期刊
NATURE PHYSICS
卷 10, 期 10, 页码 758-761出版社
NATURE PUBLISHING GROUP
DOI: 10.1038/NPHYS3078
关键词
-
资金
- Swiss National Science Foundation
- MacArthur Foundation
Inertial aquatic swimmers that use undulatory gaits range in length L from a few millimetres to 30 metres, across a wide array of biological taxa. Using elementary hydrodynamic arguments, we uncover a unifying mechanistic principle characterizing their locomotion by deriving a scaling relation that links swimming speed U to body kinematics (tail beat amplitude A and frequency omega) and fluid properties (kinematic viscosity nu). This principle can be simply couched as the power law Re similar to Sw(alpha), where Re D UL/nu >> 1 and Sw = omega AL/nu, with alpha = 4/3 for laminar flows, and alpha = 1 for turbulent flows. Existing data from over 1,000 measurements on fish, amphibians, larvae, reptiles, mammals and birds, as well as direct numerical simulations are consistent with our scaling. We interpret our results as the consequence of the convergence of aquatic gaits to the performance limits imposed by hydrodynamics.
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