Der Anwendungszeitraum als lernbare Größe1

The possibility of learning time intervals was examined. 7 male BDE-rats (70 days old at the beginning of the experiments) were trained (shock avoidance learning) in a modified test chamber to learn bar-pressing only in distinguished time periods (LD 12: 12). In a second part of the experiment it was examined with 5 rats what effect an extension of the light phase has. The results show that there is a possibility of learning time intervals and of maintaining this behaviour under these specific conditions of training.     

Day–Night Differences in Membrane‐Bound Pyroglutamyl‐2‐Naphthylamide‐Hydrolyzing Activity in Rat Hypothalamus,Pituitary, and Retina

Membrane‐bound pyroglutamyl‐2‐naphthylamide‐hydrolyzing enzyme activity was analyzed fluorometrically in the anterior hypothalamus, pituitary, and retina of adult male rats to investigate day–night differences. Six groups (n=6 per group) were assessed—three during the light span and three during the dark span—under a standard 12 h–12 h light–dark cycle (light on from 07:00 to 19:00 h) and controlled temperature environment, with food and water available ad libitum. In the hypothalamus, enzyme activity levels were higher for time points of the dark than the light period. In contrast, the pituitary and retina exhibited the highest levels at the time points of the light period. The pituitary and retina also exhibited significant differences between the clock‐hour means of the light period. Day–night differences in membrane‐bound pyroglutamyl‐2‐naphthylamide‐hydrolyzing activity may reflect differences in its susceptible endogenous substrates.     

Dominance status and certain operants in a communal colony of rhesus macaques

This study was designed to test the hypothesis that in some species of primates individual differences in responsiveness to certain situations is related to dominance status. During the first phase of the study, the existence of a linear dominance hierarchy was confirmed by ratings of agonistic interactions. In the second phase, bar-pressing behavior was recorded on a cumulative recorder while the experimenter simultaneously rated, at 30-second intervals, all animals present in the research setting. Results indicated that dominance status was systematically related both to rate of bar-pressing and to duration of response blocks, with the more dominant animals bar-pressing at slower rates for longer blocks of time. The finding that individual differences in rate did not vary with social context suggests that dominance-related differences in responsiveness may be quite stable. Certain dominancerelated trends in the variation of social context in the research setting were also noted.     

Variation in the Behavior of the Amphipod Gammarus pulex

Variation in the locomotion behavior of Gammarus pulex was studied using the Multispecies Freshwater Biomonitor®. Behavior was recorded individually under a 12:12 h light:dark cycle for a period of 7 d during which the amphipods were not fed. Gammarids behaved differently during the first 7 h in the laboratory chambers. Most specimens were active and decreased their activity but some were relatively inactive after the start of the experiment and increased their locomotion. At least 2 h are needed by G. pulex to accustom to the conditions. No significant relationships existed between type of behavior during the acclimation period or acclimation time and gender or length of the gammarids. There was a large variation in time spent on locomotion during the first night. In general, males were significantly more active than females. Within males, a distinction can be made between very active and less active specimens. The 7-d observation period showed that only 70% of the specimens demonstrated a clear day–night rhythm with higher activity during the night. Unexpectedly, approximately 10% of the specimens were more active during daytime. Furthermore, in this study locomotion became relatively stable only after 4 d. Inter-individual variation in behavior must be taken into account when using behavior as an endpoint in ecotoxicological bioassays.     

