There’s an impressive amount of physics and clever timing behind the way dogs drink, a new study reveals.

Share story

The next time your dog heads to his bowl for a drink, take a second to appreciate his mastery of fluid dynamics as he laps up gulp after gulp. Don’t mind the mess he’s probably making — it’s all part of his brilliance.

When your dog plunges his snout into his water bowl, it looks as if he’s scooping the water up with his tongue, like a ladle. And that’s what scientists used to think, until X-ray imaging showed most of that scooped-up water never makes it into your pup’s mouth.

In fact, there’s an impressive amount of physics and clever timing behind the way dogs drink, a new study reveals.

A dog laps by splashing its tongue into the water. As the tongue flies back, water sticks to the front of the tongue and gets pulled up toward the mouth. At just the right moment, the dog expertly snaps its jaws shut.

Lap. Gulp. Repeat.

“Dogs tend to be messy drinkers and splash water on themselves and the floor,” according to the study, published this week in the Proceedings of the National Academy of Sciences. But despite appearances, dogs are efficient drinkers.

Dogs’ messy drinking, caused by that backward curl of their tongues, enables them to drink more liquid per lap than they would be able to swallow with a straight tongue, said study senior author Sunghwan “Sunny” Jung, an associate professor at Virginia Tech.

Although the dynamics of drinking cats are well understood, scientists know less about how dogs quench their thirst.

“Cats and dogs have been great companions to humans for thousands of years,” Jung said. “We watch them every day, but we still don’t know how they drink.”

To find out, Jung and his team needed some help.

The researchers recruited 19 dogs, volunteered by their owners, from around the Virginia Tech campus in Blacksburg. The dogs, representing all breeds and sizes, were filmed at home or on campus drinking from a see-through tray equipped with two GoPro video cameras to capture the dogs’ movements from the side and from below.

If the dog did not want to drink, researchers asked owners to take their pets on a five-minute run or walk. Sometimes they just had to wait, occasionally as long as an hour.

The researchers used the video to measure the length of the dog’s tongue and the velocity at which it was thrust into the water.

To drink the most water per lap, dogs accelerate their tongues as fast as possible, while timing their bite just as the water column flicks away from the surface. The deeper they splash their tongues, the more water they get.

Dogs’ tongues exit the water at speeds of up to 4 mph (or 1.8 meters per second), creating a pressure difference between the tongue and the water’s surface. That causes a column of water to shoot up in front of the tongue.

The tongue’s high acceleration (measured at up to four times the force of gravity) suspends the water column in the air just long enough for the dog to catch it with a snap of the jaws. The findings show dogs drink similarly to cats, but a few key differences remain.

“Dogs splash more and cats drink more gently, but they both time their bite to maximize the amount of water they take in,” Jung said.

Jung said dogs can take in 1 to 2 milliliters of water per lap, or 300 ml (about 10 fluid ounces) in one minute of lapping.

As for dogs’ messy habit of splashing water all over the place, that’s the subject of the next study, Jung said. In particular, he said, researchers hope to investigate why dogs curl their tongue backward when they drink.