Albedo and transmittance of short-wave radiation for bat wings

1. 1.|Independent of their diverse feeding habits almost all bats are nocturnal. One hypothesis for chiropteran nocturnality is that bats flying in the day experience fatal hyperthermia because their wings take up significant amounts of short-wave radiation which they are unable to dissipate convectively. Factors that will critically affect a bat's susceptibility to overheating are the albedo and transmittance of wing membranes to short-wave radiation.

2. 2.|Albedo of taut segments of bat wings from four species of insectivorous bats and one Pteropid varied between 0.026 (for Rhinolophus hipposideros) and 0.069 (Plecotus auritus).

3. 3.|Transmittance exceeded albedo in all species studied and varied from 0.077 (Pipistrellus pipistrellus) to 0.194 (P. auritus). In this small sample there was no relationship between albedo and transmittance.

4. 4.|Total absorbed short-wave radiation amounted to between 70 and 92% of the incident radiation, and averaged 81.9% (SE = 2.4%, n = 9). Given a clear sky short-wave flux density of about 971 W · m⁻² a typical small insectivorous bat (5g, wing AREA = 0.013 m², ABSORPTIVITY = 81.9%) with fully outstretched wings and the sun directly overhead would absorb about 10.65 W, compared with the maximum endogenous heat production from flight of 0.83 W.

5. 5.|Predicted maximum exogenous heat load relative to maximum endogenous heat load declined as a function of body mass, however, even in the largest known bats (1.4 kg) the exogenous burden exceeded by a factor of 3 the endogenous heat load.

提高人类表现的动态光照明

讨论了基于LED和荧光灯光源以及有无紫外线光谱的动态光照明的分类和应用.介绍了基于荧光灯的动态光照明历史.并讨论了发光二极管技术应用于动态光照明的原因.综述了动态光照影响人体皮质醇,褪黑素,警觉性,体温和情绪的作用机理.并介绍紫外线照射的安全标准.提出了一种理想的动态光照明,此种动态光考虑显色指数,色温,光照度,光谱结构和动态变化.     

When the sun never sets: diverse activity rhythms under continuous daylight in free-living arctic-breeding birds

Circadian clocks are centrally involved in the regulation of daily behavioural and physiological processes. These clocks are synchronized to the 24 h day by external cues (Zeitgeber), the most important of which is the light–dark cycle. In polar environments, however, the strength of the Zeitgeber is greatly reduced around the summer and winter solstices (continuous daylight or continuous darkness). How animals time their behaviour under such conditions has rarely been studied in the wild. Using a radio-telemetry-based system, we investigated daily activity rhythms under continuous daylight in Barrow, Alaska, throughout the breeding season in four bird species that differ in mating system and parental behaviour. We found substantial diversity in daily activity rhythms depending on species, sex and breeding stage. Individuals exhibited either robust, entrained 24 h activity cycles, were continuously active (arrhythmic) or showed ‘free-running’ activity cycles. In semipalmated sandpipers, a shorebird with biparental incubation, we show that the free-running rhythm is synchronized between pair mates. The diversity of diel time-keeping under continuous daylight emphasizes the plasticity of the circadian system, and the importance of the social and life-history context. Our results support the idea that circadian behaviour can be adaptively modified to enable species-specific time-keeping under polar conditions.     

Seven-year survey of sleep timing in Russian children and adolescents: chronic 1-h forward transition of social clock is associated with increased social jetlag and winter pattern of mood seasonality

Previous studies indicate that solar clock (daily changes in the Earth’s surface illumination) is a main zeitgeber for human circadian system. It has been shown that human biological clock is weakly adjusted to such changes in social clock as daylight saving time (DST). There are two changes of social clock in Russian Federation: on 25 March 2011, DST has been replaced by permanent DST (DSTp), which was subsequently revoked on 26 October 2014 (non-DSTp). These manipulations with social clock may lead to prolonged disturbances of human circadian system. Our hypothesis is that during period of DSTp, the dissociation between social and biological clocks was greatest as compared with DST and non-DSTp periods. Here, we examine the effects of DSTp on the sleep timing, social jetlag (SJL), academic performance, and winter and summer seasonality of mood and behavior of 10–24-year-old inhabitants of European North of Russia. A cross-sectional retrospective analysis of questionnaire data (n = 7968) was performed using chi squared-test and analysis of covariance. Our findings indicate that SJL (F_2,7967 = 31.9; p < 0.0001; η² = 0.009), and winter pattern of mood seasonality (χ²_2,7967 = 10.5; p < 0.01) were increased in adolescents during the period of DSTp as compared with DST and non-DSTp periods. The largest increase in SJL was occurred in ages between 10 and 17-year-olds. The finding suggests that increase in SJL can be attributed to a later rise time on free days (F_2,7967 = 44.9; p < 0.0001; η² = 0.012). Similar changes were observed in three subsamples obtained in Syktyvkar, Petrozavodsk, and Vorkuta. Effect sizes of studied relationships were small or very small. The greatest effect sizes (η² ～ 0.05) were observed in Arctic city of Vorkuta indicating that in polar region, solar clock is still stronger zeitgeber for human circadian system, than the social clock. In conclusion, we have shown for the first time that there is a greatest dissociation between social and biological clocks during the period of DSTp which potentially exerts a negative influence on adolescents’ sleep habits, mood, and behavior. Our data indicate that “non-DSTp” social clock system most suitable for prevention dissociation between social and biological clocks.     

