Circadian Locomotor Activity in Freshwater Decapods: An Ecological Approach

Circadian rhythms of locomotor activity shown by freshwater decapods display different patterns among crayfish, Procambarus, and crabs, when exposed to artificial light-dark cycles. Crayfish are mainly nocturnal while a crepuscular activity is observed in crabs of the genus Pseudothelphusa. In constant darkness, free running rhythms are displayed in unimodal or bimodal patterns by crayfish Procambarus; however, Pseudothelphusa continues to show bimodal rhythms. The many studies using locomotor activity indicate that the rhythm in freshwater crabs is circadian in nature, but that a multioscillatory system may be controlling the overt rhythm. In the present study, the implications of different locomotor activity patterns are analyzed in selected freshwater decapods with regard to the interactions between light and the organisms. Crabs and crayfish are commonly found in similar habitats, often sharing the same environment; however, different patterns of locomotor activity as well as different sensitivities of the bouts of activity with regard to entrainment by light, indicate that distinct temporal niches may exist that result in temporal exclusion or low competition.     

The diversity of temporal niches in mammals

The division of animals into those that are diurnal (day-active) and those that are nocturnal (night-active) is widely recognized. However, closer examination of the selection of temporal niches by mammalian species reveals the existence of a gradient of diurnality between and within species, wherein “diurnal” and “nocturnal” are merely the opposite ends of a continuum. Evidence against a simple diurnal - nocturnal dichotomy includes the existence of species without any preference for time of day, species with a crepuscular pattern of activity, species containing both diurnal and nocturnal individuals, species containing individuals that spontaneously shift from a nocturnal to a diurnal activity pattern, species showing degrees of diurnality greater or smaller than those of other species, organismal variables exhibiting degrees of diurnality greater or smaller than those of other variables, and species having different temporal patterns under the effects of different environmental variables. Research on the neural processes responsible for temporal niche selection has revealed no fundamental difference between the circadian clocks of diurnal and nocturnal animals, but recent findings suggest that different output pathways from the clock in a given species may operate with different circadian phases, thus providing an explanation for why different body functions in the same individual are subjected to different temporal niche selections.     

Circadian and ultradian activity rhythms in male long‐evans rats: Relationship to feeding

Abstract

Rats exhibit ultradian as well as circadian rhythms in activity. Short‐term activity rhythms appear to result from bouts of feeding‐related behavior interspersed with periods of quiescence. We examined the relationship of activity to feeding in 12 male Long‐Evans derived rats during ad lib and restricted feeding (RF) conditions to determine the effect of RF on both circadian and ultradian activity rhythms. By the end of 20 days of RF all animals exhibited an ultradian periodicity of approximately 12 hours. A twenty‐four hour rhythm in feeding persisted, apparently due to the rats adapting to the diurnal feeding period. General findings were that RF resulted in anticipatory activity prior to feeding and that short‐term activity fluctuations and investigations of the food bin continued during RF even though overall nocturnal activity decreased. The results suggest that male rats of this strain exhibit ultradian activity rhythms that appear to be strongly related to feeding.     

Effects of lithium salts on the behaviour and the orcadian system of Mesocricetus auratus W.

Abstract

LiCl (195 μg/g body weight and day) reduces water uptake in Syrian hamsters by 40%. Sleep duration is increased from 50% per day to 60% per day. Other behavioural items are hardly influenced. Shortening and lengthening of the circadian period was induced by Li⁺ in individual hamsters, but the mean period of the population was not changed. The upper limit of entrainment is increased by Li⁺.     

Mirror imaging phase response curves obtained for the circadian rhythm of a bat with single steps of light and darkness∗

Abstract

The circadian rhythm in the flight activity of a tropical microchiropteran bat Taphozous melanopogon responds at all phases with delay phase shifts to single light‐on steps (DD/LL transfers). The circadian rhythm responds at all phases with advance phase shifts to single light‐off steps (LL/DD transfers). Phase shifts were measured from the delays or advances of the onsets of flight activity on days following DD/LL and LL/DD transfers relative to the temporal course of the onsets of activity in controls. The magnitude of the phase shifts was a function of the phases in which the transfers were made. The On‐PRC and Off‐PRC plotted from such data are mirror‐images in their time‐course and wave‐form.

The phase shifts of the circadian rhythm in either direction were accompanied by changes in period (for the duration of our recordings after die transfer). The period lengthened following a delay shift and it shortened following an advance shift. The phase shifts are abrupt and discernible in the first cycle after perturbation. There are no transients.     

