An examination of the factors involved in determining phosphatase activities in estuarine waters. 2: Sampling procedures

Sampling procedures which are significant in the assessment of phosphatase activities in water bodies have been studied. Variations in neutral phosphatase activities among sampling stations and over depth profiles were considered, as well as seasonal and diurnal variations. Large differences were found in neutral phosphatase activities between sampling stations, but the activities in water samples from within a sampling area varied by the less than 3%. Most frequently, phosphatase activity was constant throughout the water column until just above the sediment. Distinct diurnal patterns were always found, but the patterns were not consistent between either sampling stations or sampling dates. Phosphatase activity also varied seasonally. All of the above variations may reflect differences in biomass composition and concentration. The implications of such variations for setting up an adequate sampling program and for assessing data are stressed.     

The relationship between the golden spiny mouse circadian system and its diurnal activity: an experimental field enclosures and laboratory study

Examples of animals that switch activity times between nocturnality and diurnality in nature are relatively infrequent. Furthermore, the mechanism for switching activity time is not clear: does a complete inversion of the circadian system occur in conjunction with activity pattern? Are there switching centers downstream from the internal clock that interpret the clock differently? Or does the switch reflect a masking effect? Answering these key questions may shed light on the mechanisms regulating activity patterns and their evolution. The golden spiny mouse (Acomys russatus) can switch between nocturnal and diurnal activity. This study investigated the relationship between its internal circadian clock and its diurnal activity pattern observed in the field. The goal is to understand the mechanisms underlying species rhythm shifts in order to gain insight into the evolution of activity patterns. All golden spiny mice had opposite activity patterns in the field than those under controlled continuous dark conditions in the laboratory. Activity and body temperature patterns in the field were diurnal, while in the laboratory all individuals immediately showed a free-running rhythm starting with a nocturnal pattern. No phase transients were found toward the preferred nocturnal activity pattern, as would be expected in the case of true entrainment. Moreover, the fact that the free-running activity patterns began from the individuals' subjective night suggests that golden spiny mice are nocturnal and that their diurnality in their natural habitat in the field results from a change that is downstream to the internal clock or reflects a masking effect.     

Diurnal surface activity of the Ciscaucasian hamster (Mesocricetus raddei) in the field

Monitoring daily activity patterns of animals in the field and in captivity often revealed different results. For example, Syrian hamsters Mesocricetus auratus showed diurnal surface activity in the field, but nocturnal patterns in the laboratory. The aim of our study was to monitor the field activity of a close relative of this species, the Ciscaucasian hamster Mesocricetus raddei from Dagestan. Using the radio-frequency identification (RFID) technique we were able to obtain field data from 20 Ciscaucasian hamsters. In contrast to the data obtained in captivity where the Ciscaucasian hamsters were active mainly at night, they showed a diurnal activity pattern in the field, i.e. animals were observed on surface between sunrise and sunset. Discussing the putative causes of the different activity patterns, we are focusing especially on ecological constraints and advantages. Also, we stress the necessity of more field observations.     

Nocturnal and diurnal rhythms in the unstriped Nile rat, Arvicanthis niloticus.

In a laboratory population of unstriped Nile grass rats, Arvicanthis niloticus, individuals with two distinctly different patterns of wheel-running exist. One is diurnal and the other is relatively nocturnal. In the first experiment, the authors found that these patterns are strongly influenced by parentage and by sex. Specifically, offspring of two nocturnal parents were significantly more likely to express a nocturnal pattern of wheel-running than were offspring of diurnal parents, and more females than males were nocturnal. In the second experiment, the authors found that diurnal and nocturnal wheel-runners were indistinguishable with respect to the timing of postpartum mating, which always occurred in the hours before lights-on. Here they also found that both juvenile and adult A. niloticus exhibited diurnal patterns of general activity when housed without a wheel, even if they exhibited nocturnal activity when housed with a wheel. In the third experiment, the authors discovered that adult female A. niloticus with nocturnal patterns of wheel-running were also nocturnal with respect to general activity and core body temperature when a running wheel was available, but they were diurnal when the running wheel was removed. Finally, a field study revealed that all A. niloticus were almost exclusively diurnal in their natural habitat. Together these results suggest that individuals of this species are fundamentally diurnal but that access to a running wheel shifts some individuals to a nocturnal pattern.     

