Point of No Return: Determining Depth at Which Sea Turtle Carcasses Experience Constant Submergence

IF 0.9 4区 生物学 Q3 ZOOLOGY
Emma A. Schultz, Melissa Cook, Redwood W. Nero, Ryan J. Caillouet, Jaymie L. Reneker, James E. Barbour, Zhankun Wang, Brian A. Stacy
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引用次数: 1

Abstract

At-sea mortality information is important for understanding the magnitude of threats to protected sea turtle species. When a sea turtle dies, it typically sinks, starts decomposing, and will eventually float to the surface if the carcass remains intact and enough internal gases accumulate. However, few data are available regarding the rate and duration of these processes to allow estimation of time since death once carcasses are recovered. Twenty-seven Kemp's ridley (Lepidochelys kempii) and 15 green (Chelonia mydas) sea turtle cold-stunned carcasses were placed in wire mesh, weighted cages at varying water depths (10–40 m) and temperatures (18.5°C–28.7°C) in the northern Gulf of Mexico from June 2018 to October 2019. Cameras and temperature-depth-orientation recorders were used to document decomposition progression and carcass buoyancy. Decomposition rate was measured using corrected accumulated degree hours and values of observed time-to-float were compared with predictions based on laboratory and field experiments in previous research. Overall, carcasses did not float when deployed in waters > 30 m when temperatures were < 22°C and carcasses tended to float sooner in ≤ 20 m depths, especially if bottom temperatures were > 24°C. Green sea turtle carcasses floated in a variety of environmental conditions, but onset of positive buoyancy was not very predictable. Buoyancy of Kemp's ridley sea turtle carcasses was inconsistent, but float times were fairly predictable. We did not identify the exact depth at which sea turtle carcasses cannot generate enough gases to float, but that depth is likely very close to 40 m. Carcasses that became buoyant in ≥ 30 m depths tended to float for < 24 hrs before sinking again and, therefore, it is unlikely that they have enough time to drift to shore. This information enhances our understanding of the likelihood of carcasses washing ashore and can be incorporated into carcass backtracking analyses to facilitate identification of mortality causes.

不归之点:确定海龟尸体不断被淹没的深度
海洋死亡率信息对于了解受保护的海龟物种面临的威胁程度非常重要。当海龟死亡时,它通常会下沉,开始分解,如果尸体保持完整并且内部气体积聚足够多,最终会浮到水面上。然而,关于这些过程的速度和持续时间的数据很少,无法估计尸体被发现后的死亡时间。2018年6月至2019年10月,在墨西哥湾北部,将27只肯普雷氏海龟(Lepidochelys kempii)和15只绿海龟(Chelonia mydas)冷昏迷的尸体放置在不同水深(10-40米)和温度(18.5°C - 28.7°C)的金属网加权笼中。摄像机和温度-深度定向记录仪记录了分解过程和尸体浮力。利用校正后的累积度小时测量分解率,并将观测到的漂浮时间值与先前研究中基于实验室和现场试验的预测值进行比较。总的来说,尸体在水中部署时不会漂浮。30米时,温度为<22°C,在≤20 m的深度,尸体往往漂浮得更快,特别是当底部温度为>24°C。绿海龟的尸体漂浮在各种环境条件下,但正浮力的开始是不可预测的。肯普的雷德利海龟尸体的浮力是不一致的,但漂浮的时间是相当可预测的。我们没有确定海龟尸体不能产生足够气体漂浮的确切深度,但这个深度可能非常接近40米。浮力≥30 m深度的尸体倾向于漂浮<离再次沉没还有24小时,因此,他们不太可能有足够的时间漂到岸边。这些信息增强了我们对尸体被冲上岸可能性的理解,并可纳入尸体回溯分析,以促进确定死亡原因。
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来源期刊
CiteScore
1.70
自引率
14.30%
发文量
17
审稿时长
>12 weeks
期刊介绍: Chelonian Conservation and Biology is a biannual peer-reviewed journal of cosmopolitan and broad-based coverage of all aspects of conservation and biology of all chelonians, including freshwater turtles, marine turtles, and tortoises. Manuscripts may cover any aspects of turtle and tortoise research, with a preference for conservation or biology. Manuscripts dealing with conservation biology, systematic relationships, chelonian diversity, geographic distribution, natural history, ecology, reproduction, morphology and natural variation, population status, husbandry, community conservation initiatives, and human exploitation or conservation management issues are of special interest.
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