Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales

Paro, A. D.; Anzolin, D.; Paitach, R.; Moraes, A. K.; Cremer, M.; Coutinho, Ricardo; Biofouling, Benthic Ecology and Marine Biotechnology Meeting, 013., 2019, Arraial do Cabo (RJ)

Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales

Detalhes bibliográficos
Autor(a) principal:	Paro, A. D.
Data de Publicação:	2019
Outros Autores:	Anzolin, D., Paitach, R., Moraes, A. K., Cremer, M., Coutinho, Ricardo, Biofouling, Benthic Ecology and Marine Biotechnology Meeting, 013., 2019, Arraial do Cabo (RJ)
Tipo de documento:	Artigo
Idioma:	eng
Título da fonte:	Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB)
Texto Completo:	http://www.repositorio.mar.mil.br/handle/ripcmb/844540
Resumo:	Passive Acoustic Monitoring (PAM) is a tool for solving ecological and biological questions since many organisms produce sounds. A challenge to enhance PAM studies is the ability to detect and recognized sound sources. Toothed whales produce echolocation clicks routinely while foraging, traveling and socializing. Four different families of odontoceti produce a type of click known as Narrow Band High Frequency or NBHF. Here we present a study that assesses the potential for acoustic identification between odontoceti groups that produces NBHF clicks. We compared the NBHF clicks collected in the presence of Fransciscana dolphin (Pontoporia blainvillei) in Babitonga Bay, southern Brazil, with acoustic detections of NBHF clicks collected in a series of surveys (PMC-BS surveys) in shallow and deep waters of the South Brazil Bight, using a towed array of hydrophones. Clicks from original records were extract using the PAMGUARD click detector (test band of 120-140 kHz). A total of 2.000 clicks were extracted from Babitonga Bay (3 days of records) and 1.427 clicks from 11 NBHF click acoustic encounters (recorded in oceanic waters > 1.000m depth along 4 years of PMC-BS surveys). Two other brief acoustic detections from PMC-BS surveys, totalizing 25 NBHF clicks, were record in coastal waters of 20m depth. We compared the spectral characteristics (extracted from 10 parameters using PAMGUARD/ROCCA algorithm) of the NBHF clicks from Fransciscana and PMC oceanic and coastal data using Discriminant Function Analyses (DFA). Fransciscana dolphin had a higher peak and center frequency (133,4kHz and 133,2kHz, respectively) than oceanic NBHF clicks (126,8kHz and 127,2kHz). The DFA had a high percentage of correct classification for oceanic NBHF clicks (99.3%) and Fransciscana (97.8%). The NBHF click producer species known to live in oceanic waters are the dwarf sperm whale and pygmy sperm whale (Kogia ssp.) and they are the most probably source of the clicks presented here. The coastal NBHF clicks had a very limited data for a conclusion, but peak frequency were similar to the data collected in Babitonga Bay (134,6kHz). It was observed a tendency for higher peak frequency for coastal species (Fransciscana) compared to oceanic species (presumed Kogia ssp.). These species detected here are difficult to sight at sea due to their elusive behavior. These results can contribute to the development of tools for acoustic detection and classification in PAM systems.

