Forty-three primates have an extra set of protruding muscles, called vocal lips, above the vocal cords. The one exception is Homo Sapiens.
Did a vocal evolution give rise to language? Loss of certain muscles in the larynx may have given our species a voice. Read the sentence aloud, if you're able.
As you do, a cascade of motion begins, forcing air from your lungs through two muscles, which vibrate, sculpting sound waves that pass through your mouth and into the world.
These muscles are called vocal cords, or vocal folds, and their vibrations form the foundations of the human voice. They also speak to the emergence and evolution of human language.
For several years, a team of scientists based mainly in Japan used imaging technology to study the physiology of the throats of 43 species of primates., from baboons and orangutans to macaques and chimpanzees, as well as humans.
All the species but one had a similar anatomical structure; an extra set of protruding muscles, called vocal membranes or vocal lips, just above the vocal cords. The exception was Homo sapiens.
The researchers also found that the presence of vocal lips destabilized the other primates' voices, rendering the tone and timbre more chaotic and unpredictable.
Animals with vocal lips have a more grating, less controlled baseline of communication, the study found; humans, lacking the extra membranes, can exchange softer, more stable sounds. The findings were published this month in the Journal of Science.
''It's an interesting little nuance, this change to the human condition,'' said Drew Randall, a biologist the University of New Brunswick who was not involved in the research. ''The addition, if you want to think of it this way, is actually a subtraction.''
That many primates have vocal lips has long been known, but their role in communication has not been entirely clear. In 1984, Sugio Hayama, a biologist at Kyoto University, videotaped the inside of a chimpanzee's throat to study its reflexes under anesthesia. The video also happened to capture a moment when the chimp woke and began hollering, softly at first, then with more power.
Decades later, Takeshi Nishimura, a former student of Dr. Hayama and now a biologist at Kyoto University and the principal investigator of the recent research, studied the footage with renewed interest.
He found that that chimp's vocal lips and vocal cords were vibrating together, which added a layer of mechanical complexity to the chimp's voice that made it difficult to fine-tune.
Dr. Nishimura and his colleagues wondered whether vocal lips played significant role in primate communication generally, so they set to study the throats of as many primate species as they could. The presence of an extra membrane in all the animas was surprising and vindicating.
''People have been talking about evolutionary changes in our throats and oral cavity for many years, but this is the first time we took a close at the larynx in a large selection of monkeys and apes,'' said William Tecumseh Fitch, a biologist at the University of Vienna and one of the authors of the paper.
Asif Ghazanfar, a psychologist at Princeton University who was not involved in the research, said, '' No one's done a systematic evolution like that. We didn't have a large sense of what primates had it and what primates didn't . We kind of had a guess, but this study nailed it.
The ubiquity of the vocal lips did not necessarily mean that they affected the sounds that possessors produced. So Dr. Nishimura's group removed the layranges from three deceased chimpanzees and attached them to simulated lungs; they did the same with six rhesus macaques that had been euthanized for other approved experiments.
In all the simulations, the vocal lips and and the vocal cords vibrated in unison. Mathematical models of other primates' of other primates' larynges yielded similar results.
In their paper, the researchers propose that the absence of vocal lips - and their complicating vibrations - in humans was a key factor in the evolution of language in our species.
Vibrating in splendid isolation, our vocal cords allowed for subtle changes in inflection and register that characterize our own speech. We reason and cajole, plead and suggest, all in a controlled manner.
''The study has shown that evolutionary modifications in the larynx were necessary for the evolution of spoken language,'' Dr. Nishimura said.
Dr. Rendall added : ''It suggests, or reinforces, that there's a completely different change in tactic from human communication to nonhuman primate communication. Human language doesn't target the emotional response, but you're trying to change their mind - you're hitting the cognitive and inferential systems.
Still, Dr. Randall said, primates often speak softly and subtly, and humans often communicate through screams and yells. He recommended a ''healthy skepticism'' in extrapolating from the anatomical finding the origins of complex speech and language.
''I think they've just highlighted the fact that this loss of membrane in humans is probably centrally important to our ability to produce these stable vocal fold vibrations, which underlies the production of speech sounds,'' he said.
Harold Gouzoules, a psychiatrist at Emory University who wrote an accompanying commentary to the recent paper, agreed.
''Establishing causality here is essentially impossible,'' he said. ''It might be a necessary step in the evolution of language, but whether it's absolutely critical remains to be seen.''
Dr. Gouzoules said that the research was most noteworthy for its comparative analysis of primates and its ability to draw evolutionary insights, to a degree, from simple anatomy, which often hides in plain sight.
''Language is clearly more than the sum of its parts,'' he said. ''It's just not likely that we're ever going to have a completely satisfactory explanation.
The World Students Society thanks author Oliver Whang.
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