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Aulsebrook, A.E.; Connelly, F.; Johnsson, R.D.; Jones, T.M.; Mulder, R.A.; Hall, M.L.; Vyssotski, A.L.; Lesku, J.A. |
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Title |
White and Amber Light at Night Disrupt Sleep Physiology in Birds |
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Journal Article |
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Year |
2020 |
Publication |
Current Biology : CB |
Abbreviated Journal |
Curr Biol |
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in press |
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Keywords |
Animals; anthropogenic; avian; blue light; circadian rhythms; electroencephalogram; light pollution; light spectra; sleep homeostasis; slow wave sleep; urbanization |
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Abstract |
Artificial light at night can disrupt sleep in humans [1-4] and other animals [5-10]. A key mechanism for light to affect sleep is via non-visual photoreceptors that are most sensitive to short-wavelength (blue) light [11]. To minimize effects of artificial light on sleep, many electronic devices shift from white (blue-rich) to amber (blue-reduced) light in the evening. Switching outdoor lighting from white to amber might also benefit wildlife [12]. However, whether these two colors of light affect sleep similarly in different animals remains poorly understood. Here we show, by measuring brain activity, that both white and amber lighting disrupt sleep in birds but that the magnitude of these effects differs between species. When experimentally exposed to light at night at intensities typical of urban areas, domestic pigeons (Columba livia) and wild-caught Australian magpies (Cracticus tibicen tyrannica) slept less, favored non-rapid eye movement (NREM) sleep over REM sleep, slept less intensely, and had more fragmented sleep compared to when lights were switched off. In pigeons, these disruptive effects on sleep were similar for white and amber lighting. For magpies, however, amber light had less impact on sleep. Our results demonstrate that amber lighting can minimize sleep disruption in some birds but that this benefit may not be universal. |
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School of Life Sciences, La Trobe University, Melbourne, VIC 3086, Australia |
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0960-9822 |
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PMID:32707063 |
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Call Number |
GFZ @ kyba @ |
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3080 |
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Author |
Cajochen, C.; Altanay-Ekici, S.; Munch, M.; Frey, S.; Knoblauch, V.; Wirz-Justice, A. |
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Title |
Evidence that the lunar cycle influences human sleep |
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Journal Article |
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Year |
2013 |
Publication |
Current Biology : CB |
Abbreviated Journal |
Curr Biol |
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Volume |
23 |
Issue |
15 |
Pages |
1485-1488 |
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Keywords |
Adult; Aged; Cross-Sectional Studies; Electroencephalography; Female; Humans; Hydrocortisone/analysis/metabolism; Male; Melatonin/analysis/metabolism; Middle Aged; Moon; Nontherapeutic Human Experimentation; Periodicity; Saliva/metabolism; Sleep/*physiology; Sleep Stages/physiology; Young Adult |
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Abstract |
Endogenous rhythms of circalunar periodicity ( approximately 29.5 days) and their underlying molecular and genetic basis have been demonstrated in a number of marine species [1, 2]. In contrast, there is a great deal of folklore but no consistent association of moon cycles with human physiology and behavior [3]. Here we show that subjective and objective measures of sleep vary according to lunar phase and thus may reflect circalunar rhythmicity in humans. To exclude confounders such as increased light at night or the potential bias in perception regarding a lunar influence on sleep, we retrospectively analyzed sleep structure, electroencephalographic activity during non-rapid-eye-movement (NREM) sleep, and secretion of the hormones melatonin and cortisol found under stringently controlled laboratory conditions in a cross-sectional setting. At no point during and after the study were volunteers or investigators aware of the a posteriori analysis relative to lunar phase. We found that around full moon, electroencephalogram (EEG) delta activity during NREM sleep, an indicator of deep sleep, decreased by 30%, time to fall asleep increased by 5 min, and EEG-assessed total sleep duration was reduced by 20 min. These changes were associated with a decrease in subjective sleep quality and diminished endogenous melatonin levels. This is the first reliable evidence that a lunar rhythm can modulate sleep structure in humans when measured under the highly controlled conditions of a circadian laboratory study protocol without time cues. |
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Centre for Chronobiology, Psychiatric Hospital of the University of Basel, 4012 Basel, Switzerland. christian.cajochen@upkbs.ch |
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0960-9822 |
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PMID:23891110 |
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IDA @ john @ |
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140 |
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Author |
Colwell, C.S. |
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Title |