The Relationship between the Golden Spiny Mouse Circadian System and Its Diurnal Activity: An Experimental Field Enclosures and Laboratory Study

Examples of animals that switch activity times between nocturnality and diurnality in nature are relatively infrequent. Furthermore, the mechanism for switching activity time is not clear: does a complete inversion of the circadian system occur in conjunction with activity pattern? Are there switching centers downstream from the internal clock that interpret the clock differently? Or does the switch reflect a masking effect? Answering these key questions may shed light on the mechanisms regulating activity patterns and their evolution. The golden spiny mouse (Acomys russatus) can switch between nocturnal and diurnal activity. This study investigated the relationship between its internal circadian clock and its diurnal activity pattern observed in the field. The goal is to understand the mechanisms underlying species rhythm shifts in order to gain insight into the evolution of activity patterns. All golden spiny mice had opposite activity patterns in the field than those under controlled continuous dark conditions in the laboratory. Activity and body temperature patterns in the field were diurnal, while in the laboratory all individuals immediately showed a free‐running rhythm starting with a nocturnal pattern. No phase transients were found toward the preferred nocturnal activity pattern, as would be expected in the case of true entrainment. Moreover, the fact that the free‐running activity patterns began from the individuals' subjective night suggests that golden spiny mice are nocturnal and that their diurnality in their natural habitat in the field results from a change that is downstream to the internal clock or reflects a masking effect.     

Diurnal Patterns of Electrical Activity in Crayfish Neurosecretory Cells

The electrical activity of single neurons in the X ogan-sinus gland system of the crayfish was continuously recorded from isolated eyestalks kept in darkness over periods of time up to 96 h. Ample diurnal variations were detected in the spontaneous firing rate of single units in the sinus gland and the X organ-sinus gland tract. Some units displayed a nocturnal peak of activity; others were more active at day-time. Intracellular recordings from X organ somata showed similar diurnal patterns of activity. During the silent periods, the neurons could be activated by intracellular stimulation through the recording electrode. The transition from resting to activity phases was concurrent with a slow depolarization and increase of membrane conductance. No correlation could be documented with the pattern of synaptic input.     

Diurnal Patterns of Electrical Activity in Crayfish Neurosecretory Cells

The electrical activity of single neurons in the X ogan-sinus gland system of the crayfish was continuously recorded from isolated eyestalks kept in darkness over periods of time up to 96 h. Ample diurnal variations were detected in the spontaneous firing rate of single units in the sinus gland and the X organ-sinus gland tract. Some units displayed a nocturnal peak of activity; others were more active at day-time. Intracellular recordings from X organ somata showed similar diurnal patterns of activity. During the silent periods, the neurons could be activated by intracellular stimulation through the recording electrode. The transition from resting to activity phases was concurrent with a slow depolarization and increase of membrane conductance. No correlation could be documented with the pattern of synaptic input.     

Comparative study on the relationship between photoperiodic host-seeking behavioral patterns and the eye parameters of mosquitoes

Relationships between the ommatidial structure and photoperiodic behavior of several mosquito species were investigated. Host-seeking behavioral patterns of mosquitoes were classified into four main groups based on previously compiled reports on field or laboratory biting activity. These groups were pattern I and I' (nocturnal), pattern II (crepuscular and nocturnal), pattern III (crepuscular and diurnal), and pattern IV (diurnal). Eye parameters (product of facet diameter and interommatidial angle) of mosquitoes that belong to the pattern I and I' group were higher (2.7-4.2) than those of mosquitoes that belong to the pattern IV group (0.8-2.3). Eye parameters of the mosquitoes categorized in the pattern II and III groups were intermediate (2.3-2.6). These results suggest that the crepuscular behavior of mosquitoes undergoes a transition in the course of evolution from nocturnal behavior to diurnal behavior. Large variations in the eye parameters were observed even within the same genus depending on their photoperiodic behavior. Therefore, the ommatidial structure of mosquitoes appears to be determined, not taxonomically, but evolutionarily by the photoenvironment in which the mosquitoes are most active.     