The human circadian pacemaker can see by the dawn's early light

The authors' previous experiments have shown that dawn simulation at low light intensities can phase advance the circadian rhythm of melatonin in humans. The aim of this study was to compare the effect of repeated dawn signals on the phase position of circadian rhythms in healthy participants kept under controlled light conditions. Nine men participated in two 9-day laboratory sessions under an LD cycle 17.5:6.5 h, < 30:0 lux, receiving 6 consecutive daily dawn (average illuminance 155 lux) or control light (0.1 lux) signals from 0600 to 0730 h (crossover, random-order design). Two modified constant routine protocols before and after the light stimuli measured salivary melatonin (dim light melatonin onset DLMOn and offset DLMOff) and rectal temperature rhythms (midrange crossing time [MRCT]). Compared with initial values, participants significantly phase delayed after 6 days under control light conditions (at least -42 min DLMOn, -54 min DLMOff, -41 min MRCT) in spite of constant bedtimes. This delay was not observed with dawn signals (+10 min DLMOn, +2 min DLMOff, 0 min MRCT). Given that the endogenous circadian period of the human circadian pacemaker is slightly longer than 24 h, the findings suggest that a naturalistic dawn signal is sufficient to forestall this natural delay drift. Zeitgeber transduction and circadian system response are hypothesized to be tuned to the time-rate-of-change of naturalistic twilight signals.     

Daily rhythms in the sorghum shootfly, Atherigona soccata: oviposition, egg-hatch and adult eclosion

ABSTRACT. Daily rhythms controlling oviposition, egg-hatching and adult eclosion in the sorghum shootfly, Atherigona soccata Rondani, were investigated. Eggs were laid only during the photophase of a LD 12:12 cycle, in two peaks. Under continuous light, this oviposition was considerably attenuated but not made immediately arrhythmic. Egg-hatching and adult eclosion both commenced just before dawn. Some feature of the scotophase during or immediately after black-head formation apparently acts as a signal for hatching. Eclosion was controlled by light but its timing in the field was modified by temperature. The last 2–3 days of the pupal period constituted the most sensitive stage, and light signals received during this period determined the time of eclosion. Ecological advantages of these rhythms to the shootfly are discussed.     

THE HAMSTER CLOCK PHASE-RESPONSE CURVE FROM SUMMERLIKE LIGHT:DARK CYCLES AND ITS ROLE IN DAILY AND SEASONAL TIMEKEEPING

We address the subject of entrainment of the hamster clock by the day:night cycle in summer when the sun sets after 6 PM and rises before 6 AM (nights<12 h). Summer day:night cycles were simulated by 6 light:dark (LD) cycles with D<12 h (summerlike, SLD) ranging from SLD 12.5h:11.5h (D, 6:15 PM–5:45 AM) to 18h:6h (D, 9 PM–3 AM). These are the near limiting SLDs for constant PM timing (entrainment) of behavioral estrus and wheel running in hamsters. The onset of estrus was observed every 4 d in the same hamsters as a phase marker of their 24h clock. On the day before an experimental estrus, preceded and followed by control onsets, a dark period was imposed to cover a putative 6 PM–6 AM light-sensitive period (LSP). This was scanned with a light pulse (and periodic 5sec bell alarms) lasting 5–240 min. Shifts in onset of estrus on the next day were plotted vs. the end of the light pulse for PM times (“dusk”) and its onset for AM times (“dawn”). The resulting phase shifts from the six SLDs were similar, permitting their combination into a single phase-response curve (PRC) of 1605 shifts. This SLD composite PRC rose at 10:15 PM, peaked at 2 AM (81min advanced shift), fell linearly to 5:55 AM, and then abruptly to normal at 6 AM (no shift). Peak shift was unaffected by light pulse duration or intensity, or hamster age. The SLD composite PRC lacked the 6 PM–9 PM curve of delayed shifts present in reported PRCs from LD 12h:12h and DD. However, a two-pulse experiment showed that all light from 6 PM to L-off was needed to block (balance) the advancing action of a 5min morning light pulse, thereby maintaining entrainment. A working hypothesis to explain daily entrainment and seasonal fertility in the golden hamster is illustrated. A nomenclature for labeling the phases of the hamster clock (circadian time) is proposed.     

Rhythms as photoperiodic timers in the control of flowring in Chenopodium rubrum L.

