Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones

Advances in mobile autonomous platforms for oceanographic sensing, including gliders and deep-water profiling floats, have provided new opportunities for passive acoustic monitoring (PAM) of cetaceans. However, there are few direct comparisons of these mobile autonomous systems to more traditional m...

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Published in:Frontiers in Marine Science
Main Authors: Fregosi, Selene, Harris, Danielle, Matsumoto, Haruyoshi, Mellinger, David K., Barlow, Jay, Baumann-Pickering, Simone, Klinck, Holger
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Glider
Deep-water float
Mobile autonomous platform
Passive acoustic monitoring
Beaked whales
Minke whales
Delphinids
Catalina
minke whale
Online Access:https://risweb.st-andrews.ac.uk/portal/en/researchoutput/detections-of-whale-vocalizations-by-simultaneously-deployed-bottommoored-and-deepwater-mobile-autonomous-hydrophones(a1a0f742-a5d2-414c-8485-7b5ed24af79b).html
https://doi.org/10.3389/fmars.2020.00721
https://research-repository.st-andrews.ac.uk/bitstream/10023/20654/1/Fregosi_2020_FMS_Detections_CC.pdf
id ftunstandrewcris:oai:risweb.st-andrews.ac.uk:publications/a1a0f742-a5d2-414c-8485-7b5ed24af79b
record_format openpolar
spelling ftunstandrewcris:oai:risweb.st-andrews.ac.uk:publications/a1a0f742-a5d2-414c-8485-7b5ed24af79b 2023-05-15T17:12:51+02:00 Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones Fregosi, Selene Harris, Danielle Matsumoto, Haruyoshi Mellinger, David K. Barlow, Jay Baumann-Pickering, Simone Klinck, Holger 2020-08-31 application/pdf https://risweb.st-andrews.ac.uk/portal/en/researchoutput/detections-of-whale-vocalizations-by-simultaneously-deployed-bottommoored-and-deepwater-mobile-autonomous-hydrophones(a1a0f742-a5d2-414c-8485-7b5ed24af79b).html https://doi.org/10.3389/fmars.2020.00721 https://research-repository.st-andrews.ac.uk/bitstream/10023/20654/1/Fregosi_2020_FMS_Detections_CC.pdf eng eng info:eu-repo/semantics/openAccess Fregosi , S , Harris , D , Matsumoto , H , Mellinger , D K , Barlow , J , Baumann-Pickering , S & Klinck , H 2020 , ' Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones ' , Frontiers in Marine Science , vol. 7 , 721 . https://doi.org/10.3389/fmars.2020.00721 Glider Deep-water float Mobile autonomous platform Passive acoustic monitoring Beaked whales Minke whales Delphinids article 2020 ftunstandrewcris https://doi.org/10.3389/fmars.2020.00721 2021-12-26T14:37:16Z Advances in mobile autonomous platforms for oceanographic sensing, including gliders and deep-water profiling floats, have provided new opportunities for passive acoustic monitoring (PAM) of cetaceans. However, there are few direct comparisons of these mobile autonomous systems to more traditional methods, such as stationary bottom moored recorders. Cross-platform comparisons are necessary to enable interpretation of results across historical and contemporary surveys that use different recorder types, and to identify potential biases introduced by the platform. Understanding tradeoffs across recording platforms informs best practices for future cetacean monitoring efforts. This study directly compares the PAM capabilities of a glider (Seaglider) and a deep-water profiling float (QUEphone) to a stationary seafloor system (High-frequency Acoustic Recording Package, or HARP) deployed simultaneously over a 2 week period in the Catalina Basin, California, United States. Two HARPs were deployed 4 km apart while a glider and deep-water float surveyed within 20 km of the HARPs. Acoustic recordings were analyzed for the presence of multiple cetacean species, including beaked whales, delphinids, and minke whales. Variation in acoustic occurrence at 1-min (beaked whales only), hourly, and daily scales were examined. The number of minutes, hours, and days with beaked whale echolocation clicks were variable across recorders, likely due to differences in the noise floor of each recording system, the spatial distribution of the recorders, and the short detection radius of such a high-frequency, directional signal type. Delphinid whistles and clicks were prevalent across all recorders, and at levels that may have masked beaked whale vocalizations. The number and timing of hours and days with minke whale boing sounds were nearly identical across recorder types, as was expected given the relatively long propagation distance of boings. This comparison provides evidence that gliders and deep-water floats record cetaceans at similar ... Article in Journal/Newspaper minke whale University of St Andrews: Research Portal Catalina ENVELOPE(-59.633,-59.633,-62.333,-62.333) Frontiers in Marine Science 7
institution Open Polar
collection University of St Andrews: Research Portal
op_collection_id ftunstandrewcris
language English
topic Glider
Deep-water float
Mobile autonomous platform
Passive acoustic monitoring
Beaked whales
Minke whales
Delphinids
spellingShingle Glider
Deep-water float
Mobile autonomous platform
Passive acoustic monitoring
Beaked whales
Minke whales
Delphinids
Fregosi, Selene
Harris, Danielle
Matsumoto, Haruyoshi
Mellinger, David K.
