Synchronization by low-amplitude light-dark cycles of 24-hour pineal and plasma melatonin rhythms of hatchling European starlings (Sturnus vulgaris)

Synchronization by low-amplitude light-dark cycles of 24-hour pineal and plasma melatonin rhythms of hatchling European starlings (Sturnus vulgaris)

Gwinner E, Zeman M, Klaassen M. Synchronization by low‐amplitude light‐dark cycles of 24‐hour pineal and plasma melatonin rhythms of hatchling European starlings (Sturnus vulgaris). J. Pineal Res. 1997; 23:176–181. © Munksgaard, Copenhagen In young European starlings, as in other avian species, high...

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Published in:Journal of pineal research Vol. 23; no. 4; pp. 176 - 181
Main Authors: Gwinner, E., Zeman, M., Klaassen, M.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-11-1997
Blackwell
Subjects:
Animals
Biological and medical sciences
Birds - physiology
circadian rhythm
Circadian Rhythm - physiology
European starling
Fundamental and applied biological sciences. Psychology
Hormones and neuropeptides. Regulation
Hypothalamus. Hypophysis. Epiphysis. Urophysis
melatonin
Melatonin - metabolism
ontogeny
Photoperiod
Pineal Gland - physiology
Radioimmunoassay
synchronization
Vertebrates: endocrinology
Melatonin
Endocrine gland
Hatching
Pineal body
Biological rhythm
Circadian rhythm
Blood plasma
Vertebrata
Development
Hormonal investigation
Aves
Sturnus vulgaris
Pineal hormone
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Summary:Gwinner E, Zeman M, Klaassen M. Synchronization by low‐amplitude light‐dark cycles of 24‐hour pineal and plasma melatonin rhythms of hatchling European starlings (Sturnus vulgaris). J. Pineal Res. 1997; 23:176–181. © Munksgaard, Copenhagen In young European starlings, as in other avian species, high‐amplitude 24‐hr rhythms in plasma and pineal melatonin are already present around the time of hatching. In chickens this rhythmicity results at least partly from the light sensitivity of the melatonin‐producing and ‐secreting system. In contrast to the chicken, the starling is a hole‐nesting bird, and it seemed questionable whether the low light intensities in the nest are sufficient to synchronize perinatal melatonin rhythms. We therefore exposed starling eggs to light cycles roughly simulating those measured in nest‐boxes, i.e., an 11‐hr phase of complete darkness and a 13‐hr phase consisting of 15 min of dim light (10 lux) alternating with 30 min of darkness. For one group the photophase lasted from 0600 to 1900 hr; for the other group the photophase lasted from 1800 to 0700 hr. In approximately 10‐hr‐old hatchlings of both groups, plasma and pineal melatonin concentrations were high during the dark phase and low during the light phase. We conclude that perinatal low‐amplitude light intensity changes of the kind experienced by hatching starlings in the field are sufficient for synchronizing the melatonin‐producing and ‐secreting system in the pineal and possibly other organs.
Bibliography:ArticleID:JPI176
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ISSN:0742-3098
1600-079X
DOI:10.1111/j.1600-079X.1997.tb00352.x