LAUSR

Perception of, and synchronization to, auditory rhythms is known to be more accurate than with flashing visual rhythms. The motor system is known to play a role in the processing of timing information for auditory rhythm perception, but it is unclear if the motor system plays the same role for visual rhythm perception. One demonstrated component of auditory rhythm perception is neural entrainment at the frequency of the auditory rhythm. In this study we use EEG to measure entrainment of both auditory and visual rhythms from the motor cortex while subjects either tapped in synchrony with, or passively attended the presented rhythms. In order to isolate activity from motor cortex, we used independent components analysis to first separate out neural sources, then selected components using a combination of component topography, dipole location, mu activation, and beta modulation. This process took advantage of the fact that tapping activity results in reduced mu power, and characteristic beta modulation, that helped select motor components. Our findings suggest neural entrainment in motor components was stronger for visual rhythms than auditory rhythms, and strongest during the tapping conditions for both modalities. We also find mu power increased in response to both auditory and visual rhythms. These findings indicate that the generally greater rhythm perception capabilities of the auditory system over the visual system may not depend entirely on neural entrainment in the motor system, but rather how the motor system is able to utilize the timing information made available to it.