Effects of tag mass on the physiology and behaviour of common noctule bats.

IF 3.4 1区 生物学 Q2 ECOLOGY
Marit Kelling, Shannon E Currie, Sara A Troxell, Christine Reusch, Manuel Roeleke, Uwe Hoffmeister, Tobias Teige, Christian C Voigt
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Abstract

Background: External tags, such as transmitters and loggers, are often used to study bat movements. However, physiological and behavioural effects on bats carrying tags have rarely been investigated, and recommendations on the maximum acceptable tag mass are rather based on rules of thumb than on rigorous scientific assessment.

Methods: We conducted a comprehensive three-step assessment of the potential physiological and behavioural effects of tagging bats, using common noctules Nyctalus noctula as a model. First, we examined seasonal changes in body mass. Second, we predicted and then measured potential changes in flight metabolic rate in a wind tunnel. Third, we conducted a meta-analysis of published data to assess effects of different tag masses on the weight and behaviour of bats.

Results: Individual body mass of common noctules varied seasonally by 7.0 ± 2.6 g (range: 0.5-11.5 g). Aerodynamic theory predicted a 26% increase in flight metabolic rate for a common noctule equipped with a 3.8 g tag, equating to 14% of body mass. In a wind tunnel experiment, we could not confirm the predicted increase for tagged bats. Our meta-analysis revealed a weak correlation between tag mass and emergence time and flight duration in wild bats. Interestingly, relative tag mass (3-19% of bat body mass) was not related to body mass loss, but bats lost more body mass the longer tags were attached. Notably, relatively heavy bats lost more mass than conspecifics with a more average body mass index.

Conclusion: Because heavy tags (> 3 g) were generally used for shorter periods of time than lighter tags (~ 1 g), the long-term effects of heavy tags on bats cannot be assessed at this time. Furthermore, the effects of disturbance and resource distribution in the landscape cannot be separated from those of tagging. We recommend that tags weighing 5-10% of a bat's mass should only be applied for a few days. For longer studies, tags weighing less than 5% of a bat's body mass should be used. To avoid adverse effects on bats, researchers should target individuals with average, rather than peak, body mass indices.

标签质量对普通夜蝙蝠生理和行为的影响。
背景:外部标签,如发射器和记录器,经常被用来研究蝙蝠的活动。然而,对携带标签的蝙蝠的生理和行为影响很少进行调查,关于可接受的最大标签质量的建议更多是基于经验法则,而不是严格的科学评估:方法:我们以普通夜叉蝠为模型,分三步对标记蝙蝠可能造成的生理和行为影响进行了全面评估。首先,我们研究了体质量的季节性变化。其次,我们在风洞中预测并测量了飞行代谢率的潜在变化。第三,我们对已发表的数据进行了荟萃分析,以评估不同标签质量对蝙蝠体重和行为的影响:结果:普通夜蝙蝠的个体体重随季节变化为 7.0 ± 2.6 克(范围:0.5-11.5 克)。根据空气动力学理论预测,装有 3.8 克标签的普通夜蝙蝠的飞行代谢率会增加 26%,相当于体重的 14%。在风洞实验中,我们无法证实标签蝙蝠的预测增长率。我们的荟萃分析表明,野生蝙蝠的标签质量与出现时间和飞行时间之间的相关性很弱。有趣的是,相对标签质量(占蝙蝠体重的 3-19%)与体重损失无关,但蝙蝠的体重损失越大,标签附着的时间越长。值得注意的是,体重相对较重的蝙蝠比体重指数较平均的同种蝙蝠体重损失更多:由于重型标签(> 3 克)的使用时间通常比轻型标签(~ 1 克)短,因此目前还无法评估重型标签对蝙蝠的长期影响。此外,景观中干扰和资源分布的影响也无法与标签的影响区分开来。我们建议,重量为蝙蝠体重 5-10% 的标签只能使用几天。对于时间较长的研究,应使用重量小于蝙蝠体重 5%的标签。为了避免对蝙蝠造成不利影响,研究人员应该以体重指数处于平均水平而不是峰值的个体为目标。
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来源期刊
Movement Ecology
Movement Ecology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
6.60
自引率
4.90%
发文量
47
审稿时长
23 weeks
期刊介绍: Movement Ecology is an open-access interdisciplinary journal publishing novel insights from empirical and theoretical approaches into the ecology of movement of the whole organism - either animals, plants or microorganisms - as the central theme. We welcome manuscripts on any taxa and any movement phenomena (e.g. foraging, dispersal and seasonal migration) addressing important research questions on the patterns, mechanisms, causes and consequences of organismal movement. Manuscripts will be rigorously peer-reviewed to ensure novelty and high quality.
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