Add to ORKGA theoretical model describes how an intermittent swimming style can be energetically advantageous over continuous swimming at high average velocities. Kinematic data are collected from high-speed cine pictures of free swimming cod and saithe at high velocities in a burst-and-coast style. These data suggest that fish make use of the advantages shown by choosing initial and final burst velocities close to predicted optimal values. The limiting role of rapid glycogen depletion in fast white anaerobic muscle fibres is discussed
Fishes often live in environments characterized by complex flows. To study the mechanisms of how fis...
Locomotion is energetically expensive. This may create selection pressures that favor economical loc...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...
A theoretical model describes how an intermittent swimming style can be energetically advantageous o...
International audienceThis paper addresses the physical mechanism of intermittent swimming by consid...
There is increasing evidence that fish gain energetic benefits from the hydrodynamic interactions wh...
Most fish species swim with lateral body undulations running from head to tail, These waves run more...
Underwater locomotion is challenging due to the high friction and resistance imposed on a body movin...
Straight, forward, unrestrained swimming behaviour, with periodic lateral oscillations of body and t...
Swimming animals need to generate propulsive force to overcome drag, regardless of whether they swim...
The hydrodynamic resistance of the bodies of several species of commercially important marine fish ...
Schooling can provide fish with a number of behavioural and ecological advantages, including increas...
Energy consumption is one of the primary considerations in animal locomotion. In swimming locomotion...
Energy consumption is one of the primary considerations in animal locomotion. In swimming locomotion...
Swimming performance tests of fish have been integral to studies of muscle energetics, swimming mech...
Fishes often live in environments characterized by complex flows. To study the mechanisms of how fis...
Locomotion is energetically expensive. This may create selection pressures that favor economical loc...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...
A theoretical model describes how an intermittent swimming style can be energetically advantageous o...
International audienceThis paper addresses the physical mechanism of intermittent swimming by consid...
There is increasing evidence that fish gain energetic benefits from the hydrodynamic interactions wh...
Most fish species swim with lateral body undulations running from head to tail, These waves run more...
Underwater locomotion is challenging due to the high friction and resistance imposed on a body movin...
Straight, forward, unrestrained swimming behaviour, with periodic lateral oscillations of body and t...
Swimming animals need to generate propulsive force to overcome drag, regardless of whether they swim...
The hydrodynamic resistance of the bodies of several species of commercially important marine fish ...
Schooling can provide fish with a number of behavioural and ecological advantages, including increas...
Energy consumption is one of the primary considerations in animal locomotion. In swimming locomotion...
Energy consumption is one of the primary considerations in animal locomotion. In swimming locomotion...
Swimming performance tests of fish have been integral to studies of muscle energetics, swimming mech...
Fishes often live in environments characterized by complex flows. To study the mechanisms of how fis...
Locomotion is energetically expensive. This may create selection pressures that favor economical loc...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...