Active recognition enhances the representation of behaviorally relevant information in single auditory forebrain neurons
Autor: | Timothy Q. Gentner, Daniel P. Knudsen |
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Jazyk: | angličtina |
Rok vydání: | 2013 |
Předmět: |
Auditory perception
Auditory Cortex Male Neurons Physiology Process (engineering) General Neuroscience Representation (systemics) Singing Sensory system Task engagement Articles Auditory cortex Prosencephalon nervous system Forebrain Starlings Auditory Perception Evoked Potentials Auditory Animals Conditioning Operant Female Psychology Neuroscience Relevant information |
Popis: | Sensory systems are dynamic. They must process a wide range of natural signals that facilitate adaptive behaviors in a manner that depends on an organism's constantly changing goals. A full understanding of the sensory physiology that underlies adaptive natural behaviors must therefore account for the activity of sensory systems in light of these behavioral goals. Here we present a novel technique that combines in vivo electrophysiological recording from awake, freely moving songbirds with operant conditioning techniques that allow control over birds' recognition of conspecific song, a widespread natural behavior in songbirds. We show that engaging in a vocal recognition task alters the response properties of neurons in the caudal mesopallium (CM), an avian analog of mammalian auditory cortex, in European starlings. Compared with awake, passive listening, active engagement of subjects in an auditory recognition task results in neurons responding to fewer song stimuli and a decrease in the trial-to-trial variability in their driven firing rates. Mean firing rates also change during active recognition, but not uniformly. Relative to nonengaged listening, active recognition causes increases in the driven firing rates in some neurons, decreases in other neurons, and stimulus-specific changes in other neurons. These changes lead to both an increase in stimulus selectivity and an increase in the information conveyed by the neurons about the animals' behavioral task. This study demonstrates the behavioral dependence of neural responses in the avian auditory forebrain and introduces the starling as a model for real-time monitoring of task-related neural processing of complex auditory objects. |
Databáze: | OpenAIRE |
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