Abstract
The time course of resynchronization of the circadian activity rhythm of hamsters was observed following a 10-hr advance or delay in the light-dark cycle (LD 12:12). Twenty-six shift patterns of the lighting schedule were studied; they consisted of continuous (daily), three-step, two-step and one-step shifting. So long as the daily shift of the lighting schedule was 1 hr or less, the locomotor rhythm followed the continuous shift perfectly. As the amount of daily shift increased, the time course of activity onset deviated more from the time of lights off; the tendency was more marked in advancing than in delaying shifts. Responses of the activity rhythm to stepwise shifting were essentially the same as those to a continuous shift. They were, however, characterized by larger individual variations, and it took additional days before entrainment was achieved. By fitting the time course of entrainment to an exponential model with a constant term, estimates of time constant and shift error were derived. The time constant became shorter with increasing amounts of daily shifts up to 2 hr per day, increasing the number of shift steps, and/or reducing the amount of the initial shift of the seies. The shift error estimated was 0.51 ± 0.12 hr, indicating precise resynchronization. Accordingly, a quicker resynchronization may be expected when a multiple step shift with a moderate initial shift are employed. In the case of a 10-hr shift, for example, a shift of 3 hr followed by another 7 hr may be recommended.