Circadian Rhythms in Locomotor Activity of the Hagfish, Eptatretus burgeri V. The Effect of Light Pulses on the Free-running Rhythm

Three biological rhythms (locomotor activity, body temperature, and plasma corticosterone) were measured simultaneously in individual rats under light-dark cycles and continuous light. Spontaneous locomotor activity was recorded on an Animex and body temperature was telemetrically monitored throughout the experiments. Blood samples were obtained serially at 2-h intervals on the experimental days. Phase angles of these rhythms were calculated by a least-squares spectrum analysis. Under light-dark cycles, the acrophases of locomotor activity, body temperature, and plasma corticosterone were found at 0029, 0106, and 1940 h, respectively. When rats were exposed to 200 lx continuous light, locomotor activity and body temperature showed free-running rhythms with a period of 25.2 h on the average. Plasma corticosterone levels determined at 12 days after exposure to continuous light exhibited a circadian rhythm with the acrophase shifted to 0720. The acrophases of locomotor activity and body temperature, determined simultaneously on the same day, were found to be located at 1303 and 1358 h, respectively. Phase-angle differences among the three rhythms on the 12th day of continuous light were essentially the same with those under the light-dark cycle. These results suggest that circadian rhythms of locomotor activity, body temperature, and plasma corticosterone are most probably coupled to a common internal oscillator in the rat.

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Comparative study on free-running locomotor activity circadian rhythms in Brazilian subterranean fishes with different degrees of specialization to the hypogean life (Teleostei: Siluriformes; Characiformes)

Biological Rhythm Research ◽

10.1080/09291010902731205 ◽

2009 ◽

Vol 40 (6) ◽

pp. 477-489 ◽

Cited By ~ 13

Author(s):

E. Trajano ◽

M. R. Carvalho ◽

L. Duarte ◽

L. Menna-Barreto

Keyword(s):

Locomotor Activity ◽

Circadian Rhythms ◽

Comparative Study ◽

Free Running

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Circadian activity of the white sucker, Catostomus commersoni: comparison of individual and shoaling fish

Canadian Journal of Zoology ◽

10.1139/z80-192 ◽

1980 ◽

Vol 58 (8) ◽

pp. 1399-1403 ◽

Cited By ~ 32

Author(s):

Martin Kavaliers

Keyword(s):

Locomotor Activity ◽

Circadian Rhythms ◽

Social Organization ◽

Constant Darkness ◽

White Sucker ◽

Circadian Period ◽

Circadian Activity ◽

Catostomus Commersoni ◽

Free Running ◽

Precise Version

Individual and shoaling white suckers, Catostomus commersoni, displayed free running circadian rhythms of locomotor activity under conditions of constant darkness and temperature. The circadian activity of shoals was different from that of single fish. The activity of single fish was rhythmic initially with a period of less than 24 h, but became arrhythmic after 15–30 days. Shoals of white suckers had a less variable circadian period that was greater than 24 h, and showed no evidence of arrhythmicity. The circadian activity of shoals is determined by its behavioural and social organization; it is not simply a more precise version of the activity of single fish.

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Magnetic fluctuations affect circadian patterns of locomotor activity in zebrafish

10.1101/2021.09.08.459369 ◽

2021 ◽

Author(s):

Viacheslav V. Krylov ◽

Evgeny I. Izvekov ◽

Vera V. Pavlova ◽

Natalia A. Pankova ◽

Elena A. Osipova

Keyword(s):

Magnetic Field ◽

Circadian Rhythm ◽

Locomotor Activity ◽

Circadian Rhythms ◽

Danio Rerio ◽

Magnetic Fluctuations ◽

Constant Illumination ◽

Free Running ◽

Circadian Patterns

AbstractThe locomotor activity of zebrafish (Danio rerio) has a pronounced, well-studied circadian rhythm. Under constant illumination, the period of free-running locomotor activity in this species usually becomes less than 24 hours. To evaluate the entraining capabilities of slow magnetic variations, zebrafish locomotor activity was evaluated at constant illumination and fluctuating magnetic field with a period of 26.8 hours. Lomb-Scargle periodogram revealed significant free-running rhythms of locomotor activity and related behavioral endpoints with a period close to 27 hours. Obtained results reveal the potential of slow magnetic fluctuations for entrainment of the circadian rhythms in zebrafish. The putative mechanisms responsible for the entrainment are discussed, including the possible role of cryptochromes.

