A latitudinal cline in the efficacy of endogenous signals: evidence derived from retinal cone contraction in fish.

Like many physiological systems synchronised to the light:dark cycle, retinomotor movements in 'lower' vertebrates are controlled by both the ambient illumination and input from endogenous circadian oscillators. In the present study, we examine the relative influence of these two signals in various species of teleost fish with different latitudes of origin. We find equatorial species show very strong endogenous control. The cones of the glowlight tetra, for example, continue to go through undiminished cycles of contraction and relaxation that mirror the previous light:dark cycle for at least two weeks in continual darkness. To quantify the relative effectiveness of the ambient light compared with endogenous signals in causing cone contraction, the degree to which seven teleost species responded to light during the dark phase of their light:dark cycle was examined. In this situation the retina receives conflicting instructions; while the light is acting directly to cause light adaptation, any endogenous signal tends to keep the retinal elements dark adapted. The further from the equator a species originated, the more its cones contracted in response to such illumination, suggesting animals from higher latitudes make little use of endogenous oscillators and rely more on ambient illumination to control behaviours. Equatorial species, however, rely on internal pacemakers to a much greater degree and are relatively insensitive to exogenous light signals. Because these data are consistent with published observations in systems as diverse as melatonin synthesis in Arctic reindeer and the behaviour of regional populations of Drosophila, latitudinal clines in the efficacy of circadian oscillators may be a common feature among animals

Effects of altitude on circadian rhythm of adult locomotor activity in Himalayan strains of Drosophila helvetica

BACKGROUND: We recently reported that the altitude of origin altered the photic and thermal sensitivity of the circadian pacemaker controlling eclosion and oviposition rhythms of high altitude Himalayan strains of Drosophila ananassae. The present study was aimed at investigating the effects of altitude of origin on the pacemaker controlling the adult locomotor activity rhythm of D. helvetica. METHODS: Locomotor activity rhythms of the high altitude Himalayan (haH) strain (Hemkund-Sahib, 4,121 m above sea level) and the low altitude Himalayan (laH) strain (Birahi, 1,132 m a.s.l.) of D. helvetica were assayed by two experiments. The first experiment examined the natural entrainment pattern in light-dark (LD) cycles at the breeding site of each strain. The second experiment examined the entrainment parameters in LD 12:12 cycles and the period of free-running rhythm in constant darkness (DD) under controlled laboratory conditions. RESULTS: When entrained by natural or artificial LD cycles, the haH strain had an unimodal activity pattern with a single peak that commenced in the forenoon and continued till evening, while the laH strain had a bimodal activity pattern in which the morning peak occurred before lights-on and was separated by about 4 h from the evening peak. Unimodality of the haH strain was retained in DD; however, bimodality of the laH strain was abolished in DD since the evening peak disappeared immediately after the trasfer from LD 12:12 to DD. The period of the free-running rhythm of the haH strain was ~26.1 h, whereas that of the laH strain was ~21.7 h. CONCLUSION: Parameters of entrainment and free-running rhythm of the adult locomotor activity of the haH strain of D. helvetica were strikingly different from those of the laH strain and were likely due to ecological adaptations to the prevailing environmental conditions at the altitude where the species evolved

Effect of Task Oriented Circuit Training Versus Trunk Rehabilitation on Balance, Trunk Control and Functional Ambulation in Chronic Stroke Patients: A Comparative Study

Introduction: Stroke is the second or third most common cause of death, one of the main causes of adult disability worldwide and is global health problem. Stroke leads to impairments in balance, trunk control and ambulation leading to increased disability. It is observed in few studies that task oriented circuit training and trunk rehabilitation training both are effective to improve balance, trunk control and ambulation in stroke patients. There are hardly any literatures that have been done to compare the effectiveness of task oriented circuit training and trunk rehabilitation on balance, trunk control and functional ambulation in chronic stroke patients. Method: In this study total 30 patients were selected and were allocated in two groups. Group A received task oriented circuit training and Group B received trunk rehabilitation for 4 weeks. Pre and post treatment balance, trunk control and functional ambulation were assessed using berg balance scale, trunk impairment scale and functional ambulatory category respectively. Results: Balance, trunk control and functional ambulation significantly improved (p &lt;0.001. Comparison between groups showed that Task oriented circuit training was more effective in improving balance, trunk rehabilitation was more effective in improving trunk control and both were equally effective in improving functional ambulation in chronic stroke patients. Conclusion: Task oriented circuit training is more effective in improving balance, trunk rehabilitation is more effective in improving trunk control and both are equally effective in improving functional ambulation in chronic stroke patients. Key words: stroke, balance, trunk control, ambulation, circuit training, trunk rehabilitation</jats:p

Effects of altitude on circadian rhythm of adult locomotor activity in Himalayan strains of <it>Drosophila helvetica</it>

Abstract Background We recently reported that the altitude of origin altered the photic and thermal sensitivity of the circadian pacemaker controlling eclosion and oviposition rhythms of high altitude Himalayan strains of Drosophila ananassae. The present study was aimed at investigating the effects of altitude of origin on the pacemaker controlling the adult locomotor activity rhythm of D. helvetica. Methods Locomotor activity rhythms of the high altitude Himalayan (haH) strain (Hemkund-Sahib, 4,121 m above sea level) and the low altitude Himalayan (laH) strain (Birahi, 1,132 m a.s.l.) of D. helvetica were assayed by two experiments. The first experiment examined the natural entrainment pattern in light-dark (LD) cycles at the breeding site of each strain. The second experiment examined the entrainment parameters in LD 12:12 cycles and the period of free-running rhythm in constant darkness (DD) under controlled laboratory conditions. Results When entrained by natural or artificial LD cycles, the haH strain had an unimodal activity pattern with a single peak that commenced in the forenoon and continued till evening, while the laH strain had a bimodal activity pattern in which the morning peak occurred before lights-on and was separated by about 4 h from the evening peak. Unimodality of the haH strain was retained in DD; however, bimodality of the laH strain was abolished in DD since the evening peak disappeared immediately after the trasfer from LD 12:12 to DD. The period of the free-running rhythm of the haH strain was ~26.1 h, whereas that of the laH strain was ~21.7 h. Conclusion Parameters of entrainment and free-running rhythm of the adult locomotor activity of the haH strain of D. helvetica were strikingly different from those of the laH strain and were likely due to ecological adaptations to the prevailing environmental conditions at the altitude where the species evolved.</p

Dataset: Chronotype and Academic Performance by Time Of Day

This dataset contains the Morningness-Eveningness Quotient scores and Grade Point Averages (by time of day of class) for 402 traditional first-time freshmen (aged 17-19 years) collected during the Fall 2018 semester at Oral Roberts University. We also provide the demographic data of gender, college, major, and US citizenship status. The protocol for data collection and storage was approved by Oral Roberts University’s Institutional Review Board.<br

Does human evolution in different latitudes influence susceptibility to obesity via the circadian pacemaker?

The variable photoperiods of Northern latitudes challenge the entrainment capacity of the circadian pacemaker, which evolved under constant photoperiods in Equatorial regions. Entrainment to the erratic photoperiods facilitated by artificial light presents an additional challenge. Metabolic dysfunction and obesity are potential consequences of such desynchronization of circadian and environmental rhythms