Why Flamingos Are More Stable on One Leg Than Two

They’re so steady that you can balance a dead one on a single leg.

Hannibal Hanschke / Reuters

Young-Hui Chang can remember exactly when he realized how flamingos balance so effortlessly on one leg.

He and a fellow biologist Lena Ting suspected that the pink birds might have features on their legs that help lock their joints in place. But when they started dissecting one, they couldn’t find anything. With the bird lying flat on their table, they tried moving its legs this way and that. Nothing. And then Ting said: Why don’t you try and pick it up by the leg?

Chang grabbed the bird by its shin and held it upright—and the leg snapped into place, becoming rigid and unyielding. The flamingo looked almost like it was sleeping—one leg extended, the other bent, and the head tucked back into its feathers. And Chang probably looked like a fever-dream version of Mary Poppins, holding a dead flamingo aloft like the world’s unlikeliest umbrella. “It was a lightbulb moment,” he says. “We weren’t expecting it to be stable, but it totally was.”

Standing on one leg “is a challenging yoga posture, and a test of coordination that people use,” says Ting. To maintain our balance, we constantly use our muscles to make tiny adjustments to our posture. Flamingos have no such problem. When they raise a leg, their body weight shifts in a way that naturally stabilizes the joints of their standing limb, so they can remain upright without any muscular activity. They can sleep like that. And as Chang and Ting found, they can even keep balanced when dead. You can pose a flamingo cadaver on one leg, and leave it there.

“When I take my kids to the zoo, the first thing you see is the flamingo exhibit,” says Chang, who’s based at Georgia Tech. “The first question people ask is: How do they stand on one leg?” So he teamed up with Ting, an expert in postural control at Emory University, to find out.

(Georgia Tech / Rob Felt)

First, they went to Zoo Atlanta with a force-plate—a fancy 3-D bathroom scale that measures the forces a foot exerts in all directions. “I’m used to studying things that walk or run, where you have to chase them across the force-plate or have them chase you,” says Chang. “This was more boring. We just had to sit around and wait for the flamingos to fall asleep.” Some of the youngsters did eventually cooperate, and one even fell asleep while standing on the plate. And as it lost consciousness, Chang and Ting saw that it became more stable. Its body swayed less, and its center of gravity moved by mere millimeters.

The birds are so steady that no one at the zoo could remember an instance of a flamingo falling over. “We really wanted to do an experiment where we just walked over and gave them a little prod,” says Chang. “But the zoo wouldn’t let us.”

In lieu of that, the duo decided they needed a detailed look at the birds’ legs. They put a call out to local zoos, and within a day, Birmingham Zoo said that they had recently euthanized two flamingos because of poor health. They had been frozen, so Chang drove over with a cooler. Back in his lab, he and Ting defrosted and dissected the birds. And that’s when he lifted one.

To understand why that worked, it will help to clarify some terms, because bird legs are deeply confusing. Many people think that birds have backward-bending knees, but the joint that they think of as the “knee” is actually the ankle. The real knee is much higher; it’s obscured by the feathers on the bird’s belly and bends in the same way ours do. (Look at the image below, in which I’ve marked the top parts of the flamingo’s right leg.) Birds are perpetually crouching, holding their thigh bones almost horizontally against their bodies. The two long bones that you see extending downwards are, respectively, the shin and a fusion of several foot bones.

(Jean Paul Pelissier)

When a flamingo shifts onto one leg, two things happen. First, the leg inclines so that the foot moves from being directly under the hip to being directly under the center of the body. Second, the center of mass moves to just in front of the flamingo’s (hidden) knee, so its body weight naturally pulls the hip and knee forward. These two changes, combined with gravity’s pull and the shape of the leg bones, keeps all the joints in place.

When Chang held the bird up by the shin, he engaged the same mechanics. Even when he tilted the bird at a 45-degree angle, the leg didn’t buckle. “You definitely feel a very large difference if you just get it in the right posture,” he says. “If you press down on the front of the bird, it’s very solid.” And this only works on one leg. In a two-legged stance, both legs are perfectly vertical, and the joints become more unstable. So, counter-intuitively, flamingos are actually more stable on one leg than on two.

Matt Anderson from St Joseph’s University, who studies flamingos, praises the study, but he notes that explaining how the birds stand on one leg doesn’t tell us why they do. The posture certainly helps them to save energy. But if that was the main reason, “one would expect flamingos to employ the one-legged resting stance constantly,” Anderson says. And they don’t; they’re more likely to do so on cooler days, or while in the water. This suggests that they’re doing it to avoid losing heat through their legs.

These passive leg-locking mechanism are pretty rare. Scientists have found them in some animals like horses, “but it’s very possible that they are much more widespread,” says John Hutchinson from the Royal Veterinary College. “If bendy-legged birds like flamingos manage it, who else can? ... A lot of research has focused on walking and running, but we actually know little about how animals stand.”

Ting actually does study the simple act of standing, but “I normally study human balance, so this is a departure for me,” she says.

I ask her which she prefers working with, humans or flamingos?

She pauses. “The flamingos … when they fall asleep, sometimes they projectile poop.”

Ed Yong is a former staff writer at The Atlantic. He won the Pulitzer Prize for Explanatory Reporting for his coverage of the COVID-19 pandemic.