The topography of frequency and time representation in primate auditory cortices

Simon Baumann, Olivier Joly, Adrian Rees, Christopher I Petkov, Li Sun, Alexander Thiele, Timothy D Griffiths
2015 eLife  
Natural sounds can be characterised by their spectral content and temporal modulation, but how the brain is organized to analyse these two critical sound dimensions remains uncertain. Using functional magnetic resonance imaging, we demonstrate a topographical representation of amplitude modulation rate in the auditory cortex of awake macaques. The representation of this temporal dimension is organized in approximately concentric bands of equal rates across the superior temporal plane in both
more » ... ispheres, progressing from high rates in the posterior core to low rates in the anterior core and lateral belt cortex. In A1 the resulting gradient of modulation rate runs approximately perpendicular to the axis of the tonotopic gradient, suggesting an orthogonal organisation of spectral and temporal sound dimensions. In auditory belt areas this relationship is more complex. The data suggest a continuous representation of modulation rate across several physiological areas, in contradistinction to a separate representation of frequency within each area.
doi:10.7554/elife.03256 pmid:25590651 pmcid:PMC4398946 fatcat:bh73aefgdvhsflbcy5fr6tdqtu