Diel and seasonal rhythmicity in activity and corticosterone in an Arctic migratory herbivore: A multifaceted approach

Margje E. de Jong, Annabel J. Slettenhaar, Rienk W. Fokkema, Marion Leh, Elisabeth Barnreiter, Larry R. Griffin, Maarten J.J.E. Loonen, Eva Millesi, Børge Moe, Isabella B.R. Scheiber
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Abstract

Birds that migrate from temperate areas to the Arctic for breeding lose their strongest Zeitgeber of circadian organization when they cross the Arctic circle in spring — the 24h geophysical light-dark cycle. Under continuous daylight various behavioural and physiological patterns have been detected in both free-ranging and laboratory animals. To better understand the evolution of plasticity in circadian clocks, it is essential to study behavioural and physiological rhythmicity in the context of a species' ecology. Employing a multifaceted approach, which included wildlife cameras, accelerometers, and non-invasive sampling of hormone metabolites, we investigated activity patterns and corticosterone rhythmicity in a migratory herbivore, the Svalbard barnacle goose (Branta leucopsis), during its Arctic breeding season. We detected that females showed a combination of both ultradian and diel rhythmicity in incubation recesses and sleep, respectively. In both parents, rhythms in activity continued over the period, when goslings were present. During moult, many geese aligned activity with the tidal rhythm. Barnacle geese showed weak diel rhythmicity in excreted corticosterone metabolites. This suggests that while Arctic geese may adopt an alternative Zeitgeber during the Arctic summer to keep a diel rhythm, ultradian rhythmicity is crucial and geese are able to tune their rhythms flexibly to environmental conditions.
北极迁徙性食草动物的活动和皮质酮的昼夜和季节节律性:多层面方法
从温带地区迁徙到北极地区繁殖的鸟类在春季越过北极圈时,会失去其最强大的昼夜节律组织--24 小时地球物理光暗周期。在连续的日光下,自由放养动物和实验室动物都能检测到各种行为和生理模式。为了更好地理解昼夜节律钟可塑性的进化,必须结合物种的生态学来研究行为和生理节律性。我们采用包括野生动物照相机、加速度计和非侵入性激素代谢物采样在内的多方面方法,研究了迁徙性食草动物斯瓦尔巴德藤壶雁(Branta leucopsis)在北极繁殖季节的活动模式和皮质酮节律性。我们发现,雌鹅在孵化休眠期和睡眠期分别表现出超昼夜节律和昼夜节律的组合。当雏鸟出现时,父母鹅的活动节律在整个期间都会持续。在换羽期间,许多雁的活动与潮汐节律一致。巴拿克雁排泄的皮质酮代谢物显示出微弱的昼夜节律性。这表明,虽然北极雁在北极夏季可能会采用另一种节律来保持昼夜节律,但超昼节律性是至关重要的,而且北极雁能够根据环境条件灵活调整其节律。
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