Биологические ритмы. В 2-х т. Т. 1. Пер. с англ. €

_________________ Ритмы поведения позвоночных_____________________ 233

102. Hayden P., Lindberg R. G. Orcadian rhythm in mammalian body temperature entrained by cyclic pressure changes, Science, 165, 1288—1289 (1969).

103. Heckrotte C. The effect of the environmental factors in the locomotory activity of the plains garter snake (Thamnophis radix radix). Animal Behavior, 10, 193—207 (1962). . :

104. Heckrotte C. Temperature and light effects on the circadian rhythm and locoinotory activity of the plains garter snake (Thamnophis radix hayendi), J. of Interdisciplinary Cycle Research, 6, 279—290 (1975).

105. Heisinger J. F. Analysis of the reingestion rhythm in confined cottontails, Ecology, 46, 197—201 (1965).

106. Henkin R. I. The effect of corticosteroids and ACTH on sensory systems. In: D. DeWied and J. A.W. M. Weijnen (eds.), Pituitary, Adrenal and the Brain, Amsterdam, Elsevier, 1970, pp. 270—294.

107. Hennig C. W., Dunlap W. P. Circadian rhythms of tonic immobility.'jn the rat: Evidence of an endogenous mechanism, Animal Learning and Behavior', 5,253—258 (1977).

108. Higginbotham A. C. Studies of amphibian activity, I. Preliminary repert ort the rhythmic activity of Bufo americanus americanus Holbrook and Bufo fowleri Hinckley, Ecology, 20, 58—70 (1939). ;

109. Hillman A. K. K-, Young C. M. A. Observations of, the breeding behaviour of the meadow pipit Anthus pratensis under continual daylight, Ibis, 119, 206—207 (1977). ; ·:·

110. Himstedt W. Die Tagesperiodik von Salamandriden, Oecologia, 8, 494—208 (1971).

111. Hoffmann K· Synchronisation der circadianen Aktivitâtsperiodik von Eidechsen durch Temperaturcyclen verschiedener Amplitude, Zeitschrift fur .vergleichende Physiologie, 58, 225—228 (1968).

112. Hoffmann K. Splitting of the circadian rhythm as a function of light intensity. Ш: M. Menaker (éd.), Biochronometry, Washington, D. C., US .NatkH nal Academy of Sciences, 1971, pp. 134—143.

113. Holloway F. A., Wansley R. A. Multiphasic retention deficits at periodic intervals after passive avoidance learning, Science, 180, 208—210 (.1973).

114. Holloway F. A., Wansley R. A. Multiple retention deficits at periodic intervals after active and passive avoidance learning, Behavioral Biology, 9, 1—14 (1973).

115. Horion В. J., West C. E., Turley S. D. Diurnal variation in the feeding' pattern of guinea pigs, Nutrition and Metabolism, 18, 294—301 (1975).

116. Harwich R. H. The whooping display in Nilgiri langurs: An example of dialy fluctuations suuperimposed on a general trend, Primates, 17,'419— 431 (1976). ;*-

117. Hostetter R. C. Time of day effects on learning and open field activity, Psychonomic Science, 5, 257—258 (1966).

118. Howarth S. T., Toole J. F. Some observations on the circadian rhythm of Choloepus hoffmanni, the two toed sloth, Laboratory Animal Science, 23, 377—379 (1973).

119. Hunsicker J. P., Mellgren R. L. Multiple deficits in the retention of an appetitively motivated behavior across a 24-hr period in rats, Animal Learning and Behavior, 5, 14—16 (1977).

120. Hyde J. S., Sawyer T. F. Estrous cycle fluctuations in aggressiveness of house mice, Hormones and Behavior, 9, 290—295 (1977).

121. Imber M. J. Behaviour of petrels in relation to the moon and artificial lïghfs, Notornis, 22, 302—306 (1975).

122. Jilge B. The entrainment of the circadian soft faeces excretion in the rabbit J. of Interdisciplinary Cycle Research, 7, 229—235 (1976).

123. Johansen K-, Krog J. Diurnal body temperature variations and hibernation in the birchmouse, Sicista betulina, American J. of Physiology 196 1200— 1204 (1959).


Наши рекомендации