Fishes are able to detect and perceive the hydrodynamic and physical environment they
inhabit and process this sensory information to guide the resultant behaviour through their …

Here, we review fish rheotaxis (orientation to flow) with the goal of placing it within a larger
behavioral and multisensory context. Rheotaxis is a flexible behavior that is used by fish in a …

Turbulence is a complex phenomenon which commonly occurs in river and fishway flows. It
is a difficult subject to study, especially biologically, yet turbulence may affect fish …

Anthropogenic structures in rivers are major threats for fish migration and effective mitigation
is imperative given the worldwide expansion of such structures. Fish behaviour is strongly …

Navigating obstacles is innate to fish in rivers, but fragmentation of the world's rivers by more
than 50,000 large dams threatens many of the fish migrations these waterways support. One …

With the overall goal being a better understanding of the sensing environment from the local
perspective of a situated agent, we studied uniform flows and Kármán vortex streets in a …

Nature creatures have evolved excellent receptors, such as sensory hairs in arthropods,
lateral line system of fishes. Researchers inspired by nature creatures have developed …

The lateral line system (LLS) is a mechanoreceptive organ system with which fish and
aquatic amphibians can effectively sense the surrounding flow field. The reverse Kármán …

Measuring the rate of consumption of oxygen () during swimming reveals the energetics of
fish locomotion. We show that rainbow trout have substantially different oxygen …

Using Atlantic salmon Salmo salar parr as study species, recent findings are summarized on
how (1) diurnal variations in water temperature affects standard metabolic rate,(2) shelter …