Add to ORKGFish pectoral fins move in complex ways, acting as control surfaces to affect force balance during swimming and maneuvering. Though objectively less dynamic than their actinopterygian relatives, shark pectoral fins undergo complex conformational changes and movements during maneuvering. Asynchronous pectoral fin movement is documented during yaw turning in at least two shark species but the three-dimensional (3D) rotation of the fin about the body axes is unknown. We quantify the 3D actuation of the pectoral fin base relative to the body axes. We hypothesized that Pacific spiny dogfish rotate pectoral fins with three degrees of freedom relative to the body during volitional turning. The pectoral fin on the inside of the turn is consistently...
Fish swimming has often been simplified into the motions of a two-dimensional slice through the hori...
Rapid turning and swimming contribute to ecologically important behaviors in fishes such as predator...
Pectoral fin activity is important for a range of behaviors in fishes, including propulsion and mane...
Stability and procured instability characterize two opposing types of swimming, steady and maneuveri...
Dorsal fins have diverse morphologies across shark species. However, little is known about the abili...
The classical theory of locomotion in sharks proposes that shark pectoral fins are oriented to gener...
SYNOPSIS. The great anatomical diversification of paired fins within the Actinopterygii (ray-finned ...
Turning maneuvers are ecologically important for fish as they are used for prey capture, predator av...
In a large aquarium the leopard shark Triakis semifasciata, sand tiger shark Odontaspis taurus, sand...
The pectoral fins of ray-finned fishes are flexible and capable of complex movements, and yet little...
Two competing models have been presented to explain how the heterocercal tail functions during locom...
When discussing the buoyancy of sharks, it is important to understand the hydrodynamics that are of ...
The pectoral fins of ray-finned fishes are flexible and capable of complex movements, and yet little...
Rajiform locomotion in fishes is dominated by distinctive undulations of expanded pectoral fins. Unl...
The area of fish locomotion is infested with the prevailing and dominating model which violates the ...
Fish swimming has often been simplified into the motions of a two-dimensional slice through the hori...
Rapid turning and swimming contribute to ecologically important behaviors in fishes such as predator...
Pectoral fin activity is important for a range of behaviors in fishes, including propulsion and mane...
Stability and procured instability characterize two opposing types of swimming, steady and maneuveri...
Dorsal fins have diverse morphologies across shark species. However, little is known about the abili...
The classical theory of locomotion in sharks proposes that shark pectoral fins are oriented to gener...
SYNOPSIS. The great anatomical diversification of paired fins within the Actinopterygii (ray-finned ...
Turning maneuvers are ecologically important for fish as they are used for prey capture, predator av...
In a large aquarium the leopard shark Triakis semifasciata, sand tiger shark Odontaspis taurus, sand...
The pectoral fins of ray-finned fishes are flexible and capable of complex movements, and yet little...
Two competing models have been presented to explain how the heterocercal tail functions during locom...
When discussing the buoyancy of sharks, it is important to understand the hydrodynamics that are of ...
The pectoral fins of ray-finned fishes are flexible and capable of complex movements, and yet little...
Rajiform locomotion in fishes is dominated by distinctive undulations of expanded pectoral fins. Unl...
The area of fish locomotion is infested with the prevailing and dominating model which violates the ...
Fish swimming has often been simplified into the motions of a two-dimensional slice through the hori...
Rapid turning and swimming contribute to ecologically important behaviors in fishes such as predator...
Pectoral fin activity is important for a range of behaviors in fishes, including propulsion and mane...