Temporal Dissociation Between Activity and Body Temperature Rhythms of a Subterranean Rodent (Ctenomys famosus) in Field Enclosures.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Milene G Jannetti, Patricia Tachinardi, Veronica S Valentinuzzi, Gisele A Oda
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引用次数: 1

Abstract

Several wild rodents, such as the subterranean tuco-tucos (Ctenomys famosus), switch their time of activity from diurnal to nocturnal when they are transferred from field to the laboratory. Nevertheless, in most studies, different methods to measure activity in each of these conditions were used, which raised the question of whether the detected change in activity timing could be an artifact. Because locomotor activity and body temperature (Tb) rhythms in rodents are tightly synchronized and because abdominal Tb loggers can provide continuous measurements across field and laboratory, we monitored Tb as a proxy of activity in tuco-tucos transferred from a semi-field enclosure to constant lab conditions. In the first stage of this study ("Tb-only group," 2012-2016), we verified high incidence (55%, n = 20) of arrhythmicity, with no consistent diurnal Tb rhythms in tuco-tucos maintained under semi-field conditions. Because these results were discrepant from subsequent findings using miniature accelerometers (portable activity loggers), which showed diurnal activity patterns in natural conditions (n = 10, "Activity-only group," 2016-2017), we also investigated, in the present study, whether the tight association between activity and Tb would be sustained outside the lab. To verify this, we measured activity and Tb simultaneously across laboratory and semi-field deploying both accelerometers and Tb loggers to each animal. These measurements (n = 11, "Tb + activity group," 2019-2022) confirmed diurnality of locomotor activity and revealed an unexpected loosening of the temporal association between Tb and activity rhythms in the field enclosures, which is otherwise robustly tight in the laboratory.

野外围场中地下啮齿动物活动与体温节律的时间分离。
一些野生啮齿动物,如地下巨齿鼠(Ctenomys famosus),当它们从野外转移到实验室时,它们的活动时间从白天转变为夜间。然而,在大多数研究中,使用了不同的方法来测量这些条件下的活动,这就提出了一个问题,即检测到的活动时间的变化是否可能是人为的。由于啮齿类动物的运动活动和体温(Tb)节律是紧密同步的,并且由于腹部Tb记录器可以提供跨野外和实验室的连续测量,因此我们监测Tb作为从半野外围栏转移到恒定实验室条件下的tuco-tucos活动的代理。在本研究的第一阶段(“Tb-only组”,2012-2016),我们证实了心律失常的高发生率(55%,n = 20),在半野外条件下,tuco-tucos没有保持一致的每日Tb节律。由于这些结果与随后使用微型加速度计(便携式活动记录仪)的结果不同,后者显示了自然条件下的日常活动模式(n = 10,“仅活动组”,2016-2017),因此我们在本研究中还调查了活动与结核病之间的紧密关联是否会在实验室外持续。为了验证这一点,我们在实验室和半现场同时测量了活动和结核病,并为每只动物部署了加速度计和结核病记录器。这些测量(n = 11,“Tb +活动组”,2019-2022)证实了运动活动的昼夜性,并揭示了Tb与活动节律之间的时间关联的意外松动,否则在实验室中是非常紧密的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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