Acoustic developmental programming: a mechanistic and evolutionary framework. Mariette, M. M., Clayton, D. F., & Buchanan, K. L. Trends in ecology & evolution, 2021.
doi  abstract   bibtex   
Conditions experienced prenatally, by modulating developmental processes, have lifelong effects on individual phenotypes and fitness, ultimately influencing population dynamics. In addition to maternal biochemical cues, prenatal sound is emerging as a potent alternative source of information to direct embryonic development. Recent evidence suggests that prenatal acoustic signals can program individual phenotypes for predicted postnatal environmental conditions, which improves fitness. Across taxonomic groups, embryos have now been shown to have immediate adaptive responses to external sounds and vibrations, and direct developmental effects of sound and noise are increasingly found. Establishing the full developmental, ecological, and evolutionary impact of early soundscapes will reveal how embryos interact with the external world, and potentially transform our understanding of developmental plasticity and adaptation to changing environments.
@Article{Mariette2021,
  author          = {Mariette, Mylene M. and Clayton, David F. and Buchanan, Katherine L.},
  journal         = {Trends in ecology & evolution},
  title           = {Acoustic developmental programming: a mechanistic and evolutionary framework.},
  year            = {2021},
  issn            = {1872-8383},
  abstract        = {Conditions experienced prenatally, by modulating developmental processes, have lifelong effects on individual phenotypes and fitness, ultimately influencing population dynamics. In addition to maternal biochemical cues, prenatal sound is emerging as a potent alternative source of information to direct embryonic development. Recent evidence suggests that prenatal acoustic signals can program individual phenotypes for predicted postnatal environmental conditions, which improves fitness. Across taxonomic groups, embryos have now been shown to have immediate adaptive responses to external sounds and vibrations, and direct developmental effects of sound and noise are increasingly found. Establishing the full developmental, ecological, and evolutionary impact of early soundscapes will reveal how embryos interact with the external world, and potentially transform our understanding of developmental plasticity and adaptation to changing environments.},
  citation-subset = {IM},
  country         = {England},
  doi             = {10.1016/j.tree.2021.04.007},
  groups          = {Fetuses and neonates},
  issn-linking    = {0169-5347},
  keywords        = {anticipatory cues; developmental plasticity; maternal effects; prenatal acoustic communication; transgenerational adaptation},
  nlm-id          = {8805125},
  pmid            = {34052045},
  pubmodel        = {Print-Electronic},
  pubstate        = {aheadofprint},
  revised         = {2021-05-30},
}
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