Researchers have discovered that marmosets can communicate using specific calls, or “phee-calls,” to address one another by name, a behavior previously documented only in humans, dolphins, and elephants, CNN reports.
The finding places marmosets among a select group of species capable of recognizing when they are being addressed, marking a milestone in the understanding of animal communication.
The discovery, made by a team from the Hebrew University, is outlined in a study published Thursday in the journal Science.
“This is the first time that we have seen this in non-human primates,” David Omer, lead author and assistant professor at the university’s Safra Center for Brain Sciences (ELSC), told the broadcaster.
The tree-dwelling primates are highly social animals and live in small groups in South America but researchers collected data at an animal facility at the university in Israel.
“The experiment was very simple,” Omer said. “We just positioned two marmosets in the same room and positioned a visual barrier between them.
“When you do this they spontaneously start to engage in dialogue.” Omer’s team recorded natural conversations between pairs of marmosets, as well as interactions with a computer system, which led them to conclude that the marmosets addressed specific individuals with the “phee calls.” Furthermore, the animals were able to discern when they were being called and responded more accurately in these instances.
Ten marmosets from three different family groups were recorded communicating during the process, highlighting “the complexity of social communication among marmosets,” Omer added in a press release.
“Until now, we thought that non-human primate vocalization is a genetically determined and non-flexible type of communication. But now we see that marmosets are capable of extremely flexible production of vocabulary,” he said.
According to the study, marmosets are heavily reliant on vision but also display a “complex array of social calls” – of which the “phee call” is one. The calls are generally used to communicate when they are out of sight from each other. As well as using different calls for different individuals, the marmosets were also found to be able to distinguish between calls directed at them and non-directed calls.
They were previously interpreted as a method of “self-localization,” according to Omer – in other words, a way to communicate their position with others. But the new study showed that the sounds were used as “specific calls to label and address specific individuals.”
The investigation also revealed that marmosets from the same family group used “similar vocal labels to address different individuals” and also employed “similar sound features to code different names,” the release adds. This practice, according to the study, resembles the use of names and dialects in humans.
Interestingly, the learning pattern could also be seen with adult marmosets who were not blood relatives, suggesting that they learn vocal labels and dialects from other members of the same group.
Omer and his colleagues believe that their research provides new insights into how human language and social communication might have evolved.
“Until now we thought that human language was a big bang phenomenon that happened out of nowhere and only in humans – which is a complete contradiction to evolutionary theory.
“This finding, together with other findings, for the first time suggests that there were precursors for language development in non-human primates and we can find evidence for an evolutionary process.”
Earlier this year, another study found that African elephants may address each other using individualized calls that resemble the personal names used by humans.
The lead author of that study, Mickey Pardo, an animal behaviorist and postdoctoral fellow at Cornell University in New York, told the broadcaster that the marmoset paper was “a very thorough piece of experimental work,” which “challenges the longstanding but outdated idea that humans are the only primate capable of vocal learning.”
Pardo voiced concerns regarding the notion that different marmosets use the same name for the same receiver. He noted that his team had previously come to a similar conclusion in their study on elephants; however, subsequent research contradicted their initial findings.