A pilot study on surgical implantation and efficacy of acoustic transmitters in fifteen loggerhead sea turtles (Caretta caretta), 2021–2022
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Published:2023-11-08
Issue:1
Volume:11
Page:
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ISSN:2050-3385
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Container-title:Animal Biotelemetry
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language:en
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Short-container-title:Anim Biotelemetry
Author:
Innis Charles J.,Kennedy Adam,Kneebone Jeff,Perez Sarah,Lory Linda,DiCarlo Sarah,Brugnara Alessia,Luise Kristen,Edmunds Deana,Sinnigen Christine,Tims Mary Beth,Nahvi Nina,Jones Emily,Joblon Melissa,Tuxbury Kathryn,Burgess Elizabeth,Zhou Vickie,Fischer Nina,Dodge Kara L.
Abstract
Abstract
Background
The ability to detect the location of free-ranging sea turtles over time is desirable for ecological, conservation, and veterinary studies, but existing detection methods have limited sensitivity or longevity. Externally attached acoustic transmitters have variable, and sometimes short retention times for sea turtles. For several vertebrate taxa, surgically implanted acoustic transmitters have proven to be safe and effective for long-term detection; however, implanted transmitters have not yet been used for turtles.
Results
In this pilot study, INNOVASEA acoustic transmitters were surgically implanted subcutaneously in the pre-femoral region of fifteen hospitalized loggerhead sea turtles (Caretta caretta) that had been rehabilitated after stranding due to cold-stunning. Model V16-4H transmitters (estimated battery longevity = 2435 days) were implanted in turtles measuring ≥ 50 cm straight carapace length (SCL), and model V13-1H transmitters (estimated battery longevity = 1113 days) were implanted in turtles measuring 30–49 cm SCL. Incision healing was monitored over several months prior to release. Twelve turtles’ incisions healed without complication, on average, 55 days after surgery (median 47, range 41–100). Three turtles experienced incision complications, two of which healed after a second surgery, while the third required transmitter removal to promote healing. One of the fourteen implanted transmitters was confirmed to be dysfunctional prior to release, although it had been functional prior to implantation. To date, 100% of turtles released with functional acoustic transmitters (n = 13) have been detected a total of 915 times by 40 individual acoustic receivers off the coasts of Massachusetts, Rhode Island, New York, Virginia, North Carolina, and in southern New England offshore waters. Turtles with transmitters generated 5–235 detections (mean 70, median 43) on 1–13 individual acoustic receivers (mean 5, median 5) for periods of 3–400 days post-release (mean 118, median 87). Total detections and detection durations for these individuals are expected to increase over time due to anticipated transmitter battery longevity.
Conclusions
This study demonstrates that surgically implanted acoustic transmitters are effective for the detection of free ranging sea turtles, but refinement of surgical methodology is needed in light of the observed complications. Monitoring of healing is critical when evaluating novel surgical techniques in wildlife.
Funder
partial funding from the Arthur L. and Elaine V. Johnson Foundation
Publisher
Springer Science and Business Media LLC
Subject
Computer Networks and Communications,Instrumentation,Animal Science and Zoology,Signal Processing
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