Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations

1. Passive acoustic monitoring (PAM) is used for many vocal species. However, few studies have quantified the fraction of vocalisations captured, and how animal distance and sound source level affect detection probability. Quantifying the detection probability or effective detection area (EDA) of a...

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Published in:Methods in Ecology and Evolution
Main Authors: Nuuttila, Hanna K., Brundiers, Katharina, Dähne, Michael, Koblitz, Jens C., Thomas, Len, Courtene-Jones, Winnie, Evans, Peter G. H., Turner, John R., Bennell, Jim D., Hiddink, Jan G.
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
Abundance
C-POD
Density estimation
Detection function
Effective detection radius
Static passive acoustic monitoring
Gam
Harbour porpoise
Online Access:https://risweb.st-andrews.ac.uk/portal/en/researchoutput/estimating-effective-detection-area-of-static-passive-acoustic-data-loggers-from-playback-experiments-with-cetacean-vocalisations(2f46d794-9fa5-46f0-93d7-c503f5871271).html
https://doi.org/10.1111/2041-210X.13097
https://research-repository.st-andrews.ac.uk/bitstream/10023/18731/1/mee3_13097_accepted_manusc.pdf
id ftunstandrewcris:oai:risweb.st-andrews.ac.uk:publications/2f46d794-9fa5-46f0-93d7-c503f5871271
record_format openpolar
spelling ftunstandrewcris:oai:risweb.st-andrews.ac.uk:publications/2f46d794-9fa5-46f0-93d7-c503f5871271 2023-05-15T16:33:24+02:00 Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations Nuuttila, Hanna K. Brundiers, Katharina Dähne, Michael Koblitz, Jens C. Thomas, Len Courtene-Jones, Winnie Evans, Peter G. H. Turner, John R. Bennell, Jim D. Hiddink, Jan G. 2018-12 application/pdf https://risweb.st-andrews.ac.uk/portal/en/researchoutput/estimating-effective-detection-area-of-static-passive-acoustic-data-loggers-from-playback-experiments-with-cetacean-vocalisations(2f46d794-9fa5-46f0-93d7-c503f5871271).html https://doi.org/10.1111/2041-210X.13097 https://research-repository.st-andrews.ac.uk/bitstream/10023/18731/1/mee3_13097_accepted_manusc.pdf eng eng info:eu-repo/semantics/openAccess Nuuttila , H K , Brundiers , K , Dähne , M , Koblitz , J C , Thomas , L , Courtene-Jones , W , Evans , P G H , Turner , J R , Bennell , J D & Hiddink , J G 2018 , ' Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations ' , Methods in Ecology and Evolution , vol. 9 , no. 12 , pp. 2362-2371 . https://doi.org/10.1111/2041-210X.13097 Abundance C-POD Density estimation Detection function Effective detection radius Static passive acoustic monitoring article 2018 ftunstandrewcris https://doi.org/10.1111/2041-210X.13097 2021-12-26T14:33:19Z 1. Passive acoustic monitoring (PAM) is used for many vocal species. However, few studies have quantified the fraction of vocalisations captured, and how animal distance and sound source level affect detection probability. Quantifying the detection probability or effective detection area (EDA) of a recorder is a prerequisite for designing and implementing monitoring studies, and essential for estimating absolute density and abundance from PAM data. 2. We tested the detector performance of cetacean click loggers (C-PODs) using artificial and recorded harbour porpoise clicks played at a range of distances and source levels. Detection rate of individual clicks and click sequences (or click trains) was calculated. A Generalised Additive Model (GAM) was used to create a detection function and estimate the effective detection radius (EDR) and EDA for both types of signals. 3. Source level and distance from logger influenced the detection probability. Whilst differences between loggers were evident, detectability was influenced more by the deployment site than within-logger variability. Maximum distance for detecting real recorded porpoise clicks was 566 m. Mean EDR for artificial signals with source level 176 dB re 1 μPa @ 1m was 187 m., and for a recorded vocalisation with source level up to 182 dB re 1 μPa was 188 m. For detections classified as harbour porpoise click sequences the mean EDR was 72 m. 4. The analytical methods presented are a valid technique for estimating the EDA of any logger used in abundance estimates. We present a practical way to obtain data with a cetacean click logger, with the caveat that artificial playbacks cannot mimic real animal behaviour and are at best able to account for some of the variability in detections between sites, removing logger and propagation effects so that what remains is density and behavioural differences. If calibrated against real-world EDAs (e.g., from tagged animals) it is possible to estimate site-specific detection area and absolute density. We highlight the ... Article in Journal/Newspaper Harbour porpoise University of St Andrews: Research Portal Gam ENVELOPE(-57.955,-57.955,-61.923,-61.923) Methods in Ecology and Evolution 9 12 2362 2371
institution Open Polar
collection University of St Andrews: Research Portal
op_collection_id ftunstandrewcris
language English
topic Abundance
C-POD
Density estimation
Detection function
Effective detection radius
Static passive acoustic monitoring
spellingShingle Abundance
C-POD
Density estimation
Detection function
Effective detection radius
Static passive acoustic monitoring
Nuuttila, Hanna K.
