Table S1, S2, Figure S1, S2 from Towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained Risso's dolphins

Heart rate monitoring in free-ranging cetaceans to understand their behavioural ecology and diving physiology is challenging. Here, we developed a simple, non-invasive method to monitor the heart rate of cetaceans in the field using an electrocardiogram-measuring device and a single suction cup equi...

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Main Authors: Kagari Aoki (9994507), Yurie Watanabe (559385), Daiki Inamori (10822984), Noriko Funasaka (10909880), Kentaro Q. Sakamoto (10822811)
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2021
Subjects:
Physiology
Animal Behaviour
biologging
marine mammal
cetaceans
electrocardiogram
diving physiology
heart rate
Killer Whale
Online Access:https://doi.org/10.6084/m9.figshare.14617537
id ftsmithonian:oai:figshare.com:article/14617537
record_format openpolar
spelling ftsmithonian:oai:figshare.com:article/14617537 2023-05-15T17:03:32+02:00 Table S1, S2, Figure S1, S2 from Towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained Risso's dolphins Kagari Aoki (9994507) Yurie Watanabe (559385) Daiki Inamori (10822984) Noriko Funasaka (10909880) Kentaro Q. Sakamoto (10822811) 2021-05-19T10:55:32Z https://doi.org/10.6084/m9.figshare.14617537 unknown https://figshare.com/articles/journal_contribution/Table_S1_S2_Figure_S1_S2_from_Towards_non-invasive_heart_rate_monitoring_in_free-ranging_cetaceans_a_unipolar_suction_cup_tag_measured_the_heart_rate_of_trained_Risso_s_dolphins/14617537 doi:10.6084/m9.figshare.14617537 CC BY 4.0 CC-BY Physiology Animal Behaviour biologging marine mammal cetaceans electrocardiogram diving physiology heart rate Text Journal contribution 2021 ftsmithonian https://doi.org/10.6084/m9.figshare.14617537 2021-06-13T15:10:49Z Heart rate monitoring in free-ranging cetaceans to understand their behavioural ecology and diving physiology is challenging. Here, we developed a simple, non-invasive method to monitor the heart rate of cetaceans in the field using an electrocardiogram-measuring device and a single suction cup equipped with an electrode. The unipolar suction cup was placed on the left lateral body surface behind the pectoral fin of Risso's dolphins and a false killer whale ( Pseudorca crassidens ) in captivity; their heart rate was successfully monitored. We observed large heart rate oscillations corresponding to respiration in the motionless whales during surfacing (a false killer whale, mean 47 bpm, range 20–75 bpm; Risso's dolphins, mean ± s.d., 61 ± 15 bpm, range 28–120 bpm, n = 4 individuals), which was consistent with the sinus arrhythmia pattern (eupneic tachycardia and apneic bradycardia) observed in other cetaceans. Immediately after respiration, the heart rate rapidly increased to approximately twice that observed prior to the breath. Heart rate then gradually decreased at around 20–50 s and remained relatively constant until the next breath. Furthermore, we successfully monitored the heart rate of a free-swimming Risso's dolphin. The all-in-one suction cup device is feasible for field use without restraining animals and is helpful in further understanding the diving physiology of free-ranging cetaceans.This article is part of the theme issue ‘Measuring physiology in free living animals (Part II)’. Other Non-Article Part of Journal/Newspaper Killer Whale Unknown
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Physiology
Animal Behaviour
biologging
marine mammal
cetaceans
electrocardiogram
diving physiology
heart rate
spellingShingle Physiology
Animal Behaviour
biologging
marine mammal
cetaceans
electrocardiogram
diving physiology
heart rate
Kagari Aoki (9994507)
Yurie Watanabe (559385)
Daiki Inamori (10822984)
Noriko Funasaka (10909880)
Kentaro Q. Sakamoto (10822811)
Table S1, S2, Figure S1, S2 from Towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained Risso's dolphins
topic_facet Physiology
Animal Behaviour
biologging
marine mammal
cetaceans
electrocardiogram
diving physiology
heart rate
description Heart rate monitoring in free-ranging cetaceans to understand their behavioural ecology and diving physiology is challenging. Here, we developed a simple, non-invasive method to monitor the heart rate of cetaceans in the field using an electrocardiogram-measuring device and a single suction cup equipped with an electrode. The unipolar suction cup was placed on the left lateral body surface behind the pectoral fin of Risso's dolphins and a false killer whale ( Pseudorca crassidens ) in captivity; their heart rate was successfully monitored. We observed large heart rate oscillations corresponding to respiration in the motionless whales during surfacing (a false killer whale, mean 47 bpm, range 20–75 bpm; Risso's dolphins, mean ± s.d., 61 ± 15 bpm, range 28–120 bpm, n = 4 individuals), which was consistent with the sinus arrhythmia pattern (eupneic tachycardia and apneic bradycardia) observed in other cetaceans. Immediately after respiration, the heart rate rapidly increased to approximately twice that observed prior to the breath. Heart rate then gradually decreased at around 20–50 s and remained relatively constant until the next breath. Furthermore, we successfully monitored the heart rate of a free-swimming Risso's dolphin. The all-in-one suction cup device is feasible for field use without restraining animals and is helpful in further understanding the diving physiology of free-ranging cetaceans.This article is part of the theme issue ‘Measuring physiology in free living animals (Part II)’.
format Other Non-Article Part of Journal/Newspaper
author Kagari Aoki (9994507)
Yurie Watanabe (559385)
Daiki Inamori (10822984)
Noriko Funasaka (10909880)
Kentaro Q. Sakamoto (10822811)
author_facet Kagari Aoki (9994507)
Yurie Watanabe (559385)
Daiki Inamori (10822984)
Noriko Funasaka (10909880)
Kentaro Q. Sakamoto (10822811)
author_sort Kagari Aoki (9994507)
title Table S1, S2, Figure S1, S2 from Towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained Risso's dolphins
title_short Table S1, S2, Figure S1, S2 from Towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained Risso's dolphins
title_full Table S1, S2, Figure S1, S2 from Towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained Risso's dolphins
title_fullStr Table S1, S2, Figure S1, S2 from Towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained Risso's dolphins
title_full_unstemmed Table S1, S2, Figure S1, S2 from Towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained Risso's dolphins
title_sort table s1, s2, figure s1, s2 from towards non-invasive heart rate monitoring in free-ranging cetaceans: a unipolar suction cup tag measured the heart rate of trained risso's dolphins
publishDate 2021
url https://doi.org/10.6084/m9.figshare.14617537
genre Killer Whale
genre_facet Killer Whale
op_relation https://figshare.com/articles/journal_contribution/Table_S1_S2_Figure_S1_S2_from_Towards_non-invasive_heart_rate_monitoring_in_free-ranging_cetaceans_a_unipolar_suction_cup_tag_measured_the_heart_rate_of_trained_Risso_s_dolphins/14617537
doi:10.6084/m9.figshare.14617537
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.6084/m9.figshare.14617537
_version_ 1766057423553953792

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