Try to catch a dragonfly. I dare you.

"They're so quick and so smart, it sometimes takes us hours with five people to catch one," says Martin Wikelski. He's an ecologist at Princeton University in New Jersey¹.

 

 

 

The pencil-thin, four-winged insects hover² and dart³, changing directions in an instant.

"They're amazing," Wikelski says. "They're like little helicopters."

Despite the challenges, scientists chase dragonflies to better understand their behavior, their habitats, and the dangers that threaten them. Surprises keep popping up, and dragonflies are giving researchers new ways to think about interactions in nature.

Long-distance flyer

Dragonflies date back at least 250 million years, says Daniel Soluk, an ecologist at the University of South Dakota in Vermillion. Alongside dinosaurs⁴, they flitted across the prehistoric⁵ landscape on 2-foot-wide wingspans.

Although dragonflies have been around for a long time and live in many parts of the world, scientists still know remarkably⁶ little about them.

 

 

 

You've probably seen dragonflies. The insects are welcome picnic guests because they eat mosquitoes. What you might not know is that some of these mosquito hunters are long-distance flyers.

Out of about 5,700 known species of dragonflies, as many as 50 species fly to warmer places for the winter, just like migrating birds do. Unlike birds, however, dragonflies appear to migrate in only one direction. Mom and dad may migrate south for the winter, but it's the next generation that probably makes the return trip.

Radio alert

To confirm that certain dragonflies migrate, Wikelski and his coworkers used eyelash adhesive⁷ to attach tiny radio transmitters to individual insects. Even though the devices were very small, they still weighed about one-third as much as an adult dragonfly.

Luckily, dragonflies can carry heavy loads. "They seemed totally fine with it," Wikelski says.

 

 

 

In their experiment, Wikelski and his team used an airplane to track 14 dragonflies carrying transmitters. Twelve days of observations confirmed that the dragonflies did migrate.

When temperatures dropped two nights in a row, the researchers found, the dragonflies took off southward. In less than 2 weeks, some of the insects covered about 60 kilometers (37 miles).

Some dragonflies go even farther, Soluk says. They've been known to show up on ships hundreds of miles out at sea.

Mysterious flights

Strangely, no one has ever observed dragonflies flying north in the springtime, even though it must happen.

 

 

 

"Sometimes, dragonflies show up in New Jersey when ponds are still frozen," Wikelski says. The insects had to have come from somewhere else because dragonfly eggs need liquid water to hatch.

"This is the kind of stuff that kids can observe," he notes. By making such observations, students can help researchers understand where dragonflies come from and where they go.

Of the many remaining questions about dragonfly migration⁹, Wikelski is particularly interested in finding out how much energy their journeys require. Evidence suggests that they simply ride the wind, so migration might be easy. He hopes someday to track dragonflies using satellites in space.

Puzzling patterns

Because of disappearing wetlands, the use of pesticides¹⁰, and changes in groundwater flow, some dragonfly species are threatened with extinction¹¹. But scientists are discovering quirks¹² in the behavior of these insects that might help keep them from dying out.

When Soluk started studying an endangered species called the Hine's emerald dragonfly, for example, he was puzzled: Sometimes these dragonflies were easy to find, but at other times they were impossible to locate.

 

 

 

For instance, when streams flowed in the spring, sampling turned up lots of Hine's emeralds. As the water dried up, the dragonflies disappeared. Then, next spring, their population boomed again.

This species doesn't migrate, so they were obviously hiding somewhere. But where?

"We spent a lot of time looking in places where we thought they might over-winter," Soluk says.

After repeated failures, the researchers checked the last hiding spot available: crayfish burrows¹⁵. Crayfish eat Hine's emeralds, so it seemed an unlikely place for them to be.

"In the first burrow¹⁴, we found two [dragonflies]," Soluk says. "In the second, we found 24. There were as many as 74 in one burrow."

Saving endangered species

These findings suggest that saving an endangered species can be complicated. It would be easy, for example, to assume that getting rid of predators¹⁶ would help dragonflies, Soluk says. But in fact, Hine's emeralds depend on crayfish burrows for their survival.

 

 

 

It's still not clear why crayfish don't eat the dragonflies hiding in their burrows. It's possible, for example, that the insects use camouflage¹⁷ or chemical odors to make themselves unappetizing.

Scientists are finding similar interactions among other creatures, including alligators¹⁸ and fish in Florida.

"Ecosystems¹⁹ are very complicated networks of interaction," Soluk says. "We need to know all of the links before we start messing with them."

The best way to protect dragonflies, Soluk says, is not to destroy their predators but to protect their habitats. With ever-expanding development and pollution, wetlands are disappearing, and dragonflies are losing sources of fresh groundwater.

By saving wetlands, we can save more than the Hine's emerald. "They're an indicator²⁰ for a whole lot of other species that are vanishing," Soluk says.

So, if you manage to catch a dragonfly, be gentle. Take a close look. Then, let it go. It has important work to do.

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