Hummingbirds are some of the fastest and most agile birds on Earth. They can squeeze into incredibly small spaces to get nectar and hit flight speeds as high as 9Gs while courting without getting physically hurt. They also appear to have very controlled methods of flight. Hummingbirds use two distinct sensory strategies to control how they fly, depending on whether they are moving forward or hovering. The findings are described in a study published January 10 in the journal Proceedings of the Royal Society B.
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When flying forward, hummingbirds rely on an “internal forward model.” This model is an ingrained and intuitive autopilot that allows them to gauge speed while experiencing multiple visual stimuli.
“There’s just too much information coming in to rely directly on every visual cue from your surroundings,” study co-author and University of British Columbia zoologist and comparative physiologist Vikram B. Baliga said in a statement.
However, when the birds are hovering or handling cues that may require them to change their altitude, the team found that they use more real-time, direct visuals from their environment.
To study these flight patterns, the team brought 11 wild adult male Anna’s hummingbirds (Calypte anna) into the lab. They prompted the birds to repeatedly fly from a perch to a feeder in a tunnel about 13 feet long and recorded videos of each flight. The team also projected patterns on the front and side walls of the tunnel to test how the hummingbirds reacted to this variety of visual stimuli.
In some flight scenarios, the researchers projected vertical stripes that were moving along at various speeds on the side of the tunnel to mimic forward motion. Other times, they used horizontal stripes on the side to mimic a change in altitude. On the front wall, the team projected rotating swirls. These circular patterns were designed to create the illusion of a change in position.
“If the birds were taking their cues directly from visual stimuli, we’d expect them to adjust their forward velocity to the speed of vertical stripes on the side walls,” said Baliga. “But while the birds did change velocity or stop altogether depending on the patterns, there wasn’t a neat correlation.”
However, the team observed that the hummingbirds adjusted more directly to stimuli indicating a change in altitude while they were flying. When the birds were hovering, they also worked to adjust their position so they were closer to the shifting spirals on the front wall.
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“Our experiments were designed to investigate how hummingbirds control flight speed,” study co-author and University of British Columbia zoologist and comparative physiologist Doug Altshuler said in a statement. “But because the hummingbirds took spontaneous breaks to hover during their flights, we uncovered these two distinct strategies to control different aspects of their trajectories.”
The findings provide insight on how these speedy birds perceive the world when they transition their flight patterns. Data like this could also help engineers develop better onboard navigation systems for drones and hovering vehicles in the future.