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Circadian rhythms of rabbits during restrictive feeding

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1987.253.1.r46 ◽

1987 ◽

Vol 253 (1) ◽

pp. R46-R54 ◽

Cited By ~ 1

Author(s):

B. Jilge ◽

H. Hornicke ◽

H. Stahle

Keyword(s):

Circadian Rhythm ◽

Locomotor Activity ◽

Circadian Rhythms ◽

Food Access ◽

Feeding Time ◽

Restricted Feeding ◽

Small Component ◽

Physiological Functions ◽

System A ◽

Free Running

Without a zeitgeber the circadian rhythms of five physiological functions free-ran with a period length greater than 24 h. Restricted feeding time (RF) masked the free-running rhythms. In addition to masking, entrainment with RF occurred. This process was most evident in locomotor activity and visits to the food box. RF thus had zeitgeber properties in these rabbits. However, in most rabbits the RF zeitgeber was not strong enough to entrain the circadian rhythm completely. A small component free-ran during RF. Following return to continuous food access the whole circadian rhythm resumed to free-run again. In some animals its phase was determined by the RF zeitgeber and in others by the small free-running fraction present during RF. The results suggest that in addition to the light-dark-entrainable circadian oscillator system a feeding-entrainable oscillator exists that takes over phase control of the majority of the rhythm during RF.

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Behavioral and neurochemical sources of variability of circadian period and phase: studies of circadian rhythms of npy−/− mice

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.00383.2006 ◽

2007 ◽

Vol 292 (3) ◽

pp. R1306-R1314 ◽

Cited By ~ 12

Author(s):

Mary Harrington ◽

Penny Molyneux ◽

Stephanie Soscia ◽

Cheruba Prabakar ◽

Judy McKinley-Brewer ◽

...

Keyword(s):

Locomotor Activity ◽

Circadian Rhythms ◽

Activity Patterns ◽

Circadian Period ◽

Running Wheel ◽

Clock Period ◽

A Value ◽

Free Running ◽

The Mean ◽

Delayed Phase

The cycle length or period of the free-running rhythm is a key characteristic of circadian rhythms. In this study we verify prior reports that locomotor activity patterns and running wheel access can alter the circadian period, and we report that these treatments also increase variability of the circadian period between animals. We demonstrate that the loss of a neurochemical, neuropeptide Y (NPY), abolishes these influences and reduces the interindividual variability in clock period. These behavioral and environmental influences, from daily distribution of peak locomotor activity and from access to a running wheel, both act to push the mean circadian period to a value < 24 h. Magnitude of light-induced resetting is altered as well. When photoperiod was abruptly changed from a 18:6-h light-dark cycle (LD18:6) to LD6:18, mice deficient in NPY were slower to respond to the change in photoperiod by redistribution of their activity within the prolonged dark and eventually adopted a delayed phase angle of entrainment compared with controls. These results support the hypothesis that nonphotic influences on circadian period serve a useful function when animals must respond to abruptly changing photoperiods and point to the NPYergic pathway from the intergeniculate leaflet innervating the suprachiasmatic nucleus as a circuit mediating these effects.

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Endogenous ultradian rhythms in rats exposed to prolonged continuous light

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1978.235.5.r250 ◽

1978 ◽

Vol 235 (5) ◽

pp. R250-R256 ◽

Cited By ~ 8

Author(s):

K. I. Honma ◽

T. Hiroshige

Keyword(s):

