TY - JOUR
T1 - Juvenile zebra finches learn the underlying structural regularities of their fathers' song
AU - Menyhart, Otília
AU - Kolodny, Oren
AU - Goldstein, Michael H.
AU - DeVoogd, Timothy J.
AU - Edelman, Shimon
N1 - Publisher Copyright: © 2015 Menyhart, Kolodny, Goldstein, DeVoogd and Edelman.
PY - 2015
Y1 - 2015
N2 - Natural behaviors, such as foraging, tool use, social interaction, birdsong, and language, exhibit branching sequential structure. Such structure should be learnable if it can be inferred from the statistics of early experience. We report that juvenile zebra finches learn such sequential structure in song. Song learning in finches has been extensively studied, and it is generally believed that young males acquire song by imitating tutors (Zann, 1996). Variability in the order of elements in an individual's mature song occurs, but the degree to which variation in a zebra finch's song follows statistical regularities has not been quantified, as it has typically been dismissed as production error (Sturdy et al., 1999). Allowing for the possibility that such variation in song is non-random and learnable, we applied a novel analytical approach, based on graph-structured finite-state grammars, to each individual's full corpus of renditions of songs. This method does not assume syllable-level correspondence between individuals. We find that song variation can be described by probabilistic finite-state graph grammars that are individually distinct, and that the graphs of juveniles are more similar to those of their fathers than to those of other adult males. This grammatical learning is a new parallel between birdsong and language. Our method can be applied across species and contexts to analyze complex variable learned behaviors, as distinct as foraging, tool use, and language.
AB - Natural behaviors, such as foraging, tool use, social interaction, birdsong, and language, exhibit branching sequential structure. Such structure should be learnable if it can be inferred from the statistics of early experience. We report that juvenile zebra finches learn such sequential structure in song. Song learning in finches has been extensively studied, and it is generally believed that young males acquire song by imitating tutors (Zann, 1996). Variability in the order of elements in an individual's mature song occurs, but the degree to which variation in a zebra finch's song follows statistical regularities has not been quantified, as it has typically been dismissed as production error (Sturdy et al., 1999). Allowing for the possibility that such variation in song is non-random and learnable, we applied a novel analytical approach, based on graph-structured finite-state grammars, to each individual's full corpus of renditions of songs. This method does not assume syllable-level correspondence between individuals. We find that song variation can be described by probabilistic finite-state graph grammars that are individually distinct, and that the graphs of juveniles are more similar to those of their fathers than to those of other adult males. This grammatical learning is a new parallel between birdsong and language. Our method can be applied across species and contexts to analyze complex variable learned behaviors, as distinct as foraging, tool use, and language.
KW - Birdsong
KW - Song structure
KW - Statistical learning
KW - Vocal development
KW - Zebra finch
UR - http://www.scopus.com/inward/record.url?scp=84930935113&partnerID=8YFLogxK
U2 - https://doi.org/10.3389/fpsyg.2015.00571
DO - https://doi.org/10.3389/fpsyg.2015.00571
M3 - مقالة
SN - 1664-1078
VL - 6
JO - Frontiers in Psychology
JF - Frontiers in Psychology
IS - MAY
M1 - 571
ER -