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Acoustic identification of Mexican bats based on taxonomic and ecological constraints on call design

Acoustic identification of Mexican bats based on taxonomic and ecological constraints on call design
Acoustic identification of Mexican bats based on taxonomic and ecological constraints on call design

Monitoring global biodiversity is critical for understanding responses to anthropogenic change, but biodiversity monitoring is often biased away from tropical, megadiverse areas that are experiencing more rapid environmental change. Acoustic surveys are increasingly used to monitor biodiversity change, especially for bats as they are important indicator species and most use sound to detect, localise and classify objects. However, using bat acoustic surveys for monitoring poses several challenges, particularly in megadiverse regions. Many species lack reference recordings, some species have high call similarity or differ in call detectability, and quantitative classification tools, such as machine learning algorithms, have rarely been applied to data from these areas. Here, we collate a reference call library for bat species that occur in a megadiverse country, Mexico. We use 4685 search-phase calls from 1378 individual sequences of 59 bat species to create automatic species identification tools generated by machine learning algorithms (Random Forest). We evaluate the improvement in species-level classification rates gained by using hierarchical classifications, reflecting either taxonomic or ecological constraints (guilds) on call design, and examine how classification rate accuracy changes at different hierarchical levels (family, genus and guild). Species-level classification of calls had a mean accuracy of 66%, and the use of hierarchies improved mean species-level classification accuracy by up to 6% (species within families 72%, species within genera 71·2% and species within guilds 69·1%). Classification accuracy to family, genus and guild-level was 91·7%, 77·8% and 82·5%, respectively. The bioacoustic identification tools we have developed are accurate for rapid biodiversity assessments in a megadiverse region and can also be used effectively to classify species at broader taxonomic or ecological levels. This flexibility increases their usefulness when there are incomplete species reference recordings and also offers the opportunity to characterise and track changes in bat community structure. Our results show that bat bioacoustic surveys in megadiverse countries have more potential than previously thought to monitor biodiversity changes and can be used to direct further developments of bioacoustic monitoring programs in Mexico.

acoustic identification, guild, hierarchical classification, machine learning, Neotropical, random forest, whispering bats
2041-210X
1082-1091
Zamora-Gutierrez, Veronica
17a6b9d9-3346-4df6-9438-026b7342e28a
Lopez-Gonzalez, Celia
d75a8ee3-2cc4-4875-97c1-e7b64822b673
MacSwiney Gonzalez, M. Cristina
cb843f78-3421-4d42-bac2-1bc7388ea970
Fenton, Brock
9d252f9c-3b5b-495a-89bf-02a8ae841965
Jones, Gareth
fdb7f584-21c5-4fe4-9e57-b58c78ebe3f5
Kalko, Elisabeth K.V.
5380f6aa-89ca-4622-bc22-f16ae93ef52c
Puechmaille, Sebastien J.
959e4e7c-f1e1-45a3-83e4-dcc64c5fff59
Stathopoulos, Vassilios
279cb41a-39c2-46e7-a5fc-b8e7b02cad54
Jones, Kate E.
f1cf7f49-c3cb-4900-9ae8-411b5d7605a2
Zamora-Gutierrez, Veronica
17a6b9d9-3346-4df6-9438-026b7342e28a
Lopez-Gonzalez, Celia
d75a8ee3-2cc4-4875-97c1-e7b64822b673
MacSwiney Gonzalez, M. Cristina
cb843f78-3421-4d42-bac2-1bc7388ea970
Fenton, Brock
9d252f9c-3b5b-495a-89bf-02a8ae841965
Jones, Gareth
fdb7f584-21c5-4fe4-9e57-b58c78ebe3f5
Kalko, Elisabeth K.V.
5380f6aa-89ca-4622-bc22-f16ae93ef52c
Puechmaille, Sebastien J.
959e4e7c-f1e1-45a3-83e4-dcc64c5fff59
Stathopoulos, Vassilios
279cb41a-39c2-46e7-a5fc-b8e7b02cad54
Jones, Kate E.
f1cf7f49-c3cb-4900-9ae8-411b5d7605a2

Zamora-Gutierrez, Veronica, Lopez-Gonzalez, Celia, MacSwiney Gonzalez, M. Cristina, Fenton, Brock, Jones, Gareth, Kalko, Elisabeth K.V., Puechmaille, Sebastien J., Stathopoulos, Vassilios and Jones, Kate E. (2016) Acoustic identification of Mexican bats based on taxonomic and ecological constraints on call design. Methods in Ecology and Evolution, 7 (9), 1082-1091. (doi:10.1111/2041-210X.12556).