Brundiers, Katharina
Dähne, Michael
Koblitz, Jens C.
Thomas, Len
Courtene-Jones, Winnie
Evans, Peter G. H.
Turner, John R.
Bennell, Jim D.
Hiddink, Jan G.
Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations
topic_facet Abundance
C-POD
Density estimation
Detection function
Effective detection radius
Static passive acoustic monitoring
description 1. Passive acoustic monitoring (PAM) is used for many vocal species. However, few studies have quantified the fraction of vocalisations captured, and how animal distance and sound source level affect detection probability. Quantifying the detection probability or effective detection area (EDA) of a recorder is a prerequisite for designing and implementing monitoring studies, and essential for estimating absolute density and abundance from PAM data. 2. We tested the detector performance of cetacean click loggers (C-PODs) using artificial and recorded harbour porpoise clicks played at a range of distances and source levels. Detection rate of individual clicks and click sequences (or click trains) was calculated. A Generalised Additive Model (GAM) was used to create a detection function and estimate the effective detection radius (EDR) and EDA for both types of signals. 3. Source level and distance from logger influenced the detection probability. Whilst differences between loggers were evident, detectability was influenced more by the deployment site than within-logger variability. Maximum distance for detecting real recorded porpoise clicks was 566 m. Mean EDR for artificial signals with source level 176 dB re 1 μPa @ 1m was 187 m., and for a recorded vocalisation with source level up to 182 dB re 1 μPa was 188 m. For detections classified as harbour porpoise click sequences the mean EDR was 72 m. 4. The analytical methods presented are a valid technique for estimating the EDA of any logger used in abundance estimates. We present a practical way to obtain data with a cetacean click logger, with the caveat that artificial playbacks cannot mimic real animal behaviour and are at best able to account for some of the variability in detections between sites, removing logger and propagation effects so that what remains is density and behavioural differences. If calibrated against real-world EDAs (e.g., from tagged animals) it is possible to estimate site-specific detection area and absolute density. We highlight the ...
format Article in Journal/Newspaper
author Nuuttila, Hanna K.
Brundiers, Katharina
Dähne, Michael
Koblitz, Jens C.
Thomas, Len
Courtene-Jones, Winnie
Evans, Peter G. H.
Turner, John R.
Bennell, Jim D.
Hiddink, Jan G.
author_facet Nuuttila, Hanna K.
Brundiers, Katharina
Dähne, Michael
Koblitz, Jens C.
Thomas, Len
Courtene-Jones, Winnie
Evans, Peter G. H.
Turner, John R.
Bennell, Jim D.
Hiddink, Jan G.
author_sort Nuuttila, Hanna K.
title Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations
title_short Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations
title_full Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations
title_fullStr Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations
title_full_unstemmed Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations
title_sort estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations
publishDate 2018
url https://risweb.st-andrews.ac.uk/portal/en/researchoutput/estimating-effective-detection-area-of-static-passive-acoustic-data-loggers-from-playback-experiments-with-cetacean-vocalisations(2f46d794-9fa5-46f0-93d7-c503f5871271).html
https://doi.org/10.1111/2041-210X.13097
https://research-repository.st-andrews.ac.uk/bitstream/10023/18731/1/mee3_13097_accepted_manusc.pdf
long_lat ENVELOPE(-57.955,-57.955,-61.923,-61.923)
geographic Gam
geographic_facet Gam
genre Harbour porpoise
genre_facet Harbour porpoise
op_source Nuuttila , H K , Brundiers , K , Dähne , M , Koblitz , J C , Thomas , L , Courtene-Jones , W , Evans , P G H , Turner , J R , Bennell , J D & Hiddink , J G 2018 , ' Estimating effective detection area of static passive acoustic data loggers from playback experiments with cetacean vocalisations ' , Methods in Ecology and Evolution , vol. 9 , no. 12 , pp. 2362-2371 . https://doi.org/10.1111/2041-210X.13097
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1111/2041-210X.13097
container_title Methods in Ecology and Evolution
container_volume 9
container_issue 12
container_start_page 2362
op_container_end_page 2371
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