Bees trade energy efficiency for stability when flying in turbulent winds

Traveling smoothly through a turbulent medium is no mean feat, as anyone who regularly flies in an airplane can attest. Scientists have investigated how fish navigate through turbulent currents, but until recently they had not addressed the analogous issue of animal flight through turbulent air. Now biologist Stacey Combes has filmed male orchid bees (genus Euglossa) flying in turbulent airstreams and, with colleague Robert Dudley, has described the effects of the turbulent air on the bee’s flight stability and maximum speed. Combes induced the bees to fly in a turbulent airstream by luring them with an attractive scent. As the airspeed increased, the bees found it increasingly difficult to avoid the rolling illustrated in the left image. When the airspeed was high enough and maintaining stable flight difficult enough, the bees extended their hind legs, as depicted in the right photograph.

That move increased the moment of inertia about the roll axis by roughly 50% and improved stability, but it also increased body drag and energy expenditure by about 30%. In a second experiment, Combes altered the turbulence of the stream by inserting different geometric grids. Bees flying in the lower-turbulence environment were able to reach higher speeds before instabilities caused them to be ejected from the air stream. (S. A. Combes, R. Dudley, Proc. Natl. Acad. Sci. USA, doi:10.1073/pnas.0902186106 .) --Steven K. Blau

Related link: Dragonfly Flight, Z. Jane Wang, PHYSICS TODAY October 2008, page 74 .