Bc. Ward et al., INDIVIDUAL VARIATION IN NEURON NUMBER PREDICTS DIFFERENCES IN THE PROPENSITY FOR AVIAN VOCAL IMITATION, Proceedings of the National Academy of Sciences of the United Statesof America, 95(3), 1998, pp. 1277-1282
Avian song learning involves memorizing and reproducing song material
produced by conspecifics. In several species song repertoire size corr
elates with the overall volume of two song-related brain regions, the
HVc (acronym used as the proper name) and the robust nucleus of the ar
chistriatum (RA). We raised male zebra finches with two adult tutors a
nd found that individual differences in HVc volume and neuron number c
orrelated positively with differences in the number of tutor syllables
accurately copied. These results were replicated in a second study. T
he relationship between RA volume and song learning was similar, but l
ess robust. Importantly, total repertoire size (number of song syllabl
es) did not correlate significantly with anatomical measures of either
the HVc or RA. Because previous work suggests that the volume and neu
ron number of these regions are not regulated by song learning, it is
possible that naturally occurring variation in neuron number constrain
s how much song material can be copied or reproduced.