Frontiers in Behavioral Neuroscience (Sep 2024)

Adult auditory brain responses to nestling begging calls in seasonal songbirds: an fMRI study in non-parenting male and female starlings (Sturnus vulgaris)

  • Nicholas Vidas-Guscic,
  • Nicholas Vidas-Guscic,
  • Elisabeth Jonckers,
  • Elisabeth Jonckers,
  • Johan Van Audekerke,
  • Johan Van Audekerke,
  • Jasmien Orije,
  • Jasmien Orije,
  • Julie Hamaide,
  • Gaurav Majumdar,
  • Laurence Henry,
  • Martine Hausberger,
  • Marleen Verhoye,
  • Marleen Verhoye,
  • Annemie Van der Linden,
  • Annemie Van der Linden

DOI
https://doi.org/10.3389/fnbeh.2024.1418577
Journal volume & issue
Vol. 18

Abstract

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The present study aims to investigate whether begging calls elicit specific auditory responses in non-parenting birds, whether these responses are influenced by the hormonal status of the bird, and whether they reflect biparental care for offspring in the European starling (Sturnus vulgaris). An fMRI experiment was conducted to expose non-parenting male and female European starlings to recordings of conspecific nestling begging calls during both artificially induced breeding and non-breeding seasons. This response was compared with their reaction to conspecific individual warbling song motifs and artificial pure tones, serving as social species-specific and artificial control stimuli, respectively. Our findings reveal that begging calls evoke a response in non-parenting male and female starlings, with significantly higher responsiveness observed in the right Field L and the Caudomedial Nidopallium (NCM), regardless of season or sex. Moreover, a significant seasonal variation in auditory brain responses was elicited in both sexes exclusively by begging calls, not by the applied control stimuli, within a ventral midsagittal region of NCM. This heightened response to begging calls, even in non-parenting birds, in the right primary auditory system (Field L), and the photoperiod induced hormonal neuromodulation of auditory responses to offspring’s begging calls in the secondary auditory system (NCM), bears resemblance to mammalian responses to hunger calls. This suggests a convergent evolution aimed at facilitating swift adult responses to such calls crucial for offspring survival.

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