کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
5924210 | 1571187 | 2014 | 9 صفحه PDF | دانلود رایگان |
- Untypical for a circannual species, European hamsters have several litters per year.
- How offspring integrates at the proper position in the annual cycle was studied.
- Pups adopt the appropriate seasonal activity pattern of adults at an age of 78Â days.
- The timing of puberty and the excretion of aMT6s depended on the season of birth.
- A dual control ensures proper seasonal short-term and long-term timing.
In contrast to photoperiodic rodent species, adult circannual European hamsters (Cricetus cricetus) do not rely on melatonin as transducer of the photoperiodic message. Instead, seasonal entrainment involves a special circadian organisation which characterizes a photoperiod-sensitive phase. When days shorten a precise activity pattern (“summer pattern”) switches to a weak or arrhythmic “winter pattern”. At the very same day gonadal regression is initiated and the circannual clock is reset. In contrast to this difference in photoperiodic time measurement, the broad time span in which offspring are born and the birth-season dependent timing of puberty is similar to photoperiodic rodents. We investigated how juvenile European hamsters measure photoperiod to situate themselves at the proper position in the annual cycle. Activity and 6-sulphatoxymelatonin (aMT6s) excretion were recorded in pups of five litters born at different seasons. Pups of all litters showed an activity pattern identical with the adults' summer pattern until postnatal day 78, suggesting that the pathway known to reset the circannual clock in adults is functional. The synchronous start of reproduction in yearlings supports this. However, since puberty and gonadal regression occurred before the switch in the activity pattern, the timing of reproduction in the birth year must be controlled by other means. As in photoperiodic species melatonin might be involved, since the aMT6s excretion showed daily and seasonal rhythms from early life on.
Journal: Physiology & Behavior - Volume 130, 10 May 2014, Pages 66-74