Barlow, Jay
Baumann-Pickering, Simone
Klinck, Holger
Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones
topic_facet Glider
Deep-water float
Mobile autonomous platform
Passive acoustic monitoring
Beaked whales
Minke whales
Delphinids
description Advances in mobile autonomous platforms for oceanographic sensing, including gliders and deep-water profiling floats, have provided new opportunities for passive acoustic monitoring (PAM) of cetaceans. However, there are few direct comparisons of these mobile autonomous systems to more traditional methods, such as stationary bottom moored recorders. Cross-platform comparisons are necessary to enable interpretation of results across historical and contemporary surveys that use different recorder types, and to identify potential biases introduced by the platform. Understanding tradeoffs across recording platforms informs best practices for future cetacean monitoring efforts. This study directly compares the PAM capabilities of a glider (Seaglider) and a deep-water profiling float (QUEphone) to a stationary seafloor system (High-frequency Acoustic Recording Package, or HARP) deployed simultaneously over a 2 week period in the Catalina Basin, California, United States. Two HARPs were deployed 4 km apart while a glider and deep-water float surveyed within 20 km of the HARPs. Acoustic recordings were analyzed for the presence of multiple cetacean species, including beaked whales, delphinids, and minke whales. Variation in acoustic occurrence at 1-min (beaked whales only), hourly, and daily scales were examined. The number of minutes, hours, and days with beaked whale echolocation clicks were variable across recorders, likely due to differences in the noise floor of each recording system, the spatial distribution of the recorders, and the short detection radius of such a high-frequency, directional signal type. Delphinid whistles and clicks were prevalent across all recorders, and at levels that may have masked beaked whale vocalizations. The number and timing of hours and days with minke whale boing sounds were nearly identical across recorder types, as was expected given the relatively long propagation distance of boings. This comparison provides evidence that gliders and deep-water floats record cetaceans at similar ...
format Article in Journal/Newspaper
author Fregosi, Selene
Harris, Danielle
Matsumoto, Haruyoshi
Mellinger, David K.
Barlow, Jay
Baumann-Pickering, Simone
Klinck, Holger
author_facet Fregosi, Selene
Harris, Danielle
Matsumoto, Haruyoshi
Mellinger, David K.
Barlow, Jay
Baumann-Pickering, Simone
Klinck, Holger
author_sort Fregosi, Selene
title Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones
title_short Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones
title_full Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones
title_fullStr Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones
title_full_unstemmed Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones
title_sort detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones
publishDate 2020
url https://risweb.st-andrews.ac.uk/portal/en/researchoutput/detections-of-whale-vocalizations-by-simultaneously-deployed-bottommoored-and-deepwater-mobile-autonomous-hydrophones(a1a0f742-a5d2-414c-8485-7b5ed24af79b).html
https://doi.org/10.3389/fmars.2020.00721
https://research-repository.st-andrews.ac.uk/bitstream/10023/20654/1/Fregosi_2020_FMS_Detections_CC.pdf
long_lat ENVELOPE(-59.633,-59.633,-62.333,-62.333)
geographic Catalina
geographic_facet Catalina
genre minke whale
genre_facet minke whale
op_source Fregosi , S , Harris , D , Matsumoto , H , Mellinger , D K , Barlow , J , Baumann-Pickering , S & Klinck , H 2020 , ' Detections of whale vocalizations by simultaneously deployed bottom-moored and deep-water mobile autonomous hydrophones ' , Frontiers in Marine Science , vol. 7 , 721 . https://doi.org/10.3389/fmars.2020.00721
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.3389/fmars.2020.00721
container_title Frontiers in Marine Science
container_volume 7
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