Circadian rhythms of demand-feeding and locomotor activity in rainbow trout

Under free-running conditions, most rainbow trout displayed circadian feeding rhythms, although the expression of circadian rhythmicity depended on the experimental condition: 16·7% of fish under constant dim light (LL dim), 66·1% under a 45 :45 min light-dark cycle (LD pulses), and 83·8% under constant light (LL). Under LD pulses, the period length of the free-running rhythms for feeding was significantly shorter (21·9 ± 0·7 h, n =8) than under LL (26·2 ± 0·3 h, n =10). Period length for locomotor activity under LL was 25·8 ± 0·6 h ( n =4). Under LD conditions, the daily demand-feeding profile was always confined to the light phase and chiefly composed of two main episodes, directly after lights on (light elicited) and in anticipation to lights off (endogenous). Contrasting to feeding, the diel locomotor activity profile varied remarkably: a diurnal activity pattern at the bottom, while a clearly nocturnal pattern at the surface. These results contribute to a better understanding of feeding and locomotor rhythms of rainbow trout, providing evidence for the existence of a biological clock involved in their circadian control. This finding contrasts with the previously recorded lack of an endogenous oscillator in the pineal organ driving the rhythmic secretion of melatonin, which suggests different locations from the pineal for the circadian pacemakers in this species.     

Emergence rhythms and protandry in relation to daily patterns of locomotor activity inTrichogramma species

Summary In insect parasitoids, the mating structure of the population depends on the emergence pattern of adults and on their behaviour after emergence. In order to study some aspects of these characteristics in four species of egg parasitoid of the genusTrichogramma, laboratory experiments using automatic video analysis are performed. Adult emergence is concentrated in the morning, with an earlier time for males. The variability of the time of emergence is under genetic control. The relationships between the emergence pattern and the locomotor activity are considered by measuring individually: first, the delay between the emergence and the first locomotion which is significantly greater in females than in males and, second, the activity of newly emerged males, which is maximum at the time of the emergence of females. The locomotor activity is influenced by mating; mated females are much more active than virgin ones, mated males are less active than virgin ones. The adaptive values of the rhythmicity of emergence and of protandry are discussed together with their relationship with the patterns of locomotor activity. The results are also considered with respect to mating strategies in insect parasitoids; they actually support the hypothesis of mating occurring principally among individuals native to the same host patch inTrichogramma species.     

The effects of Tat protein on locomotor activity and circadian gene expressions in the mouse hypothalamus

Transactivator (Tat), a regulatory protein of HIV-1, plays a very important role in HIV-1 infection by promoting the rapid replication of HIV. Research surrounding Tat protein function has mainly focused on inhibition of the immune system, promotion of growth of vascular endothelial cells, and nervous system damage. To date, very little research has addressed the role of Tat in circadian rhythms. Previous studies in our lab have found that the concentration of Tat protein in HIV patients’ blood was positively correlated with patients’ sleep quality and melatonin concentrations. In this study, we applied a Tat expression plasmid in mice. Result demonstrated that the locomotor activities of mice and the concentration of melatonin were significantly increased. Alternatively, the expression of Clock gene was markedly decreased. On the other hand, the expression of the Cry1 gene was significantly increased, while the expression of Bmal1 and Per1 genes exhibited no significant difference.     

蚤蝇的昼夜活动节律及睡眠行为研究

蚤蝇是重要的法医昆虫,同时是实验室中遗传、发育和生物测定等研究的重要对象。然而,蚤蝇的昼夜活动节律和睡眠行为及其在脑部的神经网络目前还不清晰。本文通过捕获本地蚤蝇并对其进行分子鉴定,研究了蚤蝇的昼夜活动节律和睡眠行为,同时表征了蚤蝇脑部核心钟神经元和多巴胺神经元。结果表明:蚤蝇在12h光照∶12h黑暗(12L∶12D)条件下不存在对开灯前或关灯前的活动预期,其双峰活动模式是对开关灯的光反应行为。在全黑暗(DD)条件下蚤蝇内源活动周期接近24h。黑腹果蝇神经肽PDF抗体免疫显示蚤蝇脑部核心钟神经元4~5个,不像黑腹果蝇一样存在明显的神经轴突。在睡眠行为上,蚤蝇雄虫和雌虫在整体活动强度、睡眠节律模式、总睡眠上均没有明显差异。相反,雄虫总睡眠次数和晚上睡眠次数低于雌虫,而总睡眠持续时间、晚上睡眠持续时间、总入睡时间和晚上入睡时间高于雌虫。此外,影响睡眠的重要多巴胺神经元在蚤蝇脑部的分布与黑腹果蝇类似。     

Residual circadian rhythmicity after bilateral lamina-medulla removal or optic stalk transection in the cricket, Gryllus bimaculatus

