Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morphology of the various animal species. Oblate medusae have been previously observed to generate vortex ring structures during the propulsive cycle. Owing to the inherent physical coupling between locomotor and feeding structures in these animals, the dynamics of vortex ring formation must be robustly tuned to facilitate effective functioning of both systems. To understand how this is achieved, we employed dye visualization techniques on scyphomedusae (Aurelia aurita) observed swimming in their natural marine habitat. The flow created during each propulsive cycle consists of a toroidal starting vortex formed during the power swimming stroke, fo...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
It has been well documented that animals (and machines) swimming or flying near a solid boundary get...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morp...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morp...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morp...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morp...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the mor...
We present a combination of both qualitative flow visualizations of jellyfish in their natural marin...
Swimming bell kinematics and hydrodynamic wake structures were documented during multiple pulsation ...
Quantifying the flows generated by the pulsations of jellyfish bells is crucial for understanding th...
Quantifying the flows generated by the pulsations of jellyfish bells is crucial for understanding th...
Quantifying the flows generated by the pulsations of jellyfish bells is crucial for understanding th...
Quantifying the flows generated by the pulsations of jellyfish bells is crucial for understanding th...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
It has been well documented that animals (and machines) swimming or flying near a solid boundary get...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morp...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morp...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morp...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the morp...
Flow patterns generated by medusan swimmers such as jellyfish are known to differ according the mor...
We present a combination of both qualitative flow visualizations of jellyfish in their natural marin...
Swimming bell kinematics and hydrodynamic wake structures were documented during multiple pulsation ...
Quantifying the flows generated by the pulsations of jellyfish bells is crucial for understanding th...
Quantifying the flows generated by the pulsations of jellyfish bells is crucial for understanding th...
Quantifying the flows generated by the pulsations of jellyfish bells is crucial for understanding th...
Quantifying the flows generated by the pulsations of jellyfish bells is crucial for understanding th...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
It has been well documented that animals (and machines) swimming or flying near a solid boundary get...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...