Summary In C. rubrum, the amount of flowering that is induced by a single dark period interrupting continuous light depends upon the duration of darkness. A rhythmic oscillation in sensitivity to the time that light terminates darkness regulates the level of flowering. The period length of this oscillation is close to 30 hours, peaks of the rhythm occurring at about 13, 43 and 73 h of darkness.Phasing of the rhythm by 6-, 12- and 18-h photoperiods was studied by exposing plants to a given photoperiod at different phases of the free-running oscillation in darkness. The shift in phase of the rhythm was then determined by varying the length of the dark period following the photoperiod; this dark period was terminated by continuous light.With a 6-h photoperiod the timing of both the light-on and light-off signals is shown to control rhythm phasing. However, when the photoperiod is increased to 12 or 18 h, only the light-off signal determines phasing of the rhythm. In prolonged periods of irradiation-12 to 62 h light—a durational response to light overrides any interaction between the timing of the light period and the position of the oscillation at which light is administered. Such prolonged periods of irradiation apparently suspend or otherwise interact with the rhythm so that, in a following dark period, it is reinitiated at a fixed phase relative to the time of the light-off signal to give a peak of the rhythm 13 h after the dusk signal.In daily photoperiodic cycles rhythm phasing by a 6-h photocycle was also estimated by progressively increasing the number of cycles given prior to a single dark period of varied duration.In confirmation of Bünning's (1936) hypothesis, calculated and observed phasing of the rhythm controlling flowering in c. rubrum accounts for the photoperiodic response of this species. Evidence is also discussed which indicates that the timing of disappearance of phytochrome P_fr may limit flowering over the early hours of darkness.     

Asymmetric re‐entrainment and phase response of the circadian activity rhythm of a nocturnal marsupial (Petaurus breviceps: Phalangeridae)

Abstract

Sugar Gliders (Petaurus breviceps) re‐entrain faster after 8‐h delay shifts of an LD 12:12 and an LD 8:16 (31–56:0.3 lux each) than after 8‐h advance shifts of these Zeitgeber cycles. In order to test whether this asymmetric re‐entrainment behavior is related to, or even caused by the phase response characteristics of the circadian system, the phase response of the activity rhythm to short and long light pulses was studied. Short light pulses (15 min of 31–56 lux against a background intensity of 0.3 lux) caused only relatively small delay shifts when applied around the onset, and more pronounced advance shifts when given at the end of the activity time (α). Onset and end of activity shifted by different amounts. Long light pulses produced by 8‐h advances and delays of one single lighttime of an LD 12:12 elicited pronounced phase delays when applied at the beginning of the activity time, but only minor phase advances when given at the posterior part of α. These results indicate that in Petaurus breviceps the phase response characteristics to long light pulses exerting parametric effects of light are responsible for the pronounced asymmetry effect in re‐entrainment. Differing phase responses of onset and end of activity point to a two‐oscillator structure of the circadian pacemaker system in this marsupial.     

Effects of oxygen,carbon dioxide,and nitrogen on hatching behavior and hatching time in the katydid,Eobiana engelhardti subtropica Bey-Bienko (Orthoptera: Tettigoniidae)

The trigger for the hatching behavior and determination of hatching time of the katydids, Eobiana engelhardti subtropica (Orthoptera: Tettigoniidae) have been shown to be influenced by light–dark signals or temperature. In this study, I investigated the effects of oxygen, carbon dioxide, and nitrogen on the hatching behavior and hatching time of the katydid. Eggs rarely hatched under a constant temperature of 25°C and hatched sporadically at a constant temperature of 15°C under continuous light in the air. However, when eggs were exposed to 100% oxygen or a mixture of oxygen and nitrogen (2:1 or 1:1), hatching occurred within a few seconds. Hatching behavior was directly triggered by high concentrations of oxygen. It was inhibited by exposure to 100% carbon dioxide, 100% nitrogen, or a mixture of oxygen and nitrogen (1:2). The hatching time, determined by the temperature fall (transfer from 25°C to 15°C), was delayed by these gases, and was reset by the transfer back of eggs to the air. This suggests the existence of a time-measuring mechanism that is triggered by the transfer of eggs to the air. These results, indicating that hatching behavior was directly triggered by high concentrations of oxygen and that hatching time was set by the transfer from carbon dioxide or nitrogen to the air, are new findings to the best of my knowledge.     

