A pilot study on surgical implantation and efficacy of acoustic transmitters in fifteen loggerhead sea turtles (Caretta caretta), 2021–2022

IF 2.4 3区 环境科学与生态学 Q2 BIODIVERSITY CONSERVATION
Charles J. Innis, Adam Kennedy, Jeff Kneebone, Sarah Perez, Linda Lory, Sarah DiCarlo, Alessia Brugnara, Kristen Luise, Deana Edmunds, Christine Sinnigen, Mary Beth Tims, Nina Nahvi, Emily Jones, Melissa Joblon, Kathryn Tuxbury, Elizabeth Burgess, Vickie Zhou, Nina Fischer, Kara L. Dodge
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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.
声学发射器在15只红海龟手术植入和疗效的初步研究(Caretta Caretta), 2021-2022
在生态、保护和兽医研究中,随着时间的推移检测自由放养海龟的位置是可取的,但现有的检测方法灵敏度或寿命有限。外部连接的声波发射器有变化,有时对海龟来说停留时间很短。对于一些脊椎动物类群,手术植入的声波发射器已被证明是安全有效的长期检测;然而,植入式传输器尚未用于海龟。结果在这项初步研究中,我们将INNOVASEA声波发射器手术植入15只因冷休克而搁浅的住院红海龟(Caretta Caretta)的股前区。V16-4H型发射机(估计电池寿命= 2435天)植入≥50 cm直甲壳长(SCL)的龟体内,V13-1H型发射机(估计电池寿命= 1113天)植入30-49 cm直甲壳长(SCL)的龟体内。出院前几个月监测切口愈合情况。术后平均55天,12只海龟切口愈合,无并发症(中位数47,范围41-100)。三只海龟出现了切口并发症,其中两只在第二次手术后愈合,而第三只需要移除发射器以促进愈合。14个植入的发射器中有一个在释放前被证实功能失调,尽管在植入前它是功能正常的。迄今为止,在马萨诸塞州、罗德岛州、纽约州、弗吉尼亚州、北卡罗来纳州和新英格兰南部近海水域,40个独立的声波接收器共检测到915次,100%的海龟被带着功能声波发射器(n = 13)释放。在释放后3-400天(平均118天,中位数87天),装有发射器的海龟在1-13个单独的声学接收器(平均5个,中位数5个)上产生5 - 235次探测(平均70次,中位数43次)。由于预期发射机电池寿命的延长,这些个体的总检测次数和检测时间预计会随着时间的推移而增加。结论手术植入声发射机对自由放养海龟的检测是有效的,但根据观察到的并发症,需要改进手术方法。在评估野生动物的新手术技术时,监测愈合是至关重要的。
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来源期刊
Animal Biotelemetry
Animal Biotelemetry Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
4.20
自引率
11.10%
发文量
33
审稿时长
10 weeks
期刊介绍: Animal Biotelemetry is an open access peer-reviewed journal that publishes the results of studies utilizing telemetric techniques (including biologgers) to understand physiological, behavioural, and ecological mechanisms in a broad range of environments (e.g. terrestrial, freshwater and marine) and taxa. The journal also welcomes descriptions and validations of newly developed tagging techniques and tracking technologies, as well as methods for analyzing telemetric data.
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