Bioacoustic Detection of Wolves: Identifying Subspecies and Individuals by Howls

Wolves (Canis lupus) are generally monitored by visual observations, camera traps, and DNA traces. In this study, we evaluated acoustic monitoring of wolf howls as a method for monitoring wolves, which may permit detection of wolves across longer distances than that permitted by camera traps. We ana...

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Bibliographic Details
Published in:Animals
Main Authors: Hanne Lyngholm Larsen, Cino Pertoldi, Niels Madsen, Ettore Randi, Astrid Vik Stronen, Holly Root-Gutteridge, Sussie Pagh
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2022
Subjects:
bioacoustics
Canis lupus
discriminant analysis
habitats directive
monitoring
fundamental frequency
acoustic variables
Arctic
Online Access:https://doi.org/10.3390/ani12050631
id ftmdpi:oai:mdpi.com:/2076-2615/12/5/631/
record_format openpolar
spelling ftmdpi:oai:mdpi.com:/2076-2615/12/5/631/ 2023-08-20T04:04:20+02:00 Bioacoustic Detection of Wolves: Identifying Subspecies and Individuals by Howls Hanne Lyngholm Larsen Cino Pertoldi Niels Madsen Ettore Randi Astrid Vik Stronen Holly Root-Gutteridge Sussie Pagh agris 2022-03-02 application/pdf https://doi.org/10.3390/ani12050631 EN eng Multidisciplinary Digital Publishing Institute Wildlife https://dx.doi.org/10.3390/ani12050631 https://creativecommons.org/licenses/by/4.0/ Animals; Volume 12; Issue 5; Pages: 631 bioacoustics Canis lupus discriminant analysis habitats directive monitoring fundamental frequency acoustic variables Text 2022 ftmdpi https://doi.org/10.3390/ani12050631 2023-08-01T04:20:51Z Wolves (Canis lupus) are generally monitored by visual observations, camera traps, and DNA traces. In this study, we evaluated acoustic monitoring of wolf howls as a method for monitoring wolves, which may permit detection of wolves across longer distances than that permitted by camera traps. We analyzed acoustic data of wolves’ howls collected from both wild and captive ones. The analysis focused on individual and subspecies recognition. Furthermore, we aimed to determine the usefulness of acoustic monitoring in the field given the limited data for Eurasian wolves. We analyzed 170 howls from 16 individual wolves from 3 subspecies: Arctic (Canis lupus arctos), Eurasian (C. l. lupus), and Northwestern wolves (C. l. occidentalis). Variables from the fundamental frequency (f0) (lowest frequency band of a sound signal) were extracted and used in discriminant analysis, classification matrix, and pairwise post-hoc Hotelling test. The results indicated that Arctic and Eurasian wolves had subspecies identifiable calls, while Northwestern wolves did not, though this sample size was small. Identification on an individual level was successful for all subspecies. Individuals were correctly classified with 80%–100% accuracy, using discriminant function analysis. Our findings suggest acoustic monitoring could be a valuable and cost-effective tool that complements camera traps, by improving long-distance detection of wolves. Text Arctic Canis lupus MDPI Open Access Publishing Arctic Animals 12 5 631
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic bioacoustics
Canis lupus
discriminant analysis
habitats directive
monitoring
fundamental frequency
acoustic variables
spellingShingle bioacoustics
Canis lupus
discriminant analysis
habitats directive
monitoring
fundamental frequency
acoustic variables
Hanne Lyngholm Larsen
Cino Pertoldi
Niels Madsen
Ettore Randi
Astrid Vik Stronen
Holly Root-Gutteridge
Sussie Pagh
Bioacoustic Detection of Wolves: Identifying Subspecies and Individuals by Howls
topic_facet bioacoustics
Canis lupus
discriminant analysis
habitats directive
monitoring
fundamental frequency
acoustic variables
description Wolves (Canis lupus) are generally monitored by visual observations, camera traps, and DNA traces. In this study, we evaluated acoustic monitoring of wolf howls as a method for monitoring wolves, which may permit detection of wolves across longer distances than that permitted by camera traps. We analyzed acoustic data of wolves’ howls collected from both wild and captive ones. The analysis focused on individual and subspecies recognition. Furthermore, we aimed to determine the usefulness of acoustic monitoring in the field given the limited data for Eurasian wolves. We analyzed 170 howls from 16 individual wolves from 3 subspecies: Arctic (Canis lupus arctos), Eurasian (C. l. lupus), and Northwestern wolves (C. l. occidentalis). Variables from the fundamental frequency (f0) (lowest frequency band of a sound signal) were extracted and used in discriminant analysis, classification matrix, and pairwise post-hoc Hotelling test. The results indicated that Arctic and Eurasian wolves had subspecies identifiable calls, while Northwestern wolves did not, though this sample size was small. Identification on an individual level was successful for all subspecies. Individuals were correctly classified with 80%–100% accuracy, using discriminant function analysis. Our findings suggest acoustic monitoring could be a valuable and cost-effective tool that complements camera traps, by improving long-distance detection of wolves.
format Text
author Hanne Lyngholm Larsen
Cino Pertoldi
Niels Madsen
Ettore Randi
Astrid Vik Stronen
Holly Root-Gutteridge
Sussie Pagh
author_facet Hanne Lyngholm Larsen
Cino Pertoldi
Niels Madsen
Ettore Randi
Astrid Vik Stronen
Holly Root-Gutteridge
Sussie Pagh
author_sort Hanne Lyngholm Larsen
title Bioacoustic Detection of Wolves: Identifying Subspecies and Individuals by Howls
title_short Bioacoustic Detection of Wolves: Identifying Subspecies and Individuals by Howls
title_full Bioacoustic Detection of Wolves: Identifying Subspecies and Individuals by Howls
title_fullStr Bioacoustic Detection of Wolves: Identifying Subspecies and Individuals by Howls
title_full_unstemmed Bioacoustic Detection of Wolves: Identifying Subspecies and Individuals by Howls
title_sort bioacoustic detection of wolves: identifying subspecies and individuals by howls
publisher Multidisciplinary Digital Publishing Institute
publishDate 2022
url https://doi.org/10.3390/ani12050631
op_coverage agris
geographic Arctic
geographic_facet Arctic
genre Arctic
Canis lupus
genre_facet Arctic
Canis lupus
op_source Animals; Volume 12; Issue 5; Pages: 631
op_relation Wildlife
https://dx.doi.org/10.3390/ani12050631
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/ani12050631
container_title Animals
container_volume 12
container_issue 5
container_start_page 631
_version_ 1774714726859669504

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