Metadados do item

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spelling	Paro, A. D.Anzolin, D.Paitach, R.Moraes, A. K.Cremer, M.Coutinho, RicardoBiofouling, Benthic Ecology and Marine Biotechnology Meeting, 013., 2019, Arraial do Cabo (RJ)2020-03-28T17:26:40Z2020-03-28T17:26:40Z2019http://www.repositorio.mar.mil.br/handle/ripcmb/844540Passive Acoustic Monitoring (PAM) is a tool for solving ecological and biological questions since many organisms produce sounds. A challenge to enhance PAM studies is the ability to detect and recognized sound sources. Toothed whales produce echolocation clicks routinely while foraging, traveling and socializing. Four different families of odontoceti produce a type of click known as Narrow Band High Frequency or NBHF. Here we present a study that assesses the potential for acoustic identification between odontoceti groups that produces NBHF clicks. We compared the NBHF clicks collected in the presence of Fransciscana dolphin (Pontoporia blainvillei) in Babitonga Bay, southern Brazil, with acoustic detections of NBHF clicks collected in a series of surveys (PMC-BS surveys) in shallow and deep waters of the South Brazil Bight, using a towed array of hydrophones. Clicks from original records were extract using the PAMGUARD click detector (test band of 120-140 kHz). A total of 2.000 clicks were extracted from Babitonga Bay (3 days of records) and 1.427 clicks from 11 NBHF click acoustic encounters (recorded in oceanic waters > 1.000m depth along 4 years of PMC-BS surveys). Two other brief acoustic detections from PMC-BS surveys, totalizing 25 NBHF clicks, were record in coastal waters of 20m depth. We compared the spectral characteristics (extracted from 10 parameters using PAMGUARD/ROCCA algorithm) of the NBHF clicks from Fransciscana and PMC oceanic and coastal data using Discriminant Function Analyses (DFA). Fransciscana dolphin had a higher peak and center frequency (133,4kHz and 133,2kHz, respectively) than oceanic NBHF clicks (126,8kHz and 127,2kHz). The DFA had a high percentage of correct classification for oceanic NBHF clicks (99.3%) and Fransciscana (97.8%). The NBHF click producer species known to live in oceanic waters are the dwarf sperm whale and pygmy sperm whale (Kogia ssp.) and they are the most probably source of the clicks presented here. The coastal NBHF clicks had a very limited data for a conclusion, but peak frequency were similar to the data collected in Babitonga Bay (134,6kHz). It was observed a tendency for higher peak frequency for coastal species (Fransciscana) compared to oceanic species (presumed Kogia ssp.). These species detected here are difficult to sight at sea due to their elusive behavior. These results can contribute to the development of tools for acoustic detection and classification in PAM systems.engInstituto de Estudos do Mar Almirante Paulo Moreira (IEAPM)Ciência, Tecnologia e InovaçãoMamífero MarinhoGolfinhosNarrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whalesinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleBrasilinfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB)instname:Marinha do Brasil (MB)instacron:MBTEXTCoutinho, Ricardo_BIOINC2019_Narrow band high frequency....pdf.txtCoutinho, Ricardo_BIOINC2019_Narrow band high frequency....pdf.txtExtracted texttext/plain2https://www.repositorio.mar.mil.br/bitstream/ripcmb/844540/2/Coutinho%2c%20Ricardo_BIOINC2019_Narrow%20band%20high%20frequency....pdf.txtd784fa8b6d98d27699781bd9a7cf19f0MD52THUMBNAILCoutinho, Ricardo_BIOINC2019_Narrow band high frequency....pdf.jpgCoutinho, Ricardo_BIOINC2019_Narrow band high frequency....pdf.jpgGenerated Thumbnailimage/jpeg1848https://www.repositorio.mar.mil.br/bitstream/ripcmb/844540/3/Coutinho%2c%20Ricardo_BIOINC2019_Narrow%20band%20high%20frequency....pdf.jpga8e1e57a4b0b9ef8ce3b8561214de287MD53ORIGINALCoutinho, Ricardo_BIOINC2019_Narrow band high frequency....pdfCoutinho, Ricardo_BIOINC2019_Narrow band high frequency....pdfapplication/pdf777246https://www.repositorio.mar.mil.br/bitstream/ripcmb/844540/1/Coutinho%2c%20Ricardo_BIOINC2019_Narrow%20band%20high%20frequency....pdf49534454ef539166ddbc2d3cefbbe870MD51ripcmb/8445402022-09-23 16:50:25.752oai:www.repositorio.mar.mil.br:ripcmb/844540Repositório InstitucionalPUBhttps://www.repositorio.mar.mil.br/oai/requestdphdm.repositorio@marinha.mil.bropendoar:2022-09-23T19:50:25Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB) - Marinha do Brasil (MB)false
dc.title.pt_BR.fl_str_mv	Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales
title	Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales
spellingShingle	Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales Paro, A. D. Mamífero Marinho Golfinhos Ciência, Tecnologia e Inovação
