Testicular function and pelage color have different critical daylengths in the Djungarian hamster, Phodopus sungorus sungorus.

Testicular function and pelage color are regulated by photoperiod in the Djungarian hamster. To investigate the critical daylengths of these functions, adult male hamsters were exposed to one of four photoperiods: 16 h of light, 8 h of darkness (16L:8D), 14L:10D, 12L:12D, or 10L:14D. 10L:14D and 12L:12D induced the winter molt and testicular regression, in contrast to 14L:10D which induced only the latter response, and 16L:8D which maintained the summer pelage and large testes. Melatonin injections administered 4, 2, or 0 h before lights-off to hamsters exposed to 16L:8D mimicked the effects in hamsters exposed to 10:14D, 12L:12D or 14L:10D, respectively, on pelage color and testicular weight. Based on previous observations, the elevated circulating melatonin levels resulting from these injections were expected to extend the endogenous melatonin peak. Thus, this finding suggests that the duration of circadian melatonin elevation is the critical parameter determining its effect not only on the gonads, but also on the pelage. Since 14L:10D induced testicular regression but not the winter molt, this study also investigated whether circulating FSH levels, known to affect testicular function, and PRL levels, which have been shown to affect pelage color, might be affected differently by 14L:10D. Both FSH and PRL levels were found to be suppressed in 14L:10D hamsters compared to those in 16L:8D hamsters, although the interval between the initial decrease and eventual recovery was less than that in 10L:14D hamsters. Thus, the differential responses of the pelage and gonads to 14L:10D do not appear to be based on selective suppression of FSH in this photoperiod. However, different responses to 14L:10D compared to 10L:14D may be related to the shorter period of suppression of both PRL and FSH by the 14L:10D daylengths.

[1]  L. Yogev,et al.  Effects of timed melatonin infusions on reproductive development in the Djungarian hamster (Phodopus sungorus). , 1984, Endocrinology.

[2]  B. Goldman,et al.  Hormonal regulation of the annual pelage color cycle in the Djungarian hamster, Phodopus sungorus. II. Role of prolactin. , 1984, The Journal of experimental zoology.

[3]  B. Goldman,et al.  Hormonal regulation of the annual pelage color cycle in the Djungarian hamster, Phodopus sungorus. I. Role of the gonads and pituitary. , 1984, The Journal of experimental zoology.

[4]  J. Vanecek,et al.  Adjustment of pineal melatonin and N-acetyltransferase rhythms to change from long to short photoperiod in the Djungarian hamster Phodopus sungorus. , 1984, Neuroendocrinology.

[5]  B. Goldman,et al.  Photoperiod control of reproductive development in the male Djungarian hamster (Phodopus sungorus). , 1984, Endocrinology.

[6]  I. Zucker,et al.  Short photoperiods reduce winter energy requirements of the meadow vole, Microtus pennsylvanicus , 1983, Physiology & Behavior.

[7]  B. Goldman,et al.  Progonadal role of the pineal in the Djungarian hamster (Phodopus sungorus sungorus): mediation by melatonin. , 1983, Endocrinology.

[8]  B. Goldman,et al.  Antigonadal effects of timed melatonin infusion in pinealectomized male Djungarian hamsters (Phodopus sungorus sungorus): duration is the critical parameter. , 1983, Endocrinology.

[9]  D. Tay,et al.  Time course of sensitivity of golden hamsters to melatonin injections throughout the day. , 1983, Biology of reproduction.

[10]  D. Ellis,et al.  Modulation by photoperiod of gonadotrophin secretion in intact and castrated Djungarian hamsters. , 1982, Journal of reproduction and fertility.

[11]  L. Tamarkin,et al.  Pineal melatonin in the Djungarian hamster: photoperiodic regulation of a circadian rhythm. , 1982, Endocrinology.

[12]  R. Kelch,et al.  Hamster prolactin: physiological changes in blood and pituitary concentrations as measured by a homologous radioimmunoassay. , 1982, Neuroendocrinology.

[13]  B. Tate-Ostroff,et al.  Hormonal regulation of the annual reproductive cycle of golden hamsters. , 1981, General and comparative endocrinology.

[14]  G. Lynch,et al.  Temperature regulation in the mouse,Peromyscus leucopus: Effects of various photoperiods, pinealectomy and melatonin administration , 1980, International journal of biometeorology.

[15]  D. Allain,et al.  Induction of autumn moult in mink (Mustela vison Peale and Beauvois) with melatonin. , 1980, Reproduction, nutrition, developpement.

[16]  K. Matt,et al.  Hypothalamic-pituitary-gonadal interactions during spontaneous testicular recrudescence in golden hamsters. , 1979, Biology of reproduction.

[17]  K. Hoffmann Effects of short photoperiods on puberty, growth and moult in the Djungarian hamster (Phodopus sungorus). , 1978, Journal of reproduction and fertility.

[18]  K. Hoffmann Photoperiodic Mechanism in Hamsters: the Participation of the Pineal Gland , 1978 .

[19]  E. Nieschlag,et al.  Circadian rhythm of plasma testosterone in the male Djungarian hamster (Phodopus sungorus). , 1977, Acta endocrinologica.

[20]  L. Tamarkin,et al.  Effect of melatonin on the reproductive systems of male and female Syrian hamsters: a diurnal rhythm in sensitivity to melatonin. , 1976, Endocrinology.

[21]  L. Tamarkin,et al.  Regulation of serum gonadotropins by photoperiod and testicular hormone in the Syrian hamster. , 1976, Endocrinology.

[22]  Elliott Ja Circadian rhythms and photoperiodic time measurement in mammals. , 1976 .

[23]  G. Lynch,et al.  Melatonin induced changes in gonads; pelage and thermogenic characters in the white-footed mouse, Peromyscus leucopus. , 1976, Comparative biochemistry and physiology. C: Comparative pharmacology.

[24]  J. Alvis,et al.  Effect of prolonged exposure to nonstimulatory photoperiods on the activity of the neuroendocrine-testicular axis of golden hamsters. , 1975, Biology of Reproduction.

[25]  K. Hoffmann,et al.  [The annual cycle in the Djungarian Hamster Phodopus sungorus Pallas]. , 1973, Oecologia.

[26]  A. al-Khateeb,et al.  Seasonal changes of pelage in the vole (Microtus agrestis). II. The effect of daylength. , 1971, General and comparative endocrinology.

[27]  J. Ling Pelage and Molting in Wild Mammals with Special Reference to Aquatic Forms , 1970, The Quarterly Review of Biology.

[28]  R. K. Meyer,et al.  Hair Color, Molt, and Testis Size in Male, Short-Tailed Weasels Treated with Melatonin , 1969, Science.

[29]  M. Menaker,et al.  Photoperiodic Control of Hamster Testis , 1967, Science.

[30]  T. H. Bissonnette,et al.  EXPERIMENTAL MODIFICATION AND CONTROL OF MOLTS AND CHANGES OF COAT‐COLOR IN WEASELS BY CONTROLLED LIGHTING , 1944 .

[31]  T. H. Bissonnette,et al.  SHORTENING DAYLIGHT PERIODS BETWEEN MAY 15 AND SEPTEMBER 12 AND THE PELT CYCLE OF THE MINK. , 1939, Science.