WASHINGTON — What does a tiny fruit fly have in common with the world's most advanced fighter jets like the U.S. Air Force's F-22 Raptor? More than you might think.
Scientists using video cameras to track a fly's aerial maneuvers found the insect employs astonishingly quick mid-air banked turns to evade predators much like a fighter jet executes to elude an enemy.
Their study, published on Thursday in the journal Science, documents aerial agility in fruit flies such as the capacity to begin to change course in less than one one-hundredth of a second.
The fact that flies are airborne acrobats should not surprise anyone who has ever swung a flyswatter at one, only to watch the little insects easily escape.
The researchers at the University of Washington synchronized three high-speed cameras operating at 7,500 frames a second to learn the secrets of what the flies do to make themselves ! so elusive.
They tracked the mid-air wing and body motion of the fruit fly species Drosophila hydei, which is about the size of a sesame seed, inside a cylindrical flight chamber after the insects were shown an image that suggested an approaching predator.
The flies produced impressive escape responses, almost instantaneously rolling their bodies like a military jet in a banked turn to steer away. While executing the turn, the flies showed that they could roll on their sides by upwards of 90 degrees, sometimes flying almost upside down.
"They generate a rather precise banked turn, just like an aircraft pilot would, to roll the body and generate a force to take them away from the threat," said University of Washington biology professor Michael Dickinson, who led the study.
"That happens very quickly. And it's generated with remarkably subtle changes in wing motion. We were pretty astonished by how little they have t! o do with their wing motion to generate these very precise man! euvers," he said.
The fly flaps its wings about 200 times a second, and in almost a single wing beat can reorient its body to maneuver away from the threat and continue to accelerate, Florian Muijres, another of the researchers, said in a statement.
"I suspect that these are very ancient reflexes," Dickinson added. "Very shortly after insects evolved flight, other insects evolved flight to eat them. Circuits for detecting predators are very, very ancient. But this one is just being implemented in a high-performance flight machine."
A lot of light was needed to accommodate the cameras' extraordinarily high shutter speeds, but because a fly would be blinded by the necessary amounts of normal light, the researchers used very bright infrared lights. Like people, fruit flies do not see infrared light.
"I've always been fascinated by flies. Everybody thinks that they have a simple nervous system, but I think it's e! xactly the opposite. They just have a really tiny one. But it's incredibly compact. They do so much with just this brain the size of a salt grain," Dickinson said.
Scientists using video cameras to track a fly's aerial maneuvers found the insect employs astonishingly quick mid-air banked turns to evade predators much like a fighter jet executes to elude an enemy.
Their study, published on Thursday in the journal Science, documents aerial agility in fruit flies such as the capacity to begin to change course in less than one one-hundredth of a second.
The fact that flies are airborne acrobats should not surprise anyone who has ever swung a flyswatter at one, only to watch the little insects easily escape.
The researchers at the University of Washington synchronized three high-speed cameras operating at 7,500 frames a second to learn the secrets of what the flies do to make themselves ! so elusive.
They tracked the mid-air wing and body motion of the fruit fly species Drosophila hydei, which is about the size of a sesame seed, inside a cylindrical flight chamber after the insects were shown an image that suggested an approaching predator.
The flies produced impressive escape responses, almost instantaneously rolling their bodies like a military jet in a banked turn to steer away. While executing the turn, the flies showed that they could roll on their sides by upwards of 90 degrees, sometimes flying almost upside down.
"They generate a rather precise banked turn, just like an aircraft pilot would, to roll the body and generate a force to take them away from the threat," said University of Washington biology professor Michael Dickinson, who led the study.
"That happens very quickly. And it's generated with remarkably subtle changes in wing motion. We were pretty astonished by how little they have t! o do with their wing motion to generate these very precise man! euvers," he said.
The fly flaps its wings about 200 times a second, and in almost a single wing beat can reorient its body to maneuver away from the threat and continue to accelerate, Florian Muijres, another of the researchers, said in a statement.
"I suspect that these are very ancient reflexes," Dickinson added. "Very shortly after insects evolved flight, other insects evolved flight to eat them. Circuits for detecting predators are very, very ancient. But this one is just being implemented in a high-performance flight machine."
A lot of light was needed to accommodate the cameras' extraordinarily high shutter speeds, but because a fly would be blinded by the necessary amounts of normal light, the researchers used very bright infrared lights. Like people, fruit flies do not see infrared light.
"I've always been fascinated by flies. Everybody thinks that they have a simple nervous system, but I think it's e! xactly the opposite. They just have a really tiny one. But it's incredibly compact. They do so much with just this brain the size of a salt grain," Dickinson said.
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