Is the ability to entrain motor activity to a rhythmic auditory stimulus, that is
"keep a beat," dependent on neural adaptations supporting vocal mimicry? That is the
premise of the vocal learning and synchronization hypothesis, recently advanced to
explain the basis of this behavior (A. Patel, 2006, Musical Rhythm, Linguistic Rhythm,
and Human Evolution, Music Perception, 24, 99-104). Prior to the current study, only
vocal mimics, including humans, cockatoos, and budgerigars, have been shown to be
capable of motoric entrainment. Here we demonstrate that a less vocally flexible animal,
a California sea lion (Zalophus californianus), can learn to entrain head bobbing
to an auditory rhythm meeting three criteria: a behavioral response that does not
reproduce the stimulus; performance transfer to a range of novel tempos; and entrainment
to complex, musical stimuli. These findings show that the capacity for entrainment
of movement to rhythmic sounds does not depend on a capacity for vocal mimicry, and
may be more widespread in the animal kingdom than previously hypothesized.