Worldwide Soundscapes: A Synthesis of Passive Acoustic Monitoring Across Realms

Kevin F.A. Darras; Rodney A. Rountree; Steven L. Van Wilgenburg; Anna F. Cord; Frederik Pitz; Youfang Chen; Lijun Dong; Agnès Rocquencourt; Camille Desjonquères; Patrick Mauritz Diaz; Tzu Hao Lin; Théophile Turco; Louise Emmerson; Tom Bradfer-Lawrence; Amandine Gasc; Sarah Marley; Marcus Salton; Laura Schillé; Paul J. Wensveen; Shih Hung Wu; Adriana C. Acero-Murcia; Orlando Acevedo-Charry; Matyáš Adam; Jacopo Aguzzi; Irmak Akoglu; M. Clara P. Amorim; Mina Anders; Michel André; Alexandre Antonelli; Leandro Aparecido Do Nascimento; Giulliana Appel; Stephanie Archer; Christos Astaras; Andrey Atemasov; Jamieson Atkinson; Joël Attia; Emanuel Baltag; Luc Barbaro; Fritjof Basan; Carly Batist; Julio Ernesto Baumgarten; Just T. Bayle Sempere; Kristen Bellisario; Asaf Ben David; Oded Berger-Tal; Frédéric Bertucci; Matthew G. Betts; Iqbal S. Bhalla; Denise Risch; Peter Taylor

doi:10.1111/geb.70021

Worldwide Soundscapes: A Synthesis of Passive Acoustic Monitoring Across Realms

Kevin F.A. Darras
, Rodney A. Rountree
, Steven L. Van Wilgenburg
, Anna F. Cord
, Frederik Pitz
, Youfang Chen
, Lijun Dong
, Agnès Rocquencourt
, Camille Desjonquères
, Patrick Mauritz Diaz
, Tzu Hao Lin
, Théophile Turco
, Louise Emmerson
, Tom Bradfer-Lawrence
, Amandine Gasc
, Sarah Marley
, Marcus Salton
, Laura Schillé
, Paul J. Wensveen
, Shih Hung Wu

Adriana C. Acero-Murcia, Orlando Acevedo-Charry, Matyáš Adam, Jacopo Aguzzi, Irmak Akoglu, M. Clara P. Amorim, Mina Anders, Michel André, Alexandre Antonelli, Leandro Aparecido Do Nascimento, Giulliana Appel, Stephanie Archer, Christos Astaras, Andrey Atemasov, Jamieson Atkinson, Joël Attia, Emanuel Baltag, Luc Barbaro, Fritjof Basan, Carly Batist, Julio Ernesto Baumgarten, Just T. Bayle Sempere, Kristen Bellisario, Asaf Ben David, Oded Berger-Tal, Frédéric Bertucci, Matthew G. Betts, Iqbal S. Bhalla, Denise Risch, Peter Taylor

SAMS UHI

Resultado de pesquisa: Article › revisão de pares

30 Citações (Scopus)

Resumo

Aim: The urgency for remote, reliable and scalable biodiversity monitoring amidst mounting human pressures on ecosystems has sparked worldwide interest in Passive Acoustic Monitoring (PAM), which can track life underwater and on land. However, we lack a unified methodology to report this sampling effort and a comprehensive overview of PAM coverage to gauge its potential as a global research and monitoring tool. To address this gap, we created the Worldwide Soundscapes project, a collaborative network and growing database comprising metadata from 416 datasets across all realms (terrestrial, marine, freshwater and subterranean). Location: Worldwide, 12,343 sites, all ecosystem types. Time Period: 1991 to present. Major Taxa Studied: All soniferous taxa. Methods: We synthesise sampling coverage across spatial, temporal and ecological scales using metadata describing sampling locations, deployment schedules, focal taxa and audio recording parameters. We explore global trends in biological, anthropogenic and geophysical sounds based on 168 selected recordings from 12 ecosystems across all realms. Results: Terrestrial sampling is spatially denser (46 sites per million square kilometre—Mkm²) than aquatic sampling (0.3 and 1.8 sites/Mkm² in oceans and fresh water) with only two subterranean datasets. Although diel and lunar cycles are well sampled across realms, only marine datasets (55%) comprehensively sample all seasons. Across the 12 ecosystems selected for exploring global acoustic trends, biological sounds showed contrasting diel patterns across ecosystems, declined with distance from the Equator, and were negatively correlated with anthropogenic sounds. Main Conclusions: PAM can inform macroecological studies as well as global conservation and phenology syntheses, but representation can be improved by expanding terrestrial taxonomic scope, sampling coverage in the high seas and subterranean ecosystems, and spatio-temporal replication in freshwater habitats. Overall, this worldwide PAM network holds promise to support cross-realm biodiversity research and monitoring efforts.

