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References
Albers, H.E., Gonadal hormones organize and modulate the circadian system of the rat. Am. J. Physiol.241 (1981) R62-R66.
Apfelbaum, M., Reinberg, A., Nillus, P., and Halberg, H., Rythmes circadiens de l'alternance veille-sommeil pendant l'isolement souterrain de sept jeunes femmes. Presse méd.77 (1969) 879–882.
Aschoff, J., Exogenous and endogenous components in circadian rhythms. Cold Spring Harb. Symp. quant. Biol.25 (1960) 11–28.
Aschoff, J., and Wever, R., Resynchronisation der Tagesperiodik von Vögeln nach Phasensprung des Zeitgebers. Z. vergl. Physiol.46 (1963) 321–335.
Aschoff, J., Gerecke, U., and Wever, R., Desynchronization of human circadian rhythms. Jap. J. Physiol.17 (1967) 450–457.
Aschoff, J., Hoffmann, K., and Pohl, H., Re-entrainment of circadian rhythms after phase-shifts of the zeigeber. Chronobiologia2 (1975) 23–78.
Aschoff, J., Gerecke, U., von Goetz, Ch., Groos, G.A., and Turek, F.W., Phase responses and characteristics of free-running activity rhythms in the golden hamster: independence of the pineal gland, in: Vertebrate Circadian Systems, pp. 129–140. Eds J. Aschoff, S. Daan and G.A. Groos, Springer-Verlag, Berlin/Heidelberg/New York 1982.
Beasly, L., and Nelson, R., Thyroid gland influences the period of hamster circadian oscillations. Experientia38 (1982) 870–871.
Citta, M., Time series analysis: The profilogram method. Int. J. Chronobiol.4 (1976) 171–183.
Colin, J., Timbal, J., Boutelier, C., Houdas, Y., and Siffre, M., Rhythm of the rectal temperature during a 6-month free-running experiment. J. appl. Physiol.25 (1968) 170–176.
Czeisler, C.A., Moore-Ede, M.C., and Coleman, R.M., Rotating shift work schedules that disrupt sleep are improved by applying circadian principles. Science217 (1982) 460–463.
Daan, S., Damasse, D., Pittendrigh, C.S., and Smith, E.R., An effect of castration and testosterone replacement on a circadian pacemaker in mice. Proc. natn. Acad. Sci. USA72 (1975) 3744–3747.
Daan, S., and Pittendrigh, C.S., A functional analysis of circadian pacemakers in nocturnal rodents. III. Heavy water and constant light; homeostasis or frequency? J. comp. Physiol.106 (1976) 267–290.
Daan, S., and Berde, C., Two coupled oscillators: simulations of the circadian pacemaker in mammalian activity rhythms. J. theor. Biol.70 (1978) 297–313.
Dark, J., Partial isolation of the suprachiasmatic nuclei: effects on circadian rhythms of rat drinking behavior. Physiol. Behav.25 (1980) 863–873.
Davis, F.C., Darrow, J.M., and Menaker, M., Sex differences in the circadian control of hamster wheel-running activity. Am. J. Physiol.244 (1983) R93-R105.
De Candolle, Physiologie Vegetale. Bechet Jeune, Paris 1832.
De Mairan, J., Observation botanique, in: Histoire de l'Academie Royale des Sciences, pp. 35–36 (1729).
Dörrscheidt, G.J., and Beck, L., Advanced methods for evaluating characteristic parameters, (τ, ga, ϱ) of circadian rhythms. J. math. Biol.2 (1975) 107–121.
Elliott, A.L., Mills, J.N., Minors, D.S., and Waterhouse, J.M., The effect of real and simulated time zone shifts upon the circadian rhythms of body temperature, plasma 11-hydroxycorticosteroids, and renal excretion in human subjects. J. Physiol., London221 (1972) 227–257.
Enright, J.T., The search of rhythmicity in biological time-series. J. theor. Biol.8 (1965) 426–468.
Fuller, C.A., Lydic, R., Sulzman, F.M., Albers, H.E., Tepper, B., and Moore-Ede, M.C., Circadian rhythm of body temperature persists after suprachiasmatic lesions in the squirrel monkey. Am. J. Physiol.241 (1981) R385-R391.
Gerritzen, F., Strengers, Th., and Esser, S., Studies on the influence of fast transportation on circadian excretion pattern of the kidney in humans. Aerospace Med.40 (1969) 264–271.
