Publications by authors named "Michael J Lanzone"
Turbulence explains the accelerations of an eagle in natural flight.
Proc Natl Acad Sci U S A
June 2021
Turbulent winds and gusts fluctuate on a wide range of timescales from milliseconds to minutes and longer, a range that overlaps the timescales of avian flight behavior, yet the importance of turbulence to avian behavior is unclear. By combining wind speed data with the measured accelerations of a golden eagle () 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.
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- Large soaring birds, like golden eagles, utilize different types of updrafts to aid their flight, with a focus on understanding their decision-making during migration.
- A study of 32 migrating golden eagles in eastern North America revealed they used subsidized flight 87% of the time during their journey, predominately relying on thermal soaring and gliding.
- The eagles adapted their flight behavior based on local weather conditions, highlighting their ability to switch between different flying techniques for more efficient migration, particularly during varying times of the day and season.
Soaring birds that undertake long-distance migration should develop strategies to minimize the energetic costs of endurance flight. This is relevant because condition upon completion of migration has direct consequences for fecundity, fitness and thus, demography. Therefore, strong evolutionary pressures are expected for energy minimization tactics linked to weather and topography.
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