Idioma original	English
Número do artigo	e70021
Revista	GLOBAL ECOLOGY AND BIOGEOGRAPHY
Volume	34
Número de emissão	5
DOIs	https://doi.org/10.1111/geb.70021
Estado da publicação	Published - 6 mai. 2025

ODS da ONU

Este resultado contribui para o(s) seguinte(s) Objetivo(s) de Desenvolvimento Sustentável

Clean water and sanitation
Life below water
Life on land

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10.1111/geb.70021Licença: CC BY

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Darras, K. F. A., Rountree, R. A., Van Wilgenburg, S. L., Cord, A. F., Pitz, F., Chen, Y., Dong, L., Rocquencourt, A., Desjonquères, C., Diaz, P. M., Lin, T. H., Turco, T., Emmerson, L., Bradfer-Lawrence, T., Gasc, A., Marley, S., Salton, M., Schillé, L., Wensveen, P. J., ... Taylor, P. (2025). Worldwide Soundscapes: A Synthesis of Passive Acoustic Monitoring Across Realms. GLOBAL ECOLOGY AND BIOGEOGRAPHY, 34(5), Artigo e70021. https://doi.org/10.1111/geb.70021

@article{c4f2a63e99634c748da5ca44a7eedc3e,

title = "Worldwide Soundscapes: A Synthesis of Passive Acoustic Monitoring Across Realms",

abstract = "Aim: The urgency for remote, reliable and scalable biodiversity monitoring amidst mounting human pressures on ecosystems has sparked worldwide interest in Passive Acoustic Monitoring (PAM), which can track life underwater and on land. However, we lack a unified methodology to report this sampling effort and a comprehensive overview of PAM coverage to gauge its potential as a global research and monitoring tool. To address this gap, we created the Worldwide Soundscapes project, a collaborative network and growing database comprising metadata from 416 datasets across all realms (terrestrial, marine, freshwater and subterranean). Location: Worldwide, 12,343 sites, all ecosystem types. Time Period: 1991 to present. Major Taxa Studied: All soniferous taxa. Methods: We synthesise sampling coverage across spatial, temporal and ecological scales using metadata describing sampling locations, deployment schedules, focal taxa and audio recording parameters. We explore global trends in biological, anthropogenic and geophysical sounds based on 168 selected recordings from 12 ecosystems across all realms. Results: Terrestrial sampling is spatially denser (46 sites per million square kilometre—Mkm2) than aquatic sampling (0.3 and 1.8 sites/Mkm2 in oceans and fresh water) with only two subterranean datasets. Although diel and lunar cycles are well sampled across realms, only marine datasets (55\%) comprehensively sample all seasons. Across the 12 ecosystems selected for exploring global acoustic trends, biological sounds showed contrasting diel patterns across ecosystems, declined with distance from the Equator, and were negatively correlated with anthropogenic sounds. Main Conclusions: PAM can inform macroecological studies as well as global conservation and phenology syntheses, but representation can be improved by expanding terrestrial taxonomic scope, sampling coverage in the high seas and subterranean ecosystems, and spatio-temporal replication in freshwater habitats. Overall, this worldwide PAM network holds promise to support cross-realm biodiversity research and monitoring efforts.",

keywords = "ARU, automated sound recorder, biodiversity, conservation biology, ecoacoustics, IUCN GET realm, Passive Acoustic Monitoring, phenology, soundscape ecology",