Green, J.D., and Gilette, R., Circadian rhythms of firing rate recorded from single cells in the rat suprachiasmatic brain slice. Brain Res.245 (1982) 198–200.
Groos, G., and Hendriks, J., Circadian rhythms in electrical discharge of rat suprachiasmatic neurons recorded in vitro. Neurosci. Lett.34 (1982) 283–288.
Gwinner, E., Testosterone induces splitting of circadian locomotor activity rhythms in birds. Science185 (1974) 72–74.
Halberg, F., Siffre, M., Engeli, M., Hillman, D., and Reinberg, A., Etude en libre cours des rythmes ircadiens du pouls, de l'alternance veille-sommeil et de l'estimation du temps pendant les deux mois de séjour souterrain d'un homme adulte jeune. C.r. Acad. Sci. Paris260 (1965) 1259–1262.
Hauty, G.T., and Adams, T., Phase shifts of the human circadian system and performance deficit during periods of transition: I. East-west flight. Aerospace Med.37 (1966) 668–674.
Hauty, G.T., and Adams, T., Phase shifts of the human circadian system and performance deficit during the periods of transition: II. West-east flight. Aerospace Med.37 (1966) 1027–1033.
Hauty, G.T., and Adams, T., Phase shifts of the human circadian system and performance deficit during the periods of transition: III. North-south fligh. Aerospace Med.37 (1966) 1257–1262.
Hendrickson, A.E., Wagoner, N., and Cowan, W.N., An autoradiographic and electron microscope study of retino-hypothalamic connections. Z. Zellforsch. mikrosk. Anat.135 (1972) 1–26.
Hoffmann, K., Overt circadian frequencies and circadian rule, in: Circadian Clocks, pp. 87–94. Ed. J. Aschoff. North Holland Publishing Co., Amsterdam 1965.
Honma, K.I., and Hiroshige, T., Internal synchronization among several circadian rhythms in rats under constant light. Am. J. Physiol.235 (1978) R243-R249.
Honma, K.I., and Hiroshige, T., Endogenous ultradian rhythms in rats exposed to prolonged continuous light. Am. J. Physiol.235 (1978) R250-R256.
Horseman, N.D. and Ehret, C.F., Glucocorticosteroid injection is a circadian zeitgeber in the laboratory rat. Am. J. Physiol.243 (1982) R373-R378.
Hume, K.I., Sleep adaptation after phase shifts of the sleep-wake-fulness rhythm in man. Sleep2 (1980) 417–435.
Ibuka, N., and Kawamura, H., Loss of circadian rhythm in sleep-wakefulness cycle in the rat by suprachiasmatic nucleus lesions. Brain Res.96 (1975) 76–81.
Ibuka, N., Inouye, S.T., and Kawamura, H., Analysis of sleep-wakefulness rhythms in male rats after suprachiasmatic nucleus lesions and ocular enucleation. Brain Res.122 (1977) 33–47.
Inouye, S.T., and Kawamura, H., Characteristics of a circadian pacemaker in the suprachiasmatic nucleus. J. comp. Physiol.146 (1982) 153–160.
Jouvet, M., Mouret, J., Chouvet, G., and Siffre, M., Toward a 48-hour day: experimental bicircadian rhythm in man, in: The Neurosciences. Third Study Program. pp. 491–497. Eds F. Schmidt and F. Worden. MIT Press, Cambridge, Mass 1974.
Klein, K.E., Brüner, H., Holtman, H., Rehme, H., Stolze, J., Steinhoff, W.D., and Wegmann, H.M., Circadian rhythms of pilots' efficiency and effects of multiple time zone travel. Aerospace Med.41 (1970) 125–132.
Klein, K.E., Wegmann, H.M., and Hunt, B.I., Desynchronization of body temperature and performance circadian rhythms as a result of outgoing and homegoing transmeridian flight. Aerospace Med.43 (1972) 119–132.
Klein, K.E., and Wegmann, H.M., The resynchronization of human circadian rhythms after transmeridian flights as a result of flight direction and mode of activity, in: Chronobiology, pp. 564–570. Eds L.E. Scheving, F. Halberg and J.E. Pauly, Igaku Shoin, Tokyo 1974.
Lewis, P.R., and Lobban, M.C., Patterns of electrolyte excretion in human subjects during a prolonged period of life on a 22-hour day. J. Physiol. London133 (1956) 670–680.
Lewis, P.R., and Lobban, M.C., The effects of prolonged periods of life on abnormal time routines upon excretory rhythms in human subjects. Q.J. expl Physiol.42 (1957) 356–371.
