Persistent diel melatonin rhythmicity during the Arctic summer in free-living willow warblers

Arctic environments are challenging for circadian systems. Around the solstices, the most important zeitgeber, the change between night and day, is reduced to minor fluctuations in light intensities. However, many species including songbirds nonetheless show clear diel activity patterns. Here we exa...

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Bibliographic Details
Published in:Hormones and Behavior
Main Authors: B. Silverin, E. Gwinner, T. V. Hof, I. Schwabl, M. Hau, B. Helm, FUSANI, Leonida
Other Authors: B., Silverin, E., Gwinner, T. V., Hof, I., Schwabl, Fusani, Leonida, M., Hau, B., Helm
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
Arctic
Bird
Circadian
Diel
Melatonin
Willow warbler
Online Access:http://hdl.handle.net/11392/1377336
https://doi.org/10.1016/j.yhbeh.2009.04.002
Description
Summary:Arctic environments are challenging for circadian systems. Around the solstices, the most important zeitgeber, the change between night and day, is reduced to minor fluctuations in light intensities. However, many species including songbirds nonetheless show clear diel activity patterns. Here we examine the possible physiological basis underlying diel rhythmicity under continuous Arctic summer light. Rhythmic secretion of the hormone melatonin constitutes an important part of the songbird circadian system and its experimental suppression, e.g., by constant light, usually leads to behavioral arrhythmia. We therefore studied melatonin patterns in a free-living migratory songbird, the willow warbler (Phylloscopus trochilus), that maintains diel activity during the Arctic summer. We compared melatonin profiles during late spring and summer solstice in two Swedish populations from the south (58°N) and near the Arctic circle (66°N).We found the northern Swedish population maintained clear diel changes in melatonin secretion during the summer solstice, although peak concentrations were lower than in southern Sweden. Melatonin levels were highest before midnight and in good accordance with periods of reduced activity. The maintenance of diel melatonin rhythmicity under conditions of continuous light may be one of the physiological mechanisms that enables continued functioning of the circadian system.

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