Vocal matching and intensity of begging calls are associated with a forebrain song circuit in a generalist brood parasite

Developmental Neurobiology
Wan-Chun LiuDavid J White

Abstract

Vocalizations produced by developing young early in life have simple acoustic features and are thought to be innate. Complex forms of early vocal learning are less likely to evolve in young altricial songbirds because the forebrain vocal-learning circuit is underdeveloped during the period when early vocalizations are produced. However, selective pressure experienced in early postnatal life may lead to early vocal learning that is likely controlled by a simpler brain circuit. We found the food begging calls produced by fledglings of the brown-headed cowbird (Molothrus ater), a generalist avian brood parasite, induced the expression of several immediate early genes and early circuit innervation in a forebrain vocal-motor pathway that is later used for vocal imitation. The forebrain neural activity was correlated with vocal intensity and variability of begging calls that appears to allow cowbirds to vocally match host nestmates. The begging-induced forebrain circuits we observed in fledgling cowbirds were not detected in nonparasitic passerines, including species that are close relatives to the cowbird. The involvement of forebrain vocal circuits during fledgling begging and its association with vocal learning plasticity may be a...Continue Reading

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Citations

Apr 20, 2017·The Journal of Experimental Biology·Kathleen S LynchMark E Hauber
Apr 3, 2021·Biological Reviews of the Cambridge Philosophical Society·Victoria I AustinJustin A Welbergen

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