Dogs can pick up emotional cues from another dog by watching the direction of its wagging tail, a new study suggests.
In a series of lab experiments, dogs got anxious when they saw an image of a dog wagging its tail to its left side. But when they saw a dog wagging its tail to its right side, they stayed relaxed.
This isn’t the first time scientists have shown that the direction of a wagging tail can be linked to doggy emotions. In a previous study, Giorgio Vallortigara of the University of Trento in Italy and his colleagues showed that dogs tended to wag to their right side when seeing something friendly like their owners. Seeing something threatening, like a dominant unfamiliar dog, made them wag more to their left side.
That study made the scientists wonder if other dogs might actually watch another dog’s tail wagging and use its direction as a clue to figure out whether that dog might be a potential friend or foe.
“The question was at this point, ‘Does asymmetric tail wagging convey meaning to other dogs?’ ” says Vallortigara.
To find out, they had 43 dogs wear some little vests that would monitor their heart rates. Then they had the dogs watch some special images of dogs that were designed to remove all stimuli except the wagging tail.
Some of the tested dogs saw a video that showed a silhouette of a dog, while others saw a manipulated image of a real dog. In both cases, the only thing that moved in the image was the tail.
When dogs saw a dog image or silhouette wagging its tail to its right side, they stayed relaxed. But when they saw a dog wagging its tail to its left side, their hearts began to race and they looked anxious. The results are reported in the journal Current Biology.
Tom Reimchen, a biologist at the University of Victoria, calls this is an “elegant” study. He says there’s been a lot of work showing asymmetries in animals’ bodies, but “what has not been found is whether there is information that others can gain from that type of laterality,” says Reimchen. “And so that’s why I think their current paper is very, very interesting and important.”
Reimchen and his colleagues had previously tested how dogs would respond to asymmetrical tail wagging by videotaping dogs as they approached a robotic dog with a remote-controlled tail.
They found that the number of stops that a dog would make when approaching the robodog would make was higher when tail wagging was to the right. It may be that dogs were attracted to this apparently friendly tail-wagging, but were confused by the immobile robot’s lack of other signals that might convey friendship.
Reimchen says that once people become aware of left-versus-right in terms of communicating information, “it suddenly opens up a whole new range of type of questions and the type of observations you’re making that you before sort of completely overlooked. These animals are probably far more cognizant of those subtle differences than we would have suspected before.”
And while it would be a lot harder for people to spot asymmetrical tail wagging than it is for dogs, scientists say there could be some practical reasons to try to understand left-right differences in these animals. “These results suggest that dogs have perceptual and attentional asymmetries,” says Vallortigara. “So for example if you are going to visit a dog, if you are vet, there will be probably a side which is better with respect to the probability to evoke a more friendship response or to evoke a more aggressive response.”