Effects of Transitions into and out of Daylight Saving Time on the Quality of the Sleep/Wake Cycle: an Actigraphic Study in Healthy University Students

The main goal of the present study was to examine the effects of transition into and out of daylight saving time (DST) on the quality of the sleep/wake cycle, assessed through actigraphy. To this end, 14 healthy university students (mean age: 26.86?±?3.25?yrs) wore an actigraph for 7?d before and 7?d after the transition out of and into DST on fall 2009 and spring 2010, respectively. The following parameters have been compared before and after the transition, separately for autumn and spring changes: bedtime (BT), get-up time (GUT), time in bed (TIB), sleep onset latency (SOL), fragmentation index (FI), sleep efficiency (SE), total sleep time (TST), wake after sleep onset (WASO), mean activity score (MAS), and number of wake bouts (WB). After the autumn transition, a significant advance of the GUT and a decrease of TIB and TST were observed. On the contrary, spring transition led to a delay of the GUT, an increase of TIB, TST, WASO, MAS, and WB, and a decrease of SE. The present results highlight a more strong deterioration of sleep/wake cycle quality after spring compared with autumn transition, confirming that human circadian system more easily adjusts to a phase delay (autumn change) than a phase advance (spring transition).     

Cost reduction in the micropropagation of banana by using tubular skylights as source for natural lighting

Summary Daylight instead of artificial light was exploited for the in vitro culture of banana. Tubular skylights rediverted natural light into an interior enelosed room whereby each skylight, available for ca. US$600, could sufficiently illuminate an area of 3–5 m². The maintenance-free system allowed only a minimum of heat transfer and no cooling was necessary. The culture room required no electricity supply and under our conditions savings on costs for electricity of US$6 m⁻² wk⁻¹ were achieved, as compared to a standard growth room equipped with artificial lighting and controlled photoperiod and temperature regimes. Under natural light conditions, micropropagated plantlets were well developed at mean photosynthetic photon flux densities (PPFD) of 5–13 μmol m⁻² s⁻¹ and photoperiods of 9–14 h. Micropropagation rates were either the same or significantly higher than under artificial lighting. Single shoots on rooting medium showed some symptoms of etiolation, yet acclimatization rates averaged 95%. A step-like culture rack. rather than a vertical one, permitted uniform plant growth on all levels. This paper describes an established micropropagation system of low cost and simplicity.     

The effects of season,daylight saving and time of sunrise on serum cortisol in a large population

Cortisol is critical for maintenance of health and homeostasis and factors affecting cortisol levels are of clinical importance. There is conflicting information about the effects of season on morning cortisol and little information on the effects of sunlight on population cortisol assessment. The aim of this study was to assess whether changes in median serum cortisol occurred in a population in conjunction with changing seasons, daylight saving time (DST) or time of sunrise. We analysed serum cortisol results (n?=?27 569) from a single large laboratory over a 13-year period. Subjects with confounding medications or medical conditions were excluded and data analysed in 15-minute intervals. We assessed the influence of traditional seasons, seasons determined by equinox/solstice, DST and time of sunrise on median cortisol. The median time of cortisol collection did not vary significantly between seasons. Using traditional seasons, median cortisol was lowest in summer (386?nmol/L) and spring (384?nmol/L) with higher cortisol in autumn (406?nmol/L) and winter (414?nmol/L). Median cortisol was lowest in the summer solstice quarter with significant comparative increases in the spring equinox quarter (3.1%), the autumn equinox quarter (4.5%) and the winter solstice quarter (8.6%). When cortisol was modelled against time, with adjustment for actual sunrise time on day of collection, for each hour delay in sunrise there was a 4.8% increase in median cortisol (95% CI: 3.9–5.7%). In modelling to explain the variation in cortisol over the morning, sunrise time was better than season in explaining seasonal effects. A subtle cyclic pattern in median cortisol also occurred throughout the months of the year. A 3-year trial of DST allowed comparison of cortisol in DST and non DST periods, when clock time differed by one hour. There was modest evidence of a difference in acrophase between DST and non DST cortisol (p?=?0.038), with DST peak cortisol estimated to occur 58?minutes later than non-DST peak. In summary, we found that time of sunrise and time of cortisol collection were the most important factors influencing median cortisol. For each hour later that the sun rose there was an almost 5% increase in median cortisol. There was significant seasonal variability with lowest cortisol noted in summer coinciding with the earliest sunrise time. This is an important finding which is consistent with the understanding that light is the major zeitgeber in entrainment of the human circadian cortisol rhythm. Our data suggest this rhythm is resistant to the arbitrary changes in clock time with daylight saving.