References
- Aschoff J. Zeitgeber der tierischen Tagesperiodik. Naturw. 1954; 41: 49–56
- Aschoff J. Exogenous and endogenous components in circadian rhythms. Cold Spring Harb Symp Quant Biol. 1960; 25: 11–27
- Aschoff J., Tokura H. Orcadian activity rhythms in squirrel monkeys: entrainment by temperature cycles. J Biol Rhythm. 1986; 1: 91–99
- Bruce V. Environmental entrainment of circadian rhythms. Cold Spring Harb Symp Quant Biol. 1960; 25: 49–54
- Dörrscheidt G. J., Beck L. Advanced method for evaluating characteristic parameters of circadian rhythms. J Math Biol. 1975; 2: 107–21
- Erkert H. G. Characteristics of the circadian activity rhythm in common marmosets (Callithrix j. jacchus). Am J Primatol. 1989; 17: 271–86
- Erkert H. G. Influence of ambient temperature on circadian rhythms in Colombian owl monkeys, Aotus lemurinus griseimembra. Primatology today, A. Ehara, T. Kimura, O. Takenaka, M. Iwamoto. Elsevier Science Publishers, Amsterdam 1991; 435–38
- Erkert H. G., Rothmund E. Differences in temperature sensitivity of the circadian systems in homeothermic and heterothermic neotropical bats. Comp Biochem Physiol. 1981; 68A: 383–90
- Erkert H. G., Schardt U. Social entrainment of circadian activity rhythms in common marmosets, Callithrix j. jacchus (Primates). Ethology 1991; 87: 189–202
- Francis A. J. P., Coleman G. The effect of ambient temperature cycles upon circadian running and drinking activity in male and female laboratory rats. Physiol Behav. 1988; 43: 471–77
- Francis A. J. P., Coleman G. Ambient temperature cycles entrain the free‐running circadian rhythms of the stripe‐faced dunnart, Sminthopsis macroura. J Comp Physiol A. 1990; 167: 357–62
- Fuller C. A., Sulzman F. M., Moore‐Ede M. C. Circadian control of thermoregulation in the squirrel monkey, Saimiri sciureus. Am J Physiol. 1979; 236: R153–61
- Gibbs F. P. Temperature dependence of rat circadian pacemaker. Am J Physiol. 1981; 241: R17–20
- Gibbs F. P. Temperature dependence of the hamster circadian pacemaker. Am J Physiol. 1983; 244: R607–10
- Hertherington C. M. Circadian oscillations of body temperature in the marmoset, Callithrix j. jacchus. Lab Anim. 1978; 12: 107–8
- Hoffmann K. Synchronisation der circadianen Aktivitätsperiodik von Eidechsen durch Temperaturzyklen verschiedener Amplituden. Z vergl Physiol. 1968; 58: 225–28
- Suprachiasmatic nucleus. The mind's clock, D. C. Klein, R. Y. Moore, S. M. Reppert. Oxford University Press, New York 1991
- Lee T. M., Holmes W. G., Zucker I. Temperature dependence of circadian rhythms in golden mantled ground squirrels. J Biol Rhythms. 1990; 5: 25–34
- Lindberg R. G., Hay den P. Thermoperiodic entrainment of arousal from torpor in the little pocket mouse, Perognathus longimembris. Chronobiologia. 1974; 1: 356–61
- Menezez A. A. L., Moreira L. F. S., Azevedo C. V. M., et al. Behavioural rhythms in the captive common marmoset (Callithrix jacchus) under natural environmental conditions. Braz J Med Biol Res. 1993; 26: 741–45
- Mistlberger R. E., Marchant E. K., Sinclair S. V. Nonphotic phase‐shifting and the motivation to run: Cold exposure reexamined. J Biol Rhythms. 1996; 11: 208–15
- Petry H., Maier J. Radiotelemetrische Untersuchungen der Körpertemperatur von Weissbüscheläffchen (Callithrix jacchus). Z Ernährungswis. 1990; 29: 197–207
- Pittendrigh C. S., Daan S. A functional analysis of circadian pace‐makers in nocturnal rodents IV: Entrainment: Pacemaker as clock. J Comp Physiol. 1976; 106: 291–336
- Pohl H. Einfluβ der Temperatur auf die freilaufende circadiane Aktivitätsperiodik bei Warmblütlern. Z vergl Physiol. 1968; 58: 364–80
- Rajaratnam S. M. W., Redman J. R. Entrainment of activity rhythms to temperature cycles in diurnal palm squirrels. Physiol Behav. 1998; 63: 271–77
- Schnell C. R., Wood J. M. Measurement of blood pressure and heart rate by telemetry in conscious, unrestrained marmosets. Am J Physiol. 1993; 264: H1509–16
- Sulzman F. M., Fuller C. A., Moore‐Ede M. C. Environmental synchronizers of squirrel monkey circadian rhythms. J Appl Physiol. 1977; 43: 795–800
- Sulzman F. M., Sickles A. Daily rhythms of activity and temperature of Macaca nemestrina. Physiologist 1982; 25: S165–66
- Tokura H., Aschoff J. Effects of temperature on the circadian rhythm of pig‐tailed macaques Macaca nemestrina. Am J Physiol. 1983; 245: R800–R804
- Underwood H. Pineal melatonin rhythms in the lizard Anolis carolinensis: effects of light and temperature cycles. J Comp Physiol A. 1985; 157: 57–65
- Wechselberger E. Phase‐shifting effects of arousal on circadian activity rhythms in Callithrix j. jacchus. Current primatology III, behavioural neuroscience, physiology and reproduction, J. R. Anderson, J. J. Roeder, B. Thierry, N. Herrenschmidt. Universite Louis Pasteur, Strasbourg 1994; 223–26
- Wechselberger E. Charakteristika und Mechanismen der Synchronisation der Tages‐periodik des Weiβbüscheläffchens, Callithrix j. jacchus. Doctoral thesis, University of Tubingen, Germany 1995
- Wechselberger E., Erkert H. G. Characteristics of the light‐induced phase response of circadian activity rhythms in common marmosets, Callithrix j. jacchus (Primates‐Cebidae). Chronobiol Int. 1994; 11: 275–84
- Wilkins M. B. The influence of temperature and temperature changes on biological clocks. Circadian clocks, J. Aschoff. Amsterdam, North Holland 1965; 146–63