Lewis, P.R., and Lobban, M.C., Dissociation of diurnal rhythms in human subjects living on abnormal time routines. Q.J. expl Physiol.42 (1957) 371–385.
Menaker, M., Takahashi, J.S., and Eskin, A., The physiology of circadian pacemakers. A. Rev. Physiol.40 (1978) 501–526.
Miles, L.E.M., Raynal, D.M., and Wilson, M.A., Blind man living in normal society has human circadian rhythms of 24.9 hours. Science198 (1977) 421–423.
Mills, J.N., Circadian rhythms during and after three months in solitude underground. J. Physiol., London174 (1964) 217–231.
Mills, J.N., Minors, D.S., and Waterhouse, J.M., The physiological rhythms of subjects living on a day of abnormal length. J. Physiol., London268 (1977) 803–826.
Mills, J.N., Minors, D.S., and Waterhouse, J.M., Adaptation to abrupt time shifts of the oscillator(s) controlling human circadian rhythms. J. Physiol. London285 (1978) 455–470.
Minors, D.S., and Waterhouse, J.M., Circadian Rhythms and the Human. Wright PSG, Bristol/London/Boston 1981.
Moore, R.Y., and Lenn, N.J., A retinohypothalamic projection in the rat. J. comp. Neurol.146 (1972) 1–14.
Moore, R.Y., and Eichler, V.B., Loss of a circadian adrenal corticosterone rhythm following suprachiasmatic lesions in the rat. Brain Res.42 (1972) 201–206.
Moore-Ede, M.C., Schmelzer, W.S., Kass, D.A., and Herd, J.A., Cortisol-mediated synchronization of circadian rhythm in urinary potassium excretion. Am. J. Physiol.233 (1977) R230-R238.
Moore-Ede, M.C., Czeisler, C.A., and Richardson, G.S., Circadian timekeeping in health and disease: Part 1. Basic properties of circadian pacemakers. New Engl. J. Med.309 (1983) 469–476.
Moore-Ede, M.C., Czeisler, C.A., and Richardson, G.S., Circadian timekeeping in health and disease: Part 2. Clinical implications of circadian rhythmicity. New Engl. J. Med.309 (1983) 530–536.
Morin, L.P., Fitzgerald, K.M., and Zucker, I., Estradiol shortens the period of hamster circadian rhythm. Science196 (1977) 305–307
Nagau, K., Nishio, T., Nakagawa, H., Nakamura, S., and Fukuda, Y., Effect of bilateral lesions of the suprachiasmatic nuclei on the circadian rhythm of food-intake. Brain Res.142 (1978) 384–389.
Nelson, W., Tong, Y.L., Lee, J.K., and Halberg, F., Methods for cosinor-rhythmometry. Chronobiologia6 (1979) 305–323.
Orth, D.N., Besser, G.M., and King, P.H., Free-running circadian plasma cortisol rhythm in a blind human subject. Clin. Endocr.10 (1979) 603–617.
Pauly, J.E., Scheving, L.E., and Burns, E.R., Studies of the circadian system in blind human beints, in: Proceedings XII Int. Conference of the International Society for Chronobiology, pp. 19–28. Il Ponto, Milan 1975.
Peterson, G.M., Watkins, W.B., and Moore, R.Y., The suprachiasmatic hypothalamic nuclei of the rat. VI. Vasopressin neurons and circadian rhythmicity. Behav. Neur. Biol.29 (1980) 236–245.
Pittendrigh C.S., and Daan, S., A functional analysis of circadian pacemakers in nocturnal rodents. IV. Entrainment: pacemaker as clock. J. comp. Physiol.106 (1976) 291–331.
Pittendrigh, C.S., and Daan, S., A functional analysis of circadian pacemakers in nocturnal rodents. V. Pacemaker structure: a clock for all seasons. J. comp. Physiol.106 (1976) 333–355.
Pohl, H., Comparative aspects of circadian rhythms in homeotherms, re-entrainment after phase shifts of the zeitgeber. Int. J. Chronobiol.5 (1978) 493–517.
Poulis, J.A., Roelfsema, F., Smeenk, D., and Van der Heide, D., Synchronisation of diurnal urinary rhythms after time shift in the rat is sex-dependent. Chronobiologia10 (1983) 147.
Poulis, J.A., Roelfsema, F., Van der Heide, D., and Smeenk, D., Circadian urinary electrolyte excretion rhythms in hypophysectomised rats. J. interdiscipl. Cycle Res.16 (1985) 152.
