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Action Enhances Acoustic Cues for 3-D Target Localization by Echolocating Bats.


ABSTRACT: Under natural conditions, animals encounter a barrage of sensory information from which they must select and interpret biologically relevant signals. Active sensing can facilitate this process by engaging motor systems in the sampling of sensory information. The echolocating bat serves as an excellent model to investigate the coupling between action and sensing because it adaptively controls both the acoustic signals used to probe the environment and movements to receive echoes at the auditory periphery. We report here that the echolocating bat controls the features of its sonar vocalizations in tandem with the positioning of the outer ears to maximize acoustic cues for target detection and localization. The bat's adaptive control of sonar vocalizations and ear positioning occurs on a millisecond timescale to capture spatial information from arriving echoes, as well as on a longer timescale to track target movement. Our results demonstrate that purposeful control over sonar sound production and reception can serve to improve acoustic cues for localization tasks. This finding also highlights the general importance of movement to sensory processing across animal species. Finally, our discoveries point to important parallels between spatial perception by echolocation and vision.

SUBMITTER: Wohlgemuth MJ 

PROVIDER: S-EPMC5015854 | biostudies-literature | 2016 Sep

REPOSITORIES: biostudies-literature

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Action Enhances Acoustic Cues for 3-D Target Localization by Echolocating Bats.

Wohlgemuth Melville J MJ   Kothari Ninad B NB   Moss Cynthia F CF  

PLoS biology 20160908 9


Under natural conditions, animals encounter a barrage of sensory information from which they must select and interpret biologically relevant signals. Active sensing can facilitate this process by engaging motor systems in the sampling of sensory information. The echolocating bat serves as an excellent model to investigate the coupling between action and sensing because it adaptively controls both the acoustic signals used to probe the environment and movements to receive echoes at the auditory p  ...[more]

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