrounding turbulence within the vertical-slot increased. In contrast, when the surrounding turbulence within the vertical-slot was low, Pacific lamprey became more likely to move towards areas of higher turbulence. The 'turbulence-avoidance' behaviors likely allowed passage of the hydraulic obstacle by reducing energy expenditure or physiological stress, while the 'turbulence-attraction' behaviors may have resulted from lamprey using turbulence as a mechanism for upstream orientation. Overall, our results provide new insight into how fish may use turbulence as an important sensory modality for perceiving the aquatic environment.
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Authors
Mark A. Kirk, Christopher C. Caudill, James C. Syms, Daniele Tonina,