Maps of interaural delay in the owl's nucleus laminaris | Zendy

Catherine E. Carr | Zendy; Sahil Shah | Zendy; Thomas McColgan | Zendy; Go Ashida | Zendy; Paula T. Kuokkanen | Zendy; Sandra Brill | Zendy; Richard Kempter | Zendy; Hermann Wagner | Zendy

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Maps of interaural delay in the owl's nucleus laminaris

Author(s) -

Catherine E. Carr,

Sahil Shah,

Thomas McColgan,

Go Ashida,

Paula T. Kuokkanen,

Sandra Brill,

Richard Kempter,

Hermann Wagner

Publication year - 2015

Publication title -

journal of neurophysiology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.302

H-Index - 245

eISSN - 1522-1598

pISSN - 0022-3077

DOI - 10.1152/jn.00644.2015

Subject(s) - barn owl , interaural time difference , nucleus , physics , nerve conduction velocity , sound localization , neuroscience , position (finance) , computer science , acoustics , psychology , biology , paleontology , finance , economics , predation

Axons from the nucleus magnocellularis form a presynaptic map of interaural time differences (ITDs) in the nucleus laminaris (NL). These inputs generate a field potential that varies systematically with recording position and can be used to measure the map of ITDs. In the barn owl, the representation of best ITD shifts with mediolateral position in NL, so as to form continuous, smoothly overlapping maps of ITD with iso-ITD contours that are not parallel to the NL border. Frontal space (0°) is, however, represented throughout and thus overrepresented with respect to the periphery. Measurements of presynaptic conduction delay, combined with a model of delay line conduction velocity, reveal that conduction delays can account for the mediolateral shifts in the map of ITD.

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