Poulis, J.A., Roelfsema, F., Van der Heide, D., and Smeenk, D., Resynchronization patterns for urinary rhythms in rats after lightdark shifts. Am. J. Physiol.249 (1985) R402-R409.
Priestley, M.B., Spectral analysis. Academic Press, London 1981.
Raisman, G., and Brown-Grant, K., The suprachiasmatic syndrome: endocrine and behavioural abnormalities following lesions of the suprachiasmatic nuclei in the female rat. Proc. r. Soc. Lond Ser. B198 (1977) 297–314.
Reinberg, A., and Halberg, F., Circadian Chronopharmacology. A. Rev. Pharmac. Toxic.11 (1971) 455–492.
Reinberg, A., and Halberg, F., Chronopharmacology. Pergamon Press Ltd., Oxford/London/New York 1979.
Richter, C.P., Biological clocks in medicine and psychiatry. Thomas, Springfield, Ill 1965.
Roelfsema, F., Van der Heide, D., and Smeenk, D., Circadian rhythms of urinary electrolyte excretion in freely moving rats. Life Sci.27 (1980) 2303–2309.
Roelfsema, F., Van der Heide, D., and Smeenk, D., The influence of intravenous infusion of electrolytes on the diurnal excretory rhythms. Life Sci.30 (1982) 771–778.
Roelfsema, F., Van der Heide, D., and Smeenk, D., The influence of continuous intragastric feeding of liquid food (vivonex) on the diurnal excretion of electrolytes and urea in rats. J. interdiscipl. Cycle Res.13 (1982) 89–96.
Roelfsema, F., Van der Heide, D., and Smeenk, D., Diurnal urinary calcium and phosphate excretion patterns in parathyroidectomized rats. J. interdiscipl. Cycle Res.14 (1983) 305–314.
Rusak, B., and Zucker, I., Neural regulation of circadian rhythms. Physiol. Rev.59 (1979) 449–526.
Rusak, B., and Boulos, Z., Pathways for photic entrainment of mammalian circadian rhythms. Photochem. Photobiol.34 (1981) 267–273.
Rusak, B., and Groos, G., Suprachiasmatic stimulation phase shifts rodents circadian rhythms. Science215 (1982) 1407–1409.
Saleh, M.A., Hard, P.J., and Winget, C.M., Loss of circadian rhythmicity and locomotor activity following suprachiasmatic lesions in the rat. J. Interdiscipl. Cycle Res.8 (1977) 341–346.
Sasaki, T., Effect of rapid transportation around the earth on diurnal variation in body temperature. Proc. Soc. expl Biol. Med.115 (1964) 1129–1131.
Schwartz, W.J., Davidson, L.D., and Smith, J., In vivo metabolic activity of a putative circadian oscillator, the rat suprachiasmatic nucleus. J. comp. Neurol.189 (1980) 157–167.
Siffre, M., Reinberg, A., Halberg, F., Gatha, J., Perdriel, G., and Slind, R., L'isolement souterrain prolongé. Etude de deux sujets adulte sains avant, pendent et après cet isolement. Prese Méd.74 (1966) 915–919.
Sofroniew, M.V., and Weindl, A., Neuroanatomical organization and connections of the suprachiasmatic nucleus. in: Vertebrate Circadian Systems, pp. 75–86. Eds J. Aschoff, S. Daan and G. Groos. Springer Verlag, Berlin/Heidelberg/New York 1982.
Stephan, F.K., and Zucker, I., Circadian rhythms in drinking behavior and locomotor activity of rats are eliminated by hypothalamic lesions. Proc. natn. Acad. Sci.69 (1972) 1583–1586.
Stephan, F.K., and Nunez, A.A., Elimination of circadian rhythms in drinking, activity, sleep and temperature by isolation of the suprachiasmatic nuclei. Behav. Biol.20 (1977) 1–16.
Stephan, F.K., Limits of entrainment to periodic feeding in rats with suprachiasmatic lesions, in: Vertebrate Circadian Systems, pp. 120–128. Eds J. Aschoff, S. Daan and G. Groos, Springer Verlag, Berlin/Heidelberg/New York 1982.
Sulzman, F.M., Fuller C.A., and Moore-Ede, M.C., Spontaneous internal desynchronization of circadian rhythms in the squirrel monkey. Comp. Biochem. Physiol.58A (1977) 63–67.
