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Photic Entrainment in Hamsters: Effects of Simulated Twilights and Nest Box Availability

Institute for Circadian Physiology, One Alewife Center, Cambridge, MA 02140

M. Macchi

Institute for Circadian Physiology, One Alewife Center, Cambridge, MA 02140

T.A. Houpt

E. W. Bourne Behavioral Research Laboratory, Department of Psychiatry, Cornell University Medical College, White Plains, NY 10605

M. Terman

Department of Psychiatry, Columbia University and New York State Psychiatric Institute, 722 West 168th Street, New York, NY 10032

Entrainment of wheel-running activity rhythms was compared in hamsters exposed to daily light-dark (LD) cycles with abrupt transitions between 0 and 10 lux or with artificial twilights simulating summer solstice conditions at 41°N latitude but truncated at 10 lux. The photoperiod in LD-rectangular was set at 16.24 h, equating the total light (in lux • min) emitted under the two schedules. The LD cycles were maintained for 35 days and were followed by 14 days of constant darkness (DD). Half the animals in each condition had access to a dark nest box connected to the outer compartment by a tunnel, the remaining animals being confined to a single compartment. Body temperature and locomotor activity inside the nest boxes were recorded by telemetry. Movements between the nest box and the outer compartment were monitored and the data were used to calculate light exposure at different times of the day. In all groups, the phase angle difference between wheel-running onset and dusk was more positive than that between activity offset and dawn. Hamsters with access to nest boxes, however, had later onsets, earlier offsets, and shorter activity durations (s) than those without. These effects could be accounted for by the difference in light exposure between the nest and no-nest animals, particularly light exposure in the morning. The inclusion of twilights also resulted in later onsets and shorter s, but the differences were relatively small and were only observed in the nest animals. The day-to-day variability in activity onset was negatively correlated with onset time and was smaller in the twilight/nest animals than in the other three groups. Most animals showed an expansion of during the first few days of DD, resulting from a rapid advance of activity onsets relative to offsets. The period of the rhythms, determined from the first five activity onsets in DD, was negatively correlated with the balance of evening and morning light exposure. These results are discussed in the context of nonparametric entrainment of compound pacemakers.

Key Words: circadian rhythms • entrainment • light-dark cycles • twilight • wheel-running • body temperature • motor activity • hamsters

Journal of Biological Rhythms, Vol. 11, No. 3, 216-233 (1996)
DOI: 10.1177/074873049601100304


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