Circadian Rhythms: Does Burning the Midnight Oil Leave You Weak? |
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Journal Article |
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Year |
2016 |
Publication |
Current Biology : CB |
Abbreviated Journal |
Curr Biol |
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26 |
Issue |
14 |
Pages |
R669-71 |
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Commentary |
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A new study shows that nocturnal light exposure rapidly disrupts the central circadian clock as well as reduces motor performance and bone health. These findings provide a striking example of the costs of living in a disrupted light/dark cycle. |
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Department of Psychiatry and Biobehavioral Sciences, Semel Institute, University of California, Los Angeles, CA 90095, USA. Electronic address: CColwell@mednet.ucla.edu |
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0960-9822 |
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PMID:27458911 |
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Call Number |
LoNNe @ kyba @ |
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1494 |
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Author |
Dacke, M.; Baird, E.; Byrne, M.; Scholtz, C.H.; Warrant, E.J. |
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Title |
Dung beetles use the Milky Way for orientation |
Type |
Journal Article |
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Year |
2013 |
Publication |
Current Biology : CB |
Abbreviated Journal |
Curr Biol |
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Volume |
23 |
Issue |
4 |
Pages |
298-300 |
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Keywords |
Animals; Beetles/*physiology; *Behavior, Animal; Cues; Feces; *Galaxies; Locomotion; Moon; Motor Activity; Orientation/*physiology; *Stars, Celestial; Vision, Ocular/physiology; Milky Way; insects |
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When the moon is absent from the night sky, stars remain as celestial visual cues. Nonetheless, only birds, seals, and humans are known to use stars for orientation. African ball-rolling dung beetles exploit the sun, the moon, and the celestial polarization pattern to move along straight paths, away from the intense competition at the dung pile. Even on clear moonless nights, many beetles still manage to orientate along straight paths. This led us to hypothesize that dung beetles exploit the starry sky for orientation, a feat that has, to our knowledge, never been demonstrated in an insect. Here, we show that dung beetles transport their dung balls along straight paths under a starlit sky but lose this ability under overcast conditions. In a planetarium, the beetles orientate equally well when rolling under a full starlit sky as when only the Milky Way is present. The use of this bidirectional celestial cue for orientation has been proposed for vertebrates, spiders, and insects, but never proven. This finding represents the first convincing demonstration for the use of the starry sky for orientation in insects and provides the first documented use of the Milky Way for orientation in the animal kingdom. |
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Department of Biology, Lund University, 223 62 Lund, Sweden. marie.dacke@biol.lu.se |
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0960-9822 |
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Notes |
PMID:23352694 |
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no |
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Call Number |
IDA @ john @ |
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116 |
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Author |
Evans, J.A.; Elliott, J.A.; Gorman, M.R. |
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Title |
Dim nighttime illumination accelerates adjustment to timezone travel in an animal model |
Type |
Journal Article |
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Year |
2009 |
Publication |
Current Biology : CB |
Abbreviated Journal |
Curr Biol |
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Volume |
19 |
Issue |
4 |
Pages |
R156-7 |
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Keywords |
*Adaptation, Physiological; Animals; Behavior, Animal/physiology; Biological Clocks/*physiology; Circadian Rhythm/*physiology; Cricetinae; Humans; *Lighting; Mesocricetus; Mice; Motor Activity/physiology; Phodopus; *Photoperiod; Time Factors |
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Abstract |
Jetlag reflects a mismatch between local and circadian time following rapid timezone travel [1]. Appropriately timed bright light can shift human circadian rhythms but recovery is slow (e.g., 1-2 days per timezone). Most symptoms subside after resynchronization, but chronic jetlag may have enduring negative effects [2], including even accelerated mortality in mice [3]. Melatonin, prescription drugs, and/or exercise may help shift the clock but, like bright light, require complex schedules of application [1]. Thus, there is a need for more efficient and practical treatments for addressing jetlag. In contrast to bright daytime lighting, nighttime conditions have received scant attention. By incorporating more naturalistic nighttime lighting comparable in intensity to dim moonlight, we demonstrate that recovery after simulated jetlag is accelerated when nights are dimly lit rather than completely dark. |
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0960-9822 |
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Notes |
PMID:19243688 |
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Call Number |
IDA @ john @ |
Serial |
152 |
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