Effects of maintaining solstice light and temperature on reproductive activity, coat growth, plasma prolactin and melatonin in goats
| Autor: | J. Arendt, F. E. Gebbie, I. A. Forsyth |
|---|---|
| Rok vydání: | 1999 |
| Předmět: |
Embryology
medicine.medical_specialty Coat Hot Temperature Light Biology medicine.disease_cause Statistics Nonparametric Melatonin Endocrinology Estrus Internal medicine medicine Animals Circadian rhythm Progesterone Estrous cycle photoperiodism Analysis of Variance Goats Environmental factor Obstetrics and Gynecology Cell Biology Prolactin Circadian Rhythm Reproductive Medicine Female Seasons Hair Follicle Moulting medicine.drug |
| Zdroj: | Reproduction. 116:25-33 |
| ISSN: | 1741-7899 1470-1626 |
| Popis: | Interactive effects of light and temperature on aspects of seasonality were studied in female British Saanen dairy goats. Four groups of adult non-pregnant non-lactating goats (n = 5) were housed under the following conditions: controls (July-June): natural photoperiod and temperature; group 1 (July-December): long days (16 h light: 8 h dark) and natural temperature; group 2 (July-December): long days and average summer temperature (17.6 degrees C); group 3 (December-June): short days (8 h light: 16 h dark) and winter temperature (8.4 degrees C). Plasma prolactin and progesterone were measured once a week, circadian changes in prolactin and melatonin were determined in December and May, and coat development was assessed. Seasonal variation in prolactin was influenced by manipulation of both daylength and temperature. In group 1, prolactin concentrations decreased as the environmental temperature decreased, despite maintenance of long days. When light and temperature were maintained under summer (group 2) and winter (group 3) conditions, prolactin remained relatively constant, although at different high and low set points, respectively, but with indications of a seasonal rhythm. An asymptotic relationship between prolactin and temperature was maintained under all daylengths. The circadian pattern of melatonin was related to daylength and was not influenced significantly by temperature. Onset of oestrus was unaltered. In group 3 (maintained winter solstice light and temperature), anoestrus was delayed (P < 0.05) from a median control date of 17 March to a median date of 28 April. Winter coat development was delayed in group 1; group 2 showed premature moulting of the winter coat; and in group 3, development of the summer coat was delayed. The results imply that temperature modifies the influence of daylength on prolactin secretion and hair follicle growth by mechanisms that do not involve melatonin. |
| Databáze: | OpenAIRE |
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