Circadian Rhythm ◽

Locomotor Activity ◽

Body Temperature ◽

Circadian Rhythms ◽

Continuous Light ◽

Plasma Corticosterone ◽

Ultradian Rhythm ◽

Ultradian Rhythms ◽

Serial Sampling ◽

Free Running

Circadian rhythms of locomotor activity, body temperature, and plasma corticosterone were determined simultaneously in individual rats that were exposed to 200 lx continuous light for over 3 mo. Free-running circadian rhythms of locomotor activity persisted for about 2 mo under continuous light and then the rhythms gradually decomposed. After 3 mo of exposure, circadian rhythms disappeared and activity bursts of 1- to 2-h duration manifested themselves several times during a 24-h period. Body temperature also exhibited several bursts of fluctuation and these bursts were closely correlated in their temporal sequence with those of locomotor activity. A least-squares spectrum analysis revealed that the burst had regular 4- to 6-h periods. Plasma corticosterone, determined by serial sampling at 2-h intervals from individual rats, also exhibited several secretion episodes in a day. These episodic secretions synchronized with bursts of locomotor activity. These results suggest that the ultradian component, manifested under prolonged continuous light, is a fundamental unit of the circadian rhythm and an oscillator for the ultradian rhythm is common to the three functions examined.

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Hormonal and locomotor activity rhythms in rats under 90-min dark-pulse conditions

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1993.264.6.r1058 ◽

1993 ◽

Vol 264 (6) ◽

pp. R1058-R1064

Author(s):

M. L. Laakso ◽

T. Porkka-Heiskanen ◽

L. Leinonen ◽

S. L. Joutsiniemi ◽

P. T. Mannisto

Keyword(s):

Circadian Rhythm ◽

Locomotor Activity ◽

Circadian Rhythms ◽

Serum Levels ◽

Thyroid Stimulating Hormone ◽

Diurnal Variations ◽

Serum Corticosterone ◽

Pineal Melatonin ◽

Free Running ◽

Dark Pulse

The ability of a short dark pulse to entrain the circadian rhythms in rats was investigated. Pineal melatonin contents and serum levels of corticosterone and thyrotropin, a thyroid-stimulating hormone (TSH), were measured and locomotor activity was recorded under 12:12-h light-dark cycles (LD; darkness from 1800 to 0600 h) and under a 22.5:1.5 h LD lighting schedule (darkness from 1800 to 1930 h). The 90-min dark pulse was enough to trigger the rise of melatonin synthesis, but a free-running component was detected in the locomotor activity. Corticosterone levels showed diurnal variations under both conditions. The decrease of corticosterone and the increase of melatonin were phase locked, but the corticosterone pattern was distorted under the dark-pulse conditions. The 24-h rhythm of TSH was detectable in the control but not in the dark-pulse schedule. The results suggest that the circadian rhythm of pineal melatonin and the decrease of serum corticosterone levels were entrainable by the dark pulses, whereas the increase of corticosterone, the variations of TSH, and the rhythm of locomotor activity were not.

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Entrainment of circadian rhythms of locomotor activity by ambient temperature cycles in the dromedary camel

Scientific Reports ◽

10.1038/s41598-020-76535-y ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Hicham Farsi ◽

Mohamed R. Achaâban ◽

Mohammed Piro ◽

Béatrice Bothorel ◽

Mohammed Ouassat ◽

...

Keyword(s):

Locomotor Activity ◽

Body Temperature ◽

Circadian Rhythms ◽

Ambient Temperature ◽

Cycle Phase ◽

Dromedary Camel ◽

Dark Cycle ◽

Free Running ◽

Activity Onset ◽

Master Clock

Abstract In the dromedary camel, a well-adapted desert mammal, daily ambient temperature (Ta)-cycles have been shown to synchronize the central circadian clock. Such entrainment has been demonstrated by examining two circadian outputs, body temperature and melatonin rhythms. Locomotor activity (LA), another circadian output not yet investigated in the camel, may provide further information on such specific entrainment. To verify if daily LA is an endogenous rhythm and whether the desert Ta-cycle can entrain it, six dromedaries were first kept under total darkness and constant-Ta. Results showed that the LA rhythm free runs with a period of 24.8–24.9 h. After having verified that the light–dark cycle synchronizes LA, camels were subjected to a Ta-cycle with warmer temperatures during subjective days and cooler temperatures during subjective nights. Results showed that the free-running LA rhythm was entrained by the Ta-cycle with a period of exactly 24.0 h, while a 12 h Ta-cycle phase advance induced an inversion of the LA rhythm and advanced the acrophase by 9 h. Similarly, activity onset and offset were significantly advanced. All together, these results demonstrate that the Ta-cycle is a strong zeitgeber, able to entrain the camel LA rhythm, hence corroborating previous results concerning the Ta non-photic synchronization of the circadian master clock.

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