Food restriction affects circadian and photoperiodic response in black-headed munia (Lonchura malacca malacca)

We determined the effect of food restriction on locomotor activity pattern and gonadal growth on black-headed munia (Lonchura malacca malacca) exposed to12L:12D light–dark cycle. Two groups of male and female munia (n = 5 pairs each) were exposed to 12L:12D (L = 265 lux; D = 0.3 lux) for day 1–7. On day 8, group one received 4 h food (ZT 0–4; ZT 0 = Zeitgeber time, light onset) and group two received food ad libitum (ZT 0–24 h). Locomotor activity pattern and gonadal growth were recorded over the experiment period of one year. Birds were highly active in group one, with a high daily and total activity. However, activity behavior was fully synchronized with light onset in the group two, when food was available ad libitum. Gonadal maturation was initiated in both the groups but the maturation of testis and ovarian follicle was noticed only in group two (food ad libitum). It appears that food restriction affects the locomotor activity and gonadal growth in black-headed munia.     

The 'end-of-day' phytochrome control of internode elongation in mustard: kinetics, interaction with the previous fluence rate, and ecological implications

Abstract The ‘end-of-day’ phytochrome control of internode growth was characterized in Sinapis alba, seedlings previously grown under continuous white light for 13 d. The transition from white light to darkness caused a reduction in internode extension rate with a lag of less than 10 min. Following this, extension rate remained almost constant for at least 48 h. i.e. ‘re-etiolation’ was not noticed. The phytochorme controlling the growth processes was stable in the Pfr form. The growth rate of plants receiving a red light pulse, and the growth promotion caused by a far-red light pulse, increased with increasing fluence rate of the previous white light treatment. In far-red treated plants a first growth rate acceleration peaked at 20–30 min after the end of white light, followed by a transient deceleration which led to a growth rate minimum at 40–60 min, followed by a final growth rate recovery yielding a more-or-less steady elevated rate. Pulses establishing different Pfr/P modified the extent, but not the early kinetics, of the growth response. The relative promotion of growth caused by low Pfr/P was limited by darkness as follows: (a), The growth promotion caused by far-red directed to the internode alone was transient. (b), The promotion caused by a reduction of Pfr/P in the whole shoot persisted in darkness for at least 48 h and also persisted if, after a 3–9 h dark period, the plants were returned to continuous white light. In darkness, however, the magnitude of this growth rate promotion decreased with time, particularly when the previous white light fluence rate was low, or the pulse preceding darkness provided the lowest Pfr/P. (c), When compared over the same period in darkness, growth rate was higher in those seedlings in which Pfr/P was reduced during the continuous white light pretreatment than in those ones in which the Pfr/P was only reduced immediately before darkness. It is proposed that in the natural environment, red/far-red signals could be more effective when provided during daytime than at the end of the photoperiod, as both the background growth rate and the relative promotion caused by low Pfr/P are reduced by darkness.     

Diurnal Variation in Scent Marking Behavior in Captive Male and Female Common Marmosets,Callithrix jacchus