author = "Darras, \{Kevin F.A.\} and Rountree, \{Rodney A.\} and \{Van Wilgenburg\}, \{Steven L.\} and Cord, \{Anna F.\} and Frederik Pitz and Youfang Chen and Lijun Dong and Agn{\`e}s Rocquencourt and Camille Desjonqu{\`e}res and Diaz, \{Patrick Mauritz\} and Lin, \{Tzu Hao\} and Th{\'e}ophile Turco and Louise Emmerson and Tom Bradfer-Lawrence and Amandine Gasc and Sarah Marley and Marcus Salton and Laura Schill{\'e} and Wensveen, \{Paul J.\} and Wu, \{Shih Hung\} and Acero-Murcia, \{Adriana C.\} and Orlando Acevedo-Charry and Maty{\'a}{\v s} Adam and Jacopo Aguzzi and Irmak Akoglu and Amorim, \{M. Clara P.\} and Mina Anders and Michel Andr{\'e} and Alexandre Antonelli and \{Do Nascimento\}, \{Leandro Aparecido\} and Giulliana Appel and Stephanie Archer and Christos Astaras and Andrey Atemasov and Jamieson Atkinson and Jo{\"e}l Attia and Emanuel Baltag and Luc Barbaro and Fritjof Basan and Carly Batist and Baumgarten, \{Julio Ernesto\} and \{Bayle Sempere\}, \{Just T.\} and Kristen Bellisario and David, \{Asaf Ben\} and Oded Berger-Tal and Fr{\'e}d{\'e}ric Bertucci and Betts, \{Matthew G.\} and Bhalla, \{Iqbal S.\} and Denise Risch and Peter Taylor",

note = "{\textcopyright} 2025 The Author(s). Global Ecology and Biogeography published by John Wiley \& Sons Ltd.",

year = "2025",

month = may,

day = "6",

doi = "10.1111/geb.70021",

language = "English",

volume = "34",

journal = "GLOBAL ECOLOGY AND BIOGEOGRAPHY",

issn = "1466-822X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "5",

}

Darras, KFA, Rountree, RA, Van Wilgenburg, SL, Cord, AF, Pitz, F, Chen, Y, Dong, L, Rocquencourt, A, Desjonquères, C, Diaz, PM, Lin, TH, Turco, T, Emmerson, L, Bradfer-Lawrence, T, Gasc, A, Marley, S, Salton, M, Schillé, L, Wensveen, PJ, Wu, SH, Acero-Murcia, AC, Acevedo-Charry, O, Adam, M, Aguzzi, J, Akoglu, I, Amorim, MCP, Anders, M, André, M, Antonelli, A, Do Nascimento, LA, Appel, G, Archer, S, Astaras, C, Atemasov, A, Atkinson, J, Attia, J, Baltag, E, Barbaro, L, Basan, F, Batist, C, Baumgarten, JE, Bayle Sempere, JT, Bellisario, K, David, AB, Berger-Tal, O, Bertucci, F, Betts, MG, Bhalla, IS, Risch, D & Taylor, P 2025, 'Worldwide Soundscapes: A Synthesis of Passive Acoustic Monitoring Across Realms', GLOBAL ECOLOGY AND BIOGEOGRAPHY, vol. 34, n.º 5, e70021. https://doi.org/10.1111/geb.70021

TY - JOUR

T1 - Worldwide Soundscapes

T2 - A Synthesis of Passive Acoustic Monitoring Across Realms

AU - Darras, Kevin F.A.

AU - Rountree, Rodney A.

AU - Van Wilgenburg, Steven L.

AU - Cord, Anna F.

AU - Pitz, Frederik

AU - Chen, Youfang

AU - Dong, Lijun

AU - Rocquencourt, Agnès

AU - Desjonquères, Camille

AU - Diaz, Patrick Mauritz

AU - Lin, Tzu Hao

AU - Turco, Théophile

AU - Emmerson, Louise

AU - Bradfer-Lawrence, Tom

AU - Gasc, Amandine

AU - Marley, Sarah

AU - Salton, Marcus

AU - Schillé, Laura

AU - Wensveen, Paul J.

AU - Wu, Shih Hung

AU - Acero-Murcia, Adriana C.

AU - Acevedo-Charry, Orlando

AU - Adam, Matyáš

AU - Aguzzi, Jacopo

AU - Akoglu, Irmak

AU - Amorim, M. Clara P.

AU - Anders, Mina

AU - André, Michel

AU - Antonelli, Alexandre

AU - Do Nascimento, Leandro Aparecido

AU - Appel, Giulliana

AU - Archer, Stephanie

AU - Astaras, Christos

AU - Atemasov, Andrey

AU - Atkinson, Jamieson

AU - Attia, Joël

AU - Baltag, Emanuel

AU - Barbaro, Luc

AU - Basan, Fritjof

AU - Batist, Carly

AU - Baumgarten, Julio Ernesto

AU - Bayle Sempere, Just T.

AU - Bellisario, Kristen

AU - David, Asaf Ben

AU - Berger-Tal, Oded

AU - Bertucci, Frédéric

AU - Betts, Matthew G.

AU - Bhalla, Iqbal S.

