TY - JOUR
T1 - Prenatal auditory learning in avian vocal learners and non-learners
AU - Colombelli-Négrel, Diane
AU - Hauber, Mark E.
AU - Evans, Christine
AU - Katsis, Andrew C.
AU - Brouwer, Lyanne
AU - Adreani, Nicolas M.
AU - Kleindorfer, Sonia
N1 - 7305, AnE; Data archiving: not nioo
PY - 2021
Y1 - 2021
N2 - Understanding when learning begins is critical for identifying the factors that shape both the developmental course and the function of information acquisition. Until recently, sufficient development of the neural substrates for any sort of vocal learning to begin in songbirds was thought to be reached well after hatching. New research shows that embryonic gene activation and the outcome of vocal learning can be modulated by sound exposure in ovo. We tested whether avian embryos across lineages differ in their auditory response strength and sound learning in ovo, which we studied in vocal learning (Maluridae, Geospizidae) and vocal non-learning (Phasianidae, Spheniscidae) taxa. While measuring heart rate in ovo, we exposed embryos to (i) conspecific or heterospecific vocalizations, to determine their response strength, and (ii) conspecific vocalizations repeatedly, to quantify cardiac habituation, a form of non-associative learning. Response strength towards conspecific vocalizations was greater in two species with vocal production learning compared to two species without. Response patterns consistent with non-associative auditory learning occurred in all species. Our results demonstrate a capacity to perceive and learn to recognize sounds in ovo, as evidenced by habituation, even in species that were previously assumed to have little, if any, vocal production learning. This article is part of the theme issue 'Vocal learning in animals and humans'.
AB - Understanding when learning begins is critical for identifying the factors that shape both the developmental course and the function of information acquisition. Until recently, sufficient development of the neural substrates for any sort of vocal learning to begin in songbirds was thought to be reached well after hatching. New research shows that embryonic gene activation and the outcome of vocal learning can be modulated by sound exposure in ovo. We tested whether avian embryos across lineages differ in their auditory response strength and sound learning in ovo, which we studied in vocal learning (Maluridae, Geospizidae) and vocal non-learning (Phasianidae, Spheniscidae) taxa. While measuring heart rate in ovo, we exposed embryos to (i) conspecific or heterospecific vocalizations, to determine their response strength, and (ii) conspecific vocalizations repeatedly, to quantify cardiac habituation, a form of non-associative learning. Response strength towards conspecific vocalizations was greater in two species with vocal production learning compared to two species without. Response patterns consistent with non-associative auditory learning occurred in all species. Our results demonstrate a capacity to perceive and learn to recognize sounds in ovo, as evidenced by habituation, even in species that were previously assumed to have little, if any, vocal production learning. This article is part of the theme issue 'Vocal learning in animals and humans'.
KW - embryonic discrimination
KW - in ovo learning
KW - playback
KW - international
KW - Plan_S-Compliant-OA
KW - Galliformes/physiology
KW - Songbirds/physiology
KW - Learning/physiology
KW - Auditory Perception/physiology
KW - Spheniscidae/physiology
KW - Biological Evolution
KW - Animals
KW - Models, Biological
KW - Social Behavior
KW - Vocalization, Animal/physiology
U2 - 10.1098/rstb.2020.0247
DO - 10.1098/rstb.2020.0247
M3 - Article
C2 - 34482722
AN - SCOPUS:85115820215
SN - 0962-8436
VL - 376
SP - 20200247
JO - Philosophical Transactions of the Royal Society B: Biological Sciences
JF - Philosophical Transactions of the Royal Society B: Biological Sciences
IS - 1836
M1 - 20200247
ER -