Summer, T.L., Ferraro, J.S., and McCormack, C.E., Phase-response and Aschoff illuminance curves for locomotor activity rhythm of the rat. Am. J. Physiol.246 (1984) R299-R304.
Swaab, D.F., and Hofman, M.A., Sexual differentiation in the human brain. A historical perspective. Progress in Brain Res.61 (1984) 361–374.
Takahashi, J.S., and Menaker, M., Interaction of estradiol and progesterone: effect on circadian locomotor rhythm of female golden hamsters. Am. J. Physiol.239 (1980) R497-R504.
Tokura, H., and Takagi, K., Comparison of circadian oral temperature rhythms between blind and normal subjects. J. physiol. Soc. Jap.36 (1974) 255–256.
Underwood, H., and Groos, G., Vertebrate circadian rhythms: retinal and extraretinal photoreception. Experientia38 (1982) 1013–1021.
Van Cauter, E., and Huyberechts, S., Problems in the statistical analysis of biological time series: the cosinor test and the periodogram. J. interdiscipl. Cycle Res.4 (1973) 41–57.b
Van der Pol, A.N., The hypothalamic suprachiasmatic nucleus of the rat: intrinsic anatomy J. comp. Neurol.191 (1980) 661–702.
Walker, C.A., Winget, C.M., and Soliman, K.F.A., Chronopharmacology and chronotherapeutics. Florida A & M University Foundation, Tallahassee, Fla 1981.
Weitzman, E.D., Czeisler, C.A., and Moore-Ede, M.C., Sleepwake, neuroendocrine and body temperature circadian rhythms under entrained and non-entrained (free-running) conditions in man. in: Biological Rhythms and their Central Mechanism, pp. 199–227. Eds M. Suda, O. Hayaishi and H. Nakagawa, Elsevier/North Holland Biomedical Press, Amsterdam/New York/Oxford 1979.
Wever, R., The duration of re-entrainment of circadian rhythms after phase shifts of the zeitgeber. J. theor. Biol.13 (1966) 187–201.
Wever, R., Zur Zeitgeber-Stärke eines Licht-Dunkel-Wechsels für die circadiane Periodik des Menschen. Pflügers Arch.321 (1970) 133–142.
Wever, R., The circadian multi-oscillator system of man. Int. J. Chronobiol.3 (1975) 19–55.
Wever, R.A., The circadian system of man. Springer Verlag, New York/Heidelberg/Berlin 1979.
Wever, R.A., Phase shifts of human circadian rhythms due to shifts of artificial zeitgebers. Chronobiologia7 (1980) 303–327.
Wever, R.A., Polácšek, J., and Wildgruber C.M., Bright light affects human circadian rhythms. Pflügers Arch.396 (1983) 85–87.
Wever, R.A., Fractional desynchronization of human circadian rhythms. Pflügers Arch.396 (1983) 128–137.
Widmaier, E.P., and Campbell, C.S., Interaction of estradiol and photoperiod on activity patterns in the female hamster. Physiol. Behav.24 (1980) 923–930.
Williams, J.A., and Naylor, E., A procedure for the assessment of significance of rhythmicity in time-series data. Int. J. Chronobiol.5 (1978) 435–444.
Wirz-Justice, A., and Campbell, I.C., Antidepressant drugs can slow or dissociate circadian rhythms. Experientia38 (1982) 1301–1309.
Wirz-Justice, A., The effects of lithium on the circadian system, in: Basic Mechanisms in the Action of Lithium, pp. 249–258. Eds H.D. Lux, J.B. Aldenhoff and H.M. Emrich, Exerpta Medica, Amsterdam 1982.
Wirz-Justice, A., Groos, G.A., and Wehr, T.A., The neuropharmacology of circadian timekeeping in mammals. in: Vertebrate Circadian Systems, pp. 183–193. Eds J. Aschoff, S. Daan and G. Groos, Springer Verlag, Berlin/Heidelberg 1982.
Zucker, I., Cramer, C.P., and Bittman, E.L., Regulation by the pituitary gland of circadian rhythms in the hamster. J. Endocr.85 (1980) 17–25.
Zucker, I., Fitzgerald, K.M., and Morin, L.P., Sex differentiation of the circadian system in the golden hamster. Am. J. Physiol.238 (1980) R97-R101.
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Roelfsema, F. The influence of light on circadian rhythms. Experientia 43, 7–13 (1987). https://doi.org/10.1007/BF01940346
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DOI: https://doi.org/10.1007/BF01940346