Chemical communication by scent-marking behavior in New World primates is used to prevent the access of potential competitors to a territory, to identify food resources and the reproductive condition of mates, among others. In common marmosets, primates of the Callitrichidae family, this behavior also occurs as olfactory identification of an individual or of the reproductive status of females. Despite this information, the diurnal variation and gender differences in the profile of this behavior remain to be investigated. The aims of this study were to establish the diurnal profile of the distribution of this behavior and the influence of the sex of markers. We used 18 adult common marmosets, Callithrix jacchus, 10 males and 8 females from 6 family groups (6 fathers and 4 sons; 4 mothers and 4 daughters). The frequency of scent-marking behavior was recorded for each animal over a period of 8 days, twice a week, for 4 weeks, starting when the animals left the nest box (approximately at 05:00 a.m.) until the end of the photophase, at about 05:00 p.m. A MANOVA test was performed to compare the frequency of scent-marking behavior at 2 hour intervals using pooled data for males and females. The results showed that significantly higher levels of scent-marking behavior occurred during the 03:00–05:00 p.m. interval compared to all other intervals. Lower values were recorded during the 11:00–13:00 interval and an effect of the sex factor was also found, with the values being higher for females than for males, although a significant difference was recorded only for the 07:00–09:00 interval. Minimal values for males were recorded during the 07:00–09:00 interval, whereas minimum values for females were recorded during the 11:00–13:00 interval. However, the highest values for both sexes continued to occur during the 15:00–17:00 interval. These results suggest that scent marking behavior in common marmosets has a preferential incidence at the end of the day and this might be occurring in association with feeding behavior. At this time these animals usually forage more to prepare for the night's fast. Since these animals can discriminate chemical clues as long as 24 hours after they have been left, the higher incidence of this behavior at this time probably will assure that the animals will localize feeding resources used on the preceding day. Significant elevation of scent marking behavior in females in relation to males was found only at 07:00–09:00 interval and seems to be associated with signalizing of reproductive status, preferential access to foraging or both.     

The individual organization of frontal-hippocampal networks during realization of different behavioral tasks

Four cats were subjected to appetitive instrumental conditioning with light as a conditioned stimulus by the method of "active choice" of the reinforcement quality: short-delay conditioned bar-press responses were followed by bread-meat mixture and the delayed responses--by meat. The animals differed in behavior strategy: four animals preferred bar-pressing with long delay (so called "self-control" group); two animal preferred bar-pressing with short-delay (so called "impulsive" group). Then all the animals were learned to short-delay (1 s) instrumental conditioned reflex to light (CS+) reinforced by meat. The multiunit activity in the frontal cortex and the hippocampus (CA3) was recorded through chronically implanted nichrome-wire semimicroelectrodes. The interactions among the neighboring neurons in the frontal cortex and hippocampus (within the local neuronal networks) and between the neurons of the frontal cortex and hippocampus (distributed neuronal networks of frontal-hippocampal and hippocampal-frontal directions) were evaluated by means of statistical crosscorrelation analysis of the spike trains. Crosscorrelation interneuronal connections in the delay range 0-100 ms were explored. It was shown that the functional organization of the frontal and hippocampal neuronal networks differed in choice behavior and was similar during realization of short-delayed conditioned reflex. We suggest that the local and distributed neural networks of the frontal cortex and hippocampus take part in the realization of cognitive behavior, in particularly in the processes of the decision making.     

Effects of feeding schedules on diurnal periodicity of Leucocytozoon smithi gametocytes in the peripheral blood of domestic turkeys

Eighteen domestic turkeys naturally infected with Leucocytozoon smithi Laveran & Lucet were maintained on restricted feeding schedules under conditions of either continuous light or natural light (light 13 h:darkness 11 h) photoperiods. Peripheral gametocyte numbers of L. smithi in all turkeys were determined every 2 h over a 36-h period. Peripheral gametocyte numbers of turkeys maintained under continuous light and restricted to either a 10-h feeding period (9:30 p.m. to 7:30 a.m.) once a day or a 2-h feeding period twice a day (7:30 a.m. to 9:30 p.m. and 7:30 p.m. to 9:30 p.m.) increased at or near the time of feed availability. Under natural photoperiod, gametocyte periodicity was not affected by restricting feed availability to the dark phase of the light-dark cycle. Mean parasite numbers were highest during the light phase when feed was not available, and lowest during the dark period when feed was accessible.     

Quantification of avian parental behavior: what are the minimum necessary sample times?