AU - Risch, Denise

AU - Taylor, Peter

PY - 2025/5/6

Y1 - 2025/5/6

N2 - Aim: The urgency for remote, reliable and scalable biodiversity monitoring amidst mounting human pressures on ecosystems has sparked worldwide interest in Passive Acoustic Monitoring (PAM), which can track life underwater and on land. However, we lack a unified methodology to report this sampling effort and a comprehensive overview of PAM coverage to gauge its potential as a global research and monitoring tool. To address this gap, we created the Worldwide Soundscapes project, a collaborative network and growing database comprising metadata from 416 datasets across all realms (terrestrial, marine, freshwater and subterranean). Location: Worldwide, 12,343 sites, all ecosystem types. Time Period: 1991 to present. Major Taxa Studied: All soniferous taxa. Methods: We synthesise sampling coverage across spatial, temporal and ecological scales using metadata describing sampling locations, deployment schedules, focal taxa and audio recording parameters. We explore global trends in biological, anthropogenic and geophysical sounds based on 168 selected recordings from 12 ecosystems across all realms. Results: Terrestrial sampling is spatially denser (46 sites per million square kilometre—Mkm2) than aquatic sampling (0.3 and 1.8 sites/Mkm2 in oceans and fresh water) with only two subterranean datasets. Although diel and lunar cycles are well sampled across realms, only marine datasets (55%) comprehensively sample all seasons. Across the 12 ecosystems selected for exploring global acoustic trends, biological sounds showed contrasting diel patterns across ecosystems, declined with distance from the Equator, and were negatively correlated with anthropogenic sounds. Main Conclusions: PAM can inform macroecological studies as well as global conservation and phenology syntheses, but representation can be improved by expanding terrestrial taxonomic scope, sampling coverage in the high seas and subterranean ecosystems, and spatio-temporal replication in freshwater habitats. Overall, this worldwide PAM network holds promise to support cross-realm biodiversity research and monitoring efforts.

AB - Aim: The urgency for remote, reliable and scalable biodiversity monitoring amidst mounting human pressures on ecosystems has sparked worldwide interest in Passive Acoustic Monitoring (PAM), which can track life underwater and on land. However, we lack a unified methodology to report this sampling effort and a comprehensive overview of PAM coverage to gauge its potential as a global research and monitoring tool. To address this gap, we created the Worldwide Soundscapes project, a collaborative network and growing database comprising metadata from 416 datasets across all realms (terrestrial, marine, freshwater and subterranean). Location: Worldwide, 12,343 sites, all ecosystem types. Time Period: 1991 to present. Major Taxa Studied: All soniferous taxa. Methods: We synthesise sampling coverage across spatial, temporal and ecological scales using metadata describing sampling locations, deployment schedules, focal taxa and audio recording parameters. We explore global trends in biological, anthropogenic and geophysical sounds based on 168 selected recordings from 12 ecosystems across all realms. Results: Terrestrial sampling is spatially denser (46 sites per million square kilometre—Mkm2) than aquatic sampling (0.3 and 1.8 sites/Mkm2 in oceans and fresh water) with only two subterranean datasets. Although diel and lunar cycles are well sampled across realms, only marine datasets (55%) comprehensively sample all seasons. Across the 12 ecosystems selected for exploring global acoustic trends, biological sounds showed contrasting diel patterns across ecosystems, declined with distance from the Equator, and were negatively correlated with anthropogenic sounds. Main Conclusions: PAM can inform macroecological studies as well as global conservation and phenology syntheses, but representation can be improved by expanding terrestrial taxonomic scope, sampling coverage in the high seas and subterranean ecosystems, and spatio-temporal replication in freshwater habitats. Overall, this worldwide PAM network holds promise to support cross-realm biodiversity research and monitoring efforts.

KW - ARU

KW - automated sound recorder

KW - biodiversity

KW - conservation biology

KW - ecoacoustics

KW - IUCN GET realm

KW - Passive Acoustic Monitoring

KW - phenology

KW - soundscape ecology

UR - https://www.scopus.com/pages/publications/105009329675

UR - https://www.scopus.com/pages/publications/105009329675#tab=citedBy

U2 - 10.1111/geb.70021

DO - 10.1111/geb.70021

M3 - Article

AN - SCOPUS:105009329675

SN - 1466-822X

VL - 34

JO - GLOBAL ECOLOGY AND BIOGEOGRAPHY

JF - GLOBAL ECOLOGY AND BIOGEOGRAPHY

IS - 5

M1 - e70021

ER -

Worldwide Soundscapes: A Synthesis of Passive Acoustic Monitoring Across Realms

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