A non-invasive system to measure heart rate in hard-shelled sea turtles: potential for field applications

A non-invasive system to measure heart rate in hard-shelled sea turtles: potential for field applications

To measure the heart rate of unrestrained sea turtles, it has been believed that a probe must be inserted inside the body owing to the presence of the shell. However, inserting the probe is invasive and difficult to apply to animals in the field. Here, we have developed a non-invasive heart rate mea...

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Bibliographic Details
Published in:Philosophical transactions of the Royal Society of London. Series B. Biological sciences Vol. 376; no. 1830; p. 20200222
Main Authors: Sakamoto, Kentaro Q, Miyayama, Masaru, Kinoshita, Chihiro, Fukuoka, Takuya, Ishihara, Takashi, Sato, Katsufumi
Format: Journal Article
Language:English
Published: England The Royal Society 02-08-2021
Subjects:
Animal Shells
Animals
Aquatic Organisms - physiology
Heart Rate - physiology
Physiology - instrumentation
Seawater
Turtles - physiology
non-invasive measurement
electrocardiogram
heart rate
sea turtle
biologging
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Summary:To measure the heart rate of unrestrained sea turtles, it has been believed that a probe must be inserted inside the body owing to the presence of the shell. However, inserting the probe is invasive and difficult to apply to animals in the field. Here, we have developed a non-invasive heart rate measurement method for some species of sea turtles. In our approach, an electrocardiogram (ECG) was performed using an animal-borne ECG recorder and two electrodes-which were electrically insulated from seawater-pasted on the carapace. Based on the measured ECG, the heartbeat signals were identified with an algorithm using a band-pass filter. We implemented this algorithm in a user-friendly program package, ECGtoHR. In experiments conducted in a water tank and in a lagoon, we successfully measured the heart rate of loggerhead, olive ridley and black turtles, but not green and hawksbill turtles. The average heart rate of turtles when resting underwater was 6.2 ± 1.9 beats min and that when moving at the surface was 14.0 ± 2.4 beats min . Our approach is particularly suitable for endangered species such as sea turtles, and has the potential to be extended to a variety of other free-ranging species. This article is part of the theme issue 'Measuring physiology in free-living animals (Part I)'.
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Electronic supplementary material is available online at https://doi.org/10.6084/m9.figshare.c.5429381.
One contribution of 10 to a theme issue ‘Measuring physiology in free-living animals (Part I)’.
ISSN:0962-8436
1471-2970
DOI:10.1098/rstb.2020.0222