Humans have at least six distinct emotions including pain, anger, fear, pleasure, sadness and joy that can be conveyed within our screams, a new study reveals.
Scientists from the University of Zurich had 12 volunteers scream in a positive and negative way and try to convey sounds relevant to various different scenarios.
In some non-human species scream-like calls are negative, to warn of danger, but in humans they can be used to signal elation, fear, despair or even aggression.
The results of the Swiss study revealed six psycho-acoustically distinct types of scream calls, which indicated pain, anger, fear, pleasure, sadness and joy.
The team also found that remarkably, non-alarming screams are perceived and processed by the brain more efficiently than screams of alarm.
Humans have at least six distinct emotions including pain, anger, fear, pleasure, sadness and joy that are conveyed within our screams, a new study reveals. Stock image
Vocal affect bursts, such as crying, grunting, laughing and screams, are a key part of social communication in many mammal species.
Screams are a particularly important burst, coming as short, loud and intense high-pitched calls.
In nonhuman primates and other mammalian species, scream-like calls are frequently used as an alarm signal exclusively in negative contexts, social conflicts or the presence of predators or other environmental threats.
Humans are also assumed to use screams to signal danger and to scare predators, explained the team behind this new study.
But humans scream not only when they are fearful and aggressive, but also when they experience other emotions such as despair and elation.
Previous studies mainly focused on alarming fear screams, but the new study addressed the knowledge gap using four different psychoacoustic, perceptual decision-making, and neuroimaging experiments in humans.
In total there were 12 volunteers involved in the experiments, each asked to vocalise both positive and negative screams.
A different group rated the emotional nature of the screams, classified the screams into different categories, and underwent an MRI scan while listening to them.
The results revealed there were six psycho-acoustically distinct types of screams.
Listeners responded more quickly and accurately, and with higher neural sensitivity, to non-alarm and positive scream calls than to alarming screams.
Less alarming screams elicited more activity across many auditory and frontal brain regions, the study authors explained.
They say alarm screams need more processing effort on the part of a human listening to someone else screaming, compared to other types of scream.
The researchers say their findings show that screams are more diverse in their signalling and communicative nature in humans than frequently assumed.
Scientists from the University of Zurich had 12 volunteers scream in a positive and negative way and try to convey sounds relevant to various different scenarios. Stock image
The positive screams are likely more relevant to human society and social environments, the team said, adding they are likely more often encountered.
Study leader Professor Sascha Fruhholz said the results are surprising in that researchers usually assume primate and human cognitive systems are specifically tuned to signals of danger and threat as a survival mechanism.
‘This has long been supposed to be the primary purpose of communicative signalling in screams,’ Fruhholz said.
‘While this seems true for scream communication in primates and other animal species, scream communication seemed to have largely diversified in humans, and this represents is a major evolutionary step.’
Humans share with other species the potential to signal danger when screaming, but it seems only humans scream to signal also positive emotions, they discovered.
Fruhholz added: ‘Signalling and perceiving these positive emotions in screams seemed to have gained priority in humans over alarm signalling.
‘This change in priority might be likely due to the requirements of evolved and complex social contexts in humans.’
The findings have been published in the journal PLOS Biology.