Summary
Finches (Chloris chloris, Fringilla montifringilla) showed clear freerunning circadian rhythms when exposed to constant dim light. Increasing the light intensity by doubling it each day made them become arrhythmic at a certain threshold intensity of illumination, showing continuous locomotor activity. When the light intensity was decreased steadily at the reversed rate, the finches became rhythmic again. 7 out of 8 finches had a clear start in their rhythms, from one day to the next, at light intensities about 4 times higher than the point where they had become arrhythmic. The last finch started its freerunning circadian rhythm gradually, a few days after the light intensity had reached a constant dim illumination (0.2 lux).
The results of all birds are taken as proof of the self-excitatory capacity of the circadian system. This means, it characterizes the dynamics of the system that the clock mechanism is continuously in operation, and not only after a passive reaction to external stimuli exceeds any threshold. Simultaneously, the results of all but one bird allow the evaluation of the contribution of proportional and differential effects of light in the control of circadian rhythmicity. A relative change in light intensity by 100% in the course of one day is nearly equivalent to a change of 100% in the absolute intensity of illumination.
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Wever, R.A. Circadian rhythms of finches under steadily changing light intensity: Are self-sustaining circadian rhythms self-excitatory?. J. Comp. Physiol. 140, 113–119 (1980). https://doi.org/10.1007/BF00606303
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DOI: https://doi.org/10.1007/BF00606303