In both animals and humans, vocal signals used for communication contain
a wide array of different sounds that are determined by the vibrational
frequencies of vocal cords. For example, the pitch of someone's voice,
and how it changes as they are speaking, depends on a complex series of
varying frequencies. Knowing how the brain sorts out these different
frequencies - which are called frequency-modulated (FM) sweeps - is
believed to be essential to understanding many hearing-related
behaviors, like speech. Now, a pair of biologists at the California
Institute of Technology (Caltech) has identified how and where the brain
processes this type of sound signal.
Their findings are outlined in a paper published in the journal
Neuron.
Knowing the direction of an FM sweep - if it is rising or falling, for
example - and decoding its meaning, is important in every language. The
significance of the direction of an FM sweep is most evident in tone
languages such as Mandarin Chinese, in which rising or dipping
frequencies within a single syllable can change the meaning of a word.
In their paper, the researchers pinpointed the brain region in rats where the task of sorting FM sweeps begins.
Source:MNT
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