Ocean soundscapes and trends from 2003 to 2021: 10-100 Hz

Michael A. Ainslie; Stephen P. Robinson; Peter M. Harris; Peter L. Tyack; Michele B. Halvorsen; Sei Him Cheong; Valerie Livina; Lian Sheng Wang

doi:10.1121/10.0036831

Ocean soundscapes and trends from 2003 to 2021: 10-100 Hz

Michael A. Ainslie^*, Stephen P. Robinson, Peter M. Harris, Peter L. Tyack, Michele B. Halvorsen, Sei Him Cheong, Valerie Livina, Lian Sheng Wang

^*Corresponding author for this work

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

Abstract

We analyze ocean ambient sound from a global network of hydrophones installed and maintained by the Comprehensive Nuclear-Test-Ban Treaty Organization. We process acoustic data from nine hydrophones across six hydroacoustic stations distributed across five oceans: North Pacific, South Pacific, South Atlantic, Indian, and Southern oceans, for up to 19 consecutive years between 2003 and 2021. We identify dominant natural and anthropogenic sources for all six stations and observe long-term trends at four of them. Out of 20 statistical tests, 15 identified a significant downward trend in sound pressure level. Possible causes of these decreasing trends include a global recession in 2016, the COVID-19 pandemic in 2020, five major earthquakes between 2004 and 2012 (with none in 2013-2021), and a steadily increasing sea surface temperature, which decreases the sea surface critical angle and hence the contribution from near-surface sources (e.g., shipping) to sound pressure level.

Original language	English
Pages (from-to)	4358-4384
Number of pages	27
Journal	Journal of the Acoustical Society of America
Volume	157
Issue number	6
Early online date	17 Jun 2025
DOIs	https://doi.org/10.1121/10.0036831
Publication status	Published - Jun 2025

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10.1121/10.0036831

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@article{4007285ff3b84c2a9c4dc47327afb466,

title = "Ocean soundscapes and trends from 2003 to 2021: 10-100 Hz",

abstract = "We analyze ocean ambient sound from a global network of hydrophones installed and maintained by the Comprehensive Nuclear-Test-Ban Treaty Organization. We process acoustic data from nine hydrophones across six hydroacoustic stations distributed across five oceans: North Pacific, South Pacific, South Atlantic, Indian, and Southern oceans, for up to 19 consecutive years between 2003 and 2021. We identify dominant natural and anthropogenic sources for all six stations and observe long-term trends at four of them. Out of 20 statistical tests, 15 identified a significant downward trend in sound pressure level. Possible causes of these decreasing trends include a global recession in 2016, the COVID-19 pandemic in 2020, five major earthquakes between 2004 and 2012 (with none in 2013-2021), and a steadily increasing sea surface temperature, which decreases the sea surface critical angle and hence the contribution from near-surface sources (e.g., shipping) to sound pressure level.",

author = "Ainslie, {Michael A.} and Robinson, {Stephen P.} and Harris, {Peter M.} and Tyack, {Peter L.} and Halvorsen, {Michele B.} and Cheong, {Sei Him} and Valerie Livina and Wang, {Lian Sheng}",

note = "Funding: The National Physical Laboratory authors acknowledge the funding of the UK Department for Science, Innovation and Technology through the National Measurement System. P.L.T. was supported by the Office of Naval Research (Grant Nos. N000142012697 and N000142112096) and the Strategic Environmental Research and Development Program (Grant Nos. RC20-1097, RC20-7188, and RC21-3091). ",

year = "2025",

month = jun,

doi = "10.1121/10.0036831",

language = "English",

volume = "157",

pages = "4358--4384",

journal = "Journal of the Acoustical Society of America",

issn = "0001-4966",

publisher = "Acoustical Society of America (ASA)",

number = "6",

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TY - JOUR

T1 - Ocean soundscapes and trends from 2003 to 2021

T2 - 10-100 Hz

AU - Ainslie, Michael A.

AU - Robinson, Stephen P.

AU - Harris, Peter M.

AU - Tyack, Peter L.

AU - Halvorsen, Michele B.

AU - Cheong, Sei Him

AU - Livina, Valerie

AU - Wang, Lian Sheng

N1 - Funding: The National Physical Laboratory authors acknowledge the funding of the UK Department for Science, Innovation and Technology through the National Measurement System. P.L.T. was supported by the Office of Naval Research (Grant Nos. N000142012697 and N000142112096) and the Strategic Environmental Research and Development Program (Grant Nos. RC20-1097, RC20-7188, and RC21-3091).

PY - 2025/6

Y1 - 2025/6

N2 - We analyze ocean ambient sound from a global network of hydrophones installed and maintained by the Comprehensive Nuclear-Test-Ban Treaty Organization. We process acoustic data from nine hydrophones across six hydroacoustic stations distributed across five oceans: North Pacific, South Pacific, South Atlantic, Indian, and Southern oceans, for up to 19 consecutive years between 2003 and 2021. We identify dominant natural and anthropogenic sources for all six stations and observe long-term trends at four of them. Out of 20 statistical tests, 15 identified a significant downward trend in sound pressure level. Possible causes of these decreasing trends include a global recession in 2016, the COVID-19 pandemic in 2020, five major earthquakes between 2004 and 2012 (with none in 2013-2021), and a steadily increasing sea surface temperature, which decreases the sea surface critical angle and hence the contribution from near-surface sources (e.g., shipping) to sound pressure level.

AB - We analyze ocean ambient sound from a global network of hydrophones installed and maintained by the Comprehensive Nuclear-Test-Ban Treaty Organization. We process acoustic data from nine hydrophones across six hydroacoustic stations distributed across five oceans: North Pacific, South Pacific, South Atlantic, Indian, and Southern oceans, for up to 19 consecutive years between 2003 and 2021. We identify dominant natural and anthropogenic sources for all six stations and observe long-term trends at four of them. Out of 20 statistical tests, 15 identified a significant downward trend in sound pressure level. Possible causes of these decreasing trends include a global recession in 2016, the COVID-19 pandemic in 2020, five major earthquakes between 2004 and 2012 (with none in 2013-2021), and a steadily increasing sea surface temperature, which decreases the sea surface critical angle and hence the contribution from near-surface sources (e.g., shipping) to sound pressure level.

U2 - 10.1121/10.0036831

DO - 10.1121/10.0036831

M3 - Article

C2 - 40525830

AN - SCOPUS:105008877000

SN - 0001-4966

VL - 157

SP - 4358

EP - 4384

JO - Journal of the Acoustical Society of America

JF - Journal of the Acoustical Society of America

IS - 6

ER -

Ocean soundscapes and trends from 2003 to 2021: 10-100 Hz

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