This summer, the most effective predators in the world are coming to your neighborhood. In fact, they likely have already arrived. Of course, I’m talking about the two-to-five inch long dragonflies that emerge every summer to feast on the abundant insect life. Acrobatic, colorful and speedy, dragonflies are a common sight in the summer. Dragonflies can gobble up hundreds of insects per day, including mosquitoes, flies, and other biting insects, making them valuable neighbors for us humans.
There are over 3,000 species of dragonflies, and around 450 of those species can be found in North America! Dragonflies are known for their long, slender bodies, their double set of transparent wings, and their large, multifaceted eyes. Together, these traits make dragonflies one of the most effective predators on earth. In one study, dragonflies were observed to have up to a 95% success rate in capturing prey. For comparison, lions have about a 25% success rate.
So just how do dragonflies attain these impressive capture rates?  Dragonflies are fast flyers, reaching speeds of up to around 30 miles an hour! In addition to speed, the two sets of wings can beat out of sync with each other, allowing for a huge variety of flight styles, including hovering and flying backwards, as well as sharp turns and abrupt stops.
Dragonfly eyes are what’s known as “compound”, meaning they are made up of thousands of small photoreceptor units. You can think of this as many, many small lenses that can see images in many directions, whereas humans have one large lens, which can see in one direction at a time. While a dragonfly’s overall image quality is low, their field of vision is huge, and is uniquely tuned to spotting and tracking motion.
With all these traits, it’s no wonder dragonflies are good hunters. But there’s one more important piece to the puzzle: the brain function and processing power needed to intercept a tiny, flying insect midair, while also in flight. When hunting, a dragonfly will keep a visual lock on the prey item, meaning they will keep the location of the prey on their eye constant. If they keep the prey’s location constant in their visual field as they fly towards it, they will intercept and catch the prey. Think about running to catch a ball: if the ball is moving left to right across your visual field as you run straight, you will not catch the ball. But if the ball is moving directly at you as you run straight, it will remain in the same location in your visual field, and you will catch the ball.

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