Methods used to study parental behavior are largely idiosyncratic and are rarely tested to verify that they yield reliable data. In particular, the minimum number and duration of observations used to describe behavior accurately is rarely, if ever, justified. Using data on parental behavior of Eastern Kingbirds (Tyrannus tyrannus) collected by video in Oregon, we evaluated three questions regarding sampling methods: (1) Is within‐pair behavior sufficiently consistent among days so that observations from a single session are representative of parental behavior? (2) Does a 1‐h sampling window fairly represent parental behavior or is a longer period needed to accurately describe behavior? (3) Assuming that a 1‐h period is sufficient, does the first hour immediately after disturbance to start recordings yield reliable data? We found that among‐pair differences in parental behavior were consistent over different days and that a single hour of observation was representative of parental behavior over a longer (2–3 h) period of observation. However, our data also suggested that the first hour yielded less representative data than the remaining 2–3 h; nonetheless, consistent among‐pair differences were still detectable. The shortcoming of data collected in the first hour appeared to be due to a lingering effect of human disturbance from setting up recording devices rather than a time‐of‐day effect. We suggest that researchers test the appropriateness of their methods, but our kingbird data suggest that observations over relatively brief periods can yield useful and reliable data.     

Diurnal variation of several blood parameters in the owl monkey, Aotus trivirgatus griseimembra

Diurnal variations in normal hemogram, total serum protein and serum iron are documented in 6 adult owl monkeys, Aotus trivirgatus griseimembra, maintained in an artificial LD 12:12 (35:0.08 lx) with light phase from 03.00 to 15.00 h Central European time. Statistically significant high amplitude rhythms occurred in total leukocyte and in eosinophil numbers with acrophases at 06.35 and 09.53 h, respectively. Erythrocyte numbers and hemoglobin concentration showed statistically significant low amplitude rhythms with almost identical acrophases. Total serum protein exhibited a 10% daily fluctuation. Serum iron concentration showed high amplitude daily variations with a 60% mean range of oscillation.     

Evaluation of Chronopharmacodynamics of Indomethacin by the Kaolin-Induced Pain Model in Mice

We previously showed that the kaolin-induced writhe reaction exhibits 24h variation with a peak at the end of the resting period (14:00–18:00h) in mice maintained under light from 07:00 to 19:00h. In this study, we used this model to evaluate the administration-time-dependent (chronopharmacodynamic) effect of indomethacin. Indomethacin (0.5 mg/kg) was given orally to mice at 02:00, 08:00, 14:00, or 20:00h, and the suppressive effect on kaolin-induced writhing was determined after each timed dosing. After dosing at 08:00h, indomethacin remarkably reduced the number of writhes during the critical span of 14:00–18:00h—the time when writhing reaction was greatest during the 24h, while the suppressive effect of the medicine after dosing at the other clock times was relatively small. These data suggest the analgesic effect of indomethacin in mice with the kaolin-induced writhing is greater after dosing in the early resting period, which is similar to that reported in patients with nocturnal pain. The kaolin-induced pain mouse model seems to be useful for the chronopharmacodynamic evaluation of analgesic agents.     

Circadian Variation in the Intracortical Accumulation Kinetics of Tobramycin in Conscious Rats

The time-dependent variation in the renal accumulation of aminoglycosides has not been extensively investigated. The aim of the present study was to better characterize the temporal variation in the intracortical accumulation kinetics of tobramycin. Female Sprague-Dawley rats weighing 210–254 g were maintained in a 14 h light/10 h dark cycle (light on 06h00–20h00). They were infused for 6 h with tobramycin to achieve individual steady-state serum levels of 0.5–15 μg/ml over four different periods of the day (02h00–08h00; 08h00–14h00; 14h00–20h00; and 20h00–02h00). As previously reported, the steady-state elevation of serum tobramycin concentrations was associated with a linear increase of the cortical concentration in all groups. The tobramycin accumulation rate was significantly lower in animals infused at 20h00–02h00 compared to rats infused at 08h00–14h00 (p < 0.001). The data suggest that the lower rate of tobramycin accumulation during the dark period might be responsible for the lower toxicity observed during this time.