Bilateral optic stalk severance or lamina-medulla region removal were carried out in 47 adult male crickets Gryllus bimaculatus DeGeer. Effects of the operations on circadian locomotor activity were investigated under 12 h light: 12 h dark and at a constant temperature of 26°C. In the pre-operative days, 39 of the animals showed a typical nocturnal activity rhythm (normal rhythm), but the remaining 8 exhibited an atypical rhythm which is diurnal rather than nocturnal (abnormal rhythm). The operations eventually caused an arrhythmicity in all animals, suggesting that the crucial part of the central nervous system controlling the cricket circadian activity is located in the lamina-medulla region. However, in some of the post-operative crickets, the rhythm did not immediately disappear but persisted for a while: the diurnal increase of activity was observed up to 2 weeks in all 8 abnormal- and 4 normal-rhythm animals. In addition, 8 out of 39 normal-rhythm animals showed a single well-defined post-operative peak which occurred approximately in phase with the nocturnal peak prior to surgery. These results are discussed in relation to a possibility of involvement of the oscillatory structure outside the optic lobes.     

Circadian Rhythms in Amphibians and Reptiles: Ecological Implications

Circadian rhythms of amphibians and reptiles in the field and under semi-natural conditions and the underlying mechanisms, including the ways of entrainment to environmental cues and the oscillators driving the rhythms, have been reviewed. Studies on the behavioral rhythms in the field are meager in both amphibians and reptiles. In anuran amphibians, Xenopus adults showed more robust nocturnal locomotor activity than did tadpoles. This indicates the ecological significance of the differences in activity pattern shown by amphibians at different life stages, because differences between adults and young in the same environment may serve to isolate partially the young from the adults' cannibalism. In reptiles, free-running rhythms are more robust and continue for a longer time compared to amphibians. In both amphibians and reptiles, multi-photoreceptors are involved in photo-entrainment of circadian rhythms. The eyes, pineal complex and deep brain comprise a multi-oscillator system as well as a multi-photoreceptor system.     

Social isolation of mice: activity rhythm changes and the expression of clock

Social isolation usually affects the physical and mental health of the human and produces depression, whether it may relate with circadian rhythm still remains to be investigated. Two groups of mice were employed to this experiment to continuously monitoring their activities in a dark environment. Immunofluorescence was used to show the expression of the circadian clock gene in two groups of mice. The results demonstrate that the social isolation leads to decrease of mouse activities, phase advance of rhythm relatively and down-regulated of clock gene expression. We conclude that social isolation can affect the physiological function and the normal physiological rhythm of mice, which may be related to depression.     

Assessment of Anxiety Level and Mental Health Status in Spouses and Children of Day-Working and Shift-Working Men

The present study was aimed at assessing the effects of the unusual schedules of shift-working men on anxiety and mental health of their spouses and children. The anxiety and mental health of 396 subjects that include 133 spouses and 263 children of day-working and shift-working men were monitored by employing specific inventory. Anxiety scales (trait, state and free-floating) and mental health inventory were administrated to each subject. Results indicate that the average levels of free-floating anxiety for the spouses and children of shift-working men were found to be significantly higher in comparison with that of their counterparts sampled in the family of day workers. This was also true when data were segregated with respect of gender and compared. Except in female children of shift workers all other groups of children had statistically significantly higher level of state anxiety as compared with that of their respective mothers. The results of this study further reveal that the spouses of shift-working men exhibited lower mental health rating as compared with the spouses of day-working men. Furthermore, a significant negative relationship was noticed between anxiety and mental health in all cases excepting in spouses of shift-working men for state anxiety. Although the findings of the present study could be attributed to the irregular routine of shift workers, it appears mandatory to carryout further intensive studies to draw convincing conclusions.     

Photic entrainment of daily rhythm pattern of locomotor activity in sea bass (Dicentrarcus labrax)

The aim of this study was to evaluate the circadian rhythm of daily locomotor activity in sea bass exposed to three different artificial lighting regimes including 12/12, 24/0, and 0/24 L/D periods, and scheduled daytime feeding. Daily rhythm of locomotor activity during 12/12 L/D was observed, whereas locomotor activity recorded during 24/0 and 0/24 L/D resulted arrhythmic. Statistical differences in mesor values among the photoperiods and between light and dark phases of each photoperiod were found. During the 12/12 and 0/24 L/D, the fish were active mostly during the light phase. During 24/0 L/D, a phase inversion occurred. The results showed that photoperiod is a dominant synchronizer in sea bass, and that the appetite in this fish follows daily rhythms which does not match the imposed feeding schedule, suggesting the absence or the lability of internal process that couples feeding cycles and biological rhythms.