PT - JOURNAL ARTICLE AU - Michael S. Brainard AU - Eric I. Knudsen TI - Sensitive Periods for Visual Calibration of the Auditory Space Map in the Barn Owl Optic Tectum AID - 10.1523/JNEUROSCI.18-10-03929.1998 DP - 1998 May 15 TA - The Journal of Neuroscience PG - 3929--3942 VI - 18 IP - 10 4099 - http://www.jneurosci.org/content/18/10/3929.short 4100 - http://www.jneurosci.org/content/18/10/3929.full SO - J. Neurosci.1998 May 15; 18 AB - Previous studies have identified sensitive periods for the developing barn owl during which visual experience has a powerful influence on the calibration of sound localization behavior. Here we investigated neural correlates of these sensitive periods by assessing developmental changes in the capacity of visual experience to alter the map of auditory space in the optic tectum of the barn owl. We used two manipulations. (1) We equipped owls with prismatic spectacles that optically displaced the visual field by 23° to the left or right, and (2) we restored normal vision to prism-reared owls that had been raised wearing prisms. In agreement with previous behavioral experiments, we found that the capacity of abnormal visual experience to shift the tectal auditory space map was restricted to an early sensitive period. However, this period extended until later in life (∼200 d) than described previously in behavioral studies (∼70 d). Furthermore, unlike the previous behavioral studies that found that the capacity to recover normal sound localization after restoration of normal vision was lost at ∼200 d of age, we found that the capacity to recover a normal auditory space map was never lost. Finally, we were able to reconcile the behaviorally and neurophysiologically defined sensitive periods by taking into account differences in the richness of the environment in the two sets of experiments. We repeated the behavioral experiments and found that when owls were housed in a rich environment, the capacity to adjust sound localization away from normal extended to later in life, whereas the capacity to recover to normal was never lost. Conversely, when owls were housed in an impoverished environment, the capacity to recover a normal auditory space map was restricted to a period ending at ∼200 d of age. The results demonstrate that the timing and even the existence of sensitive periods for plasticity of a neural circuit and associated behavior can depend on multiple factors, including (1) the nature of the adjustment demanded of the system and (2) the richness of the sensory and social environment in which the plasticity is studied.