Litcius/Paper detail

Turbulence explains the accelerations of an eagle in natural flight

Kasey Laurent, Bob Fogg, Tobias Ginsburg, Casey Halverson, Michael Lanzone, Tricia A. Miller, David W. Winkler, Gregory P. Bewley

2021Proceedings of the National Academy of Sciences30 citationsDOIOpen Access PDF

Abstract

) flying in the wild, we find evidence in favor of a linear relationship between the eagle's accelerations and atmospheric turbulence for timescales between about 1/2 and 10 s. These timescales are comparable to those of typical eagle behaviors, corresponding to between about 1 and 25 wingbeats, and to those of turbulent gusts both larger than the eagle's wingspan and smaller than large-scale atmospheric phenomena such as convection cells. The eagle's accelerations exhibit power spectra and intermittent activity characteristic of turbulence and increase in proportion to the turbulence intensity. Intermittency results in accelerations that are occasionally several times stronger than gravity, which the eagle works against to stay aloft. These imprints of turbulence on the bird's movements need to be further explored to understand the energetics of birds and other volant life-forms, to improve our own methods of flying through ceaselessly turbulent environments, and to engage airborne wildlife as distributed probes of the changing conditions in the atmosphere.

Topics & Concepts

EagleTurbulenceIntermittencyRange (aeronautics)Clear-air turbulenceAtmospheric sciencesMeteorologyAtmosphere (unit)Environmental sciencePhysicsEcologyBiologyAerospace engineeringEngineeringAvian ecology and behaviorAeolian processes and effectsPlant Water Relations and Carbon Dynamics