title_short	Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales
title_full	Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales
title_fullStr	Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales
title_full_unstemmed	Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales
title_sort	Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales
author	Paro, A. D.
author_facet	Paro, A. D. Anzolin, D. Paitach, R. Moraes, A. K. Cremer, M. Coutinho, Ricardo Biofouling, Benthic Ecology and Marine Biotechnology Meeting, 013., 2019, Arraial do Cabo (RJ)
author_role	author
author2	Anzolin, D. Paitach, R. Moraes, A. K. Cremer, M. Coutinho, Ricardo Biofouling, Benthic Ecology and Marine Biotechnology Meeting, 013., 2019, Arraial do Cabo (RJ)
author2_role	author author author author author author
dc.contributor.author.fl_str_mv	Paro, A. D. Anzolin, D. Paitach, R. Moraes, A. K. Cremer, M. Coutinho, Ricardo Biofouling, Benthic Ecology and Marine Biotechnology Meeting, 013., 2019, Arraial do Cabo (RJ)
dc.subject.por.fl_str_mv	Mamífero Marinho Golfinhos
topic	Mamífero Marinho Golfinhos Ciência, Tecnologia e Inovação
dc.subject.dgpm.none.fl_str_mv	Ciência, Tecnologia e Inovação
description	Passive Acoustic Monitoring (PAM) is a tool for solving ecological and biological questions since many organisms produce sounds. A challenge to enhance PAM studies is the ability to detect and recognized sound sources. Toothed whales produce echolocation clicks routinely while foraging, traveling and socializing. Four different families of odontoceti produce a type of click known as Narrow Band High Frequency or NBHF. Here we present a study that assesses the potential for acoustic identification between odontoceti groups that produces NBHF clicks. We compared the NBHF clicks collected in the presence of Fransciscana dolphin (Pontoporia blainvillei) in Babitonga Bay, southern Brazil, with acoustic detections of NBHF clicks collected in a series of surveys (PMC-BS surveys) in shallow and deep waters of the South Brazil Bight, using a towed array of hydrophones. Clicks from original records were extract using the PAMGUARD click detector (test band of 120-140 kHz). A total of 2.000 clicks were extracted from Babitonga Bay (3 days of records) and 1.427 clicks from 11 NBHF click acoustic encounters (recorded in oceanic waters > 1.000m depth along 4 years of PMC-BS surveys). Two other brief acoustic detections from PMC-BS surveys, totalizing 25 NBHF clicks, were record in coastal waters of 20m depth. We compared the spectral characteristics (extracted from 10 parameters using PAMGUARD/ROCCA algorithm) of the NBHF clicks from Fransciscana and PMC oceanic and coastal data using Discriminant Function Analyses (DFA). Fransciscana dolphin had a higher peak and center frequency (133,4kHz and 133,2kHz, respectively) than oceanic NBHF clicks (126,8kHz and 127,2kHz). The DFA had a high percentage of correct classification for oceanic NBHF clicks (99.3%) and Fransciscana (97.8%). The NBHF click producer species known to live in oceanic waters are the dwarf sperm whale and pygmy sperm whale (Kogia ssp.) and they are the most probably source of the clicks presented here. The coastal NBHF clicks had a very limited data for a conclusion, but peak frequency were similar to the data collected in Babitonga Bay (134,6kHz). It was observed a tendency for higher peak frequency for coastal species (Fransciscana) compared to oceanic species (presumed Kogia ssp.). These species detected here are difficult to sight at sea due to their elusive behavior. These results can contribute to the development of tools for acoustic detection and classification in PAM systems.
publishDate	2019
dc.date.issued.fl_str_mv	2019
dc.date.accessioned.fl_str_mv	2020-03-28T17:26:40Z
dc.date.available.fl_str_mv	2020-03-28T17:26:40Z
dc.type.status.fl_str_mv	info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv	info:eu-repo/semantics/article
format	article
status_str	publishedVersion
dc.identifier.uri.fl_str_mv	http://www.repositorio.mar.mil.br/handle/ripcmb/844540
url	http://www.repositorio.mar.mil.br/handle/ripcmb/844540
dc.language.iso.fl_str_mv	eng
language	eng
dc.rights.driver.fl_str_mv	info:eu-repo/semantics/openAccess
eu_rights_str_mv	openAccess
dc.publisher.none.fl_str_mv	Instituto de Estudos do Mar Almirante Paulo Moreira (IEAPM)
publisher.none.fl_str_mv	Instituto de Estudos do Mar Almirante Paulo Moreira (IEAPM)
dc.source.none.fl_str_mv	reponame:Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB) instname:Marinha do Brasil (MB) instacron:MB
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Narrow band high frequency echolocation clocks of Franciscana dolphins are different from clicks presumed to be from dwarf and pigmy sperm whales

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