Pre- and postnatal noise directly impairs avian development, with fitness consequences

Alizée Meillère; Katherine L. Buchanan; Justin R. Eastwood; Mylene M. Mariette

doi:10.1126/science.ade5868

Pre- and postnatal noise directly impairs avian development, with fitness consequences

Alizée Meillère
, Katherine L. Buchanan
, Justin R. Eastwood
, Mylene M. Mariette

School of Biological Sciences

Research output: Contribution to journal › Article › Research › peer-review

25 Citations (Scopus)

Abstract

Noise pollution is expanding at an unprecedented rate and is increasingly associated with impaired reproduction and development across taxa. However, whether noise sound waves are intrinsically harmful for developing young-or merely disturb parents-and the fitness consequences of early exposure remain unknown. Here, by only manipulating the offspring, we show that sole exposure to noise in early life in zebra finches has fitness consequences and causes embryonic death during exposure. Exposure to pre- and postnatal traffic noise cumulatively impaired nestling growth and physiology and aggravated telomere shortening across life stages until adulthood. Consistent with a long-term somatic impact, early life noise exposure, especially prenatally, decreased individual offspring production throughout adulthood. Our findings suggest that the effects of noise pollution are more pervasive than previously realized.

Original language	English
Pages (from-to)	475-479
Number of pages	5
Journal	Science
Volume	384
Issue number	6694
DOIs	https://doi.org/10.1126/science.ade5868
Publication status	Published - 26 Apr 2024

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title = "Pre- and postnatal noise directly impairs avian development, with fitness consequences",

abstract = "Noise pollution is expanding at an unprecedented rate and is increasingly associated with impaired reproduction and development across taxa. However, whether noise sound waves are intrinsically harmful for developing young-or merely disturb parents-and the fitness consequences of early exposure remain unknown. Here, by only manipulating the offspring, we show that sole exposure to noise in early life in zebra finches has fitness consequences and causes embryonic death during exposure. Exposure to pre- and postnatal traffic noise cumulatively impaired nestling growth and physiology and aggravated telomere shortening across life stages until adulthood. Consistent with a long-term somatic impact, early life noise exposure, especially prenatally, decreased individual offspring production throughout adulthood. Our findings suggest that the effects of noise pollution are more pervasive than previously realized.",

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AU - Meillère, Alizée

AU - Buchanan, Katherine L.

AU - Eastwood, Justin R.

AU - Mariette, Mylene M.

PY - 2024/4/26

Y1 - 2024/4/26

N2 - Noise pollution is expanding at an unprecedented rate and is increasingly associated with impaired reproduction and development across taxa. However, whether noise sound waves are intrinsically harmful for developing young-or merely disturb parents-and the fitness consequences of early exposure remain unknown. Here, by only manipulating the offspring, we show that sole exposure to noise in early life in zebra finches has fitness consequences and causes embryonic death during exposure. Exposure to pre- and postnatal traffic noise cumulatively impaired nestling growth and physiology and aggravated telomere shortening across life stages until adulthood. Consistent with a long-term somatic impact, early life noise exposure, especially prenatally, decreased individual offspring production throughout adulthood. Our findings suggest that the effects of noise pollution are more pervasive than previously realized.

AB - Noise pollution is expanding at an unprecedented rate and is increasingly associated with impaired reproduction and development across taxa. However, whether noise sound waves are intrinsically harmful for developing young-or merely disturb parents-and the fitness consequences of early exposure remain unknown. Here, by only manipulating the offspring, we show that sole exposure to noise in early life in zebra finches has fitness consequences and causes embryonic death during exposure. Exposure to pre- and postnatal traffic noise cumulatively impaired nestling growth and physiology and aggravated telomere shortening across life stages until adulthood. Consistent with a long-term somatic impact, early life noise exposure, especially prenatally, decreased individual offspring production throughout adulthood. Our findings suggest that the effects of noise pollution are more pervasive than previously realized.

UR - https://www.scopus.com/pages/publications/85187914437

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VL - 384

SP - 475

EP - 479

JO - Science

JF - Science

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ER -

Pre- and postnatal noise directly impairs avian development, with fitness consequences

Abstract

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