Record type: Article

Abstract

Monitoring global biodiversity is critical for understanding responses to anthropogenic change, but biodiversity monitoring is often biased away from tropical, megadiverse areas that are experiencing more rapid environmental change. Acoustic surveys are increasingly used to monitor biodiversity change, especially for bats as they are important indicator species and most use sound to detect, localise and classify objects. However, using bat acoustic surveys for monitoring poses several challenges, particularly in megadiverse regions. Many species lack reference recordings, some species have high call similarity or differ in call detectability, and quantitative classification tools, such as machine learning algorithms, have rarely been applied to data from these areas. Here, we collate a reference call library for bat species that occur in a megadiverse country, Mexico. We use 4685 search-phase calls from 1378 individual sequences of 59 bat species to create automatic species identification tools generated by machine learning algorithms (Random Forest). We evaluate the improvement in species-level classification rates gained by using hierarchical classifications, reflecting either taxonomic or ecological constraints (guilds) on call design, and examine how classification rate accuracy changes at different hierarchical levels (family, genus and guild). Species-level classification of calls had a mean accuracy of 66%, and the use of hierarchies improved mean species-level classification accuracy by up to 6% (species within families 72%, species within genera 71·2% and species within guilds 69·1%). Classification accuracy to family, genus and guild-level was 91·7%, 77·8% and 82·5%, respectively. The bioacoustic identification tools we have developed are accurate for rapid biodiversity assessments in a megadiverse region and can also be used effectively to classify species at broader taxonomic or ecological levels. This flexibility increases their usefulness when there are incomplete species reference recordings and also offers the opportunity to characterise and track changes in bat community structure. Our results show that bat bioacoustic surveys in megadiverse countries have more potential than previously thought to monitor biodiversity changes and can be used to direct further developments of bioacoustic monitoring programs in Mexico.

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More information

Accepted/In Press date: 22 February 2016
e-pub ahead of print date: 14 April 2016
Published date: 13 September 2016
Additional Information: Funding Information: This study was financially supported by CONACYT (No. 310731), Cambridge Commonwealth European and International Trust (No. 301879989), The Rufford Foundation (No. 12059-1), American Society of Mammalogists, Bat Conservation International, Idea Wild and The Whitmore Trust to V.Z.G and Engineering and Physical Sciences Research Council (EPSRC) Grant EP/K015664/1 to K.E.J. and V.S. We are deeply grateful to all the people that provided their help with logistical support in the field, and we also thank Juan Cruzado Cortes, Michael Barataud and David Jacobs for donated material. A collecting permit was granted by SEMARNAT, Mexico (No. 03374). Complete call measurements for each of the 4685 search-phase calls from 1378 individual sequences of 59 bat species used to create the classification tools and R scripts have been uploaded to DataDyrad (http://datadryad.org/resource/doi:10.5061/dryad.760r8).
Keywords: acoustic identification, guild, hierarchical classification, machine learning, Neotropical, random forest, whispering bats
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Identifiers

Local EPrints ID: 487299
URI: http://eprints.soton.ac.uk/id/eprint/487299
DOI: doi:10.1111/2041-210X.12556
ISSN: 2041-210X
PURE UUID: b3d45f50-a53d-4841-ae54-33ded2ebe494
ORCID for Veronica Zamora-Gutierrez: ORCID iD orcid.org/0000-0003-0661-5180

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Date deposited: 16 Feb 2024 17:20
Last modified: 18 Mar 2024 04:18

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Contributors

Author: Veronica Zamora-Gutierrez ORCID iD
Author: Celia Lopez-Gonzalez
Author: M. Cristina MacSwiney Gonzalez
Author: Brock Fenton
Author: Gareth Jones
Author: Elisabeth K.V. Kalko
Author: Sebastien J. Puechmaille
Author: Vassilios Stathopoulos
Author: Kate E. Jones

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