This indicates that all of the phrase types we tested,not just whistles,can
be recognized by naive fledglings,even though the phrases are divorced
from normal syntax (Whaling et al.1997).Although avian vocal signals
are greatly simplified compared with human language,these results par-
allel findings of studies of language recognition in human infants.Human
infants can recognize the phonemes of all human languages,providing
them with the capacity to learn any language.They are even able to dis-
criminate phonemes not used in their local language,although this sen-
sitivity disappears once they begin to speak (Eimas,Miller,and Jusczyk
1987;Kuhl 1995).
It is possible that,rather than relying on note structure,young birds
use tonal or temporal qualities to identify songs of their own species.
We have begun to test songs that are altered in pitch.White-crowned
sparrow fledglings tested in the laboratory did not treat those songs dif-
ferently from unaltered songs until the pitch was shifted more than six
standard deviations away from the dialect mean (Whaling,unpublished
observations).Adult sparrows of other species can distinguish shifts in
pitch that are two or three standard deviations from the mean (Nelson
1989),suggesting that the fledglings may be more forgiving of pitch
manipulations than adult birds.The Neurobiology of Learning PreferencesArmed with this information on the abilities of inexperienced fledglings
to recognize song,Allison Doupe and her colleagues undertook an
examination of the neural basis of innate discrimination by examining
the neurons in and around the song control nucleus HVC.HVC contains
both motor neurons for song production and auditory neurons for
song perception.These auditory neurons fire when the adult bird
hears a taperecording of himself singing (Margoliash 1986),a response
that is acquired as the result of learning to sing (Volman 1993).
Furthermore,auditory neurons were found in an area near HVC that
are more responsive to the songs of one’s own species than to foreign
songs,as revealed by patterns of gene activation (Mello,Vicario,and
Clayton 1992).We wondered whether fledglings would also have neurons
that respond most to the songs of their own species,even though they
had not yet heard those songs,much less learned to sing them.Would
these brain areas contain neurons whose properties could explain how
young birds recognize and choose to learn the songs of their own
species?
Extracellular recordings were made from neurons in HVC and the sur-
rounding neostriatum by lowering a recording electrode into the brain71 The Neural Basis of Song Learning in BirdsMUS5 9/14/99 11:59 AM Page 71