Diazotrophic diversity, nifH gene expression and nitrogenase activity in a rice paddy field in Fujian, China

The diazotrophic communities in a rice paddy field were characterized by a molecular polyphasic approach including DNA/RNA-DGGE fingerprinting, real time RT-PCR analysis of nifH gene and the measurement of nitrogen fixation activities. The investigation was performed on a diurnal cycle and comparisons were made between bulk and rhizosphere / root soil as well as between fertilized / unfertilized soils. Real time RT-PCR showed no significant difference in the total quantity of nifH expression under the conditions investigated. The functional diversity and dynamics of the nifH gene expressing diazotroph community investigated using RT-PCR-DGGE revealed high diurnal variations, as well as variation between different soil types. Most of the sequence types recovered from the DGGE gels and clone libraries clustered within nifH Cluster I and III (65 different nifH sequences in total). Sequence types most similar to Azoarcus spp., Metylococcus spp., Rhizobium spp., Methylocystis spp., Desulfovibrio spp., Geobacter spp., Chlorobium spp., were abundant and indicate that these species may be responsible for the observed diurnal variation in the diazotrophic community structure in these rice field samples. Previously described diazotrophic cyanobacterial genera in rice fields, such as Nostoc and Cyanothece, were present in the samples but not detectable in RT-PCR assays.     

弄岗熊猴的活动节律和活动时间分配

2005年9月至2006年9月,采用瞬时扫描取样法,在弄岗国家级自然保护区对野生熊猴(Macaca assamensis)进行了连续跟踪观察,收集相关的活动节律和活动时间分配的数据,通过分析其与气候及食物组成的关系,从中探讨影响熊猴活动节律及活动时间分配的因素。研究结果发现:在熊猴的日活动节律中,觅食活动表现为逐渐增强的趋势,最高峰值出现在下午15:00,休息活动在中午出现一个小的高峰;其日活动节律表现出明显的季节性差异,主要表现为旱季大部分时间段的觅食强度均高于雨季,且早上7:00-10:00出现一段长时间的休息,而雨季里长时间的休息则发生在中午12:00-14:00;在活动时间分配上,熊猴平均花费39.6%时间用于休息,33.2%用于移动,18.3%用于摄食,5.1%用于理毛,2.4%用于玩耍,1.4%用于其他行为,其活动时间分配也表现出明显的季节性差异;与雨季相比,在旱季熊猴明显增加用于觅食的时间,而相应地减少用于休息的时间,活动时间分配的季节性变化明显与食物组成的变化有关;在不同年龄组个体间,青少年猴花费更多的时间用于玩耍,而用于休息和理毛的时间明显少于成年猴。     

Diurnal variation of pollen concentration in the air of north-central london

Pollen concentrations recorded during three years sampling in north-central London have shown distinctive diurnal variations. This paper identifies these patterns for three pollen taxa and attempts to account for the variations observed. The diurnal variations identified are interpreted in relation to meteorological conditions, pollen source area and phenological patterns of pollen release. A hypothesis of pollen dispersal to the sampling site is suggested.     

Locomotor activity of atlantic salmon parr (Salmo salar L.) in various light conditions and in weak magnetic fields

Locomotor activity studies in the laboratory under artificial light cycles co-ordinated with times of sunrise and sunset demonstrated that ten of sixteen Atlantic salmon parr were nocturnal, with an approximately twenty-four hour periodicity. The remaining six fish exhibited diurnal activity patterns or activity mainly after times of light change. Two fish immediately shifted their activity patterns to co-ordinate with a 6-hr shifted light cycle. Six fish retained no activity patterns in constant light, and only two of eleven fish had weak activity patterns in constant darkness. Results suggest that Atlantic salmon parr are dependent on a light-dark cycle for timing their activity rhythms. Three of twelve salmon in an imposed magnetic field four times the strength of the horizontal vector of the ambient field, increased their activity level and changed activity patterns in the increased field. The remaining fish showed no distinct change in locomotor activity.     

The diel activity of carabid beetles (Coleoptera) north of the Arctic Circle,with particular reference to Patrobus assimilis Chaud. and Notiophilus aquaticus L.

Summary Diel activity patterns of carabids species caught in pitfall traps in a subalpine birch forest north of the Arctic Circle are described. Patrobus assimilis Chaud. and Notiophilus aquaticus L. were the most common species and were active at all times of the day with peak activity at noon. Seven less common species and the larvae of Notiophilus aquaticus L. showed similar activity patterns. There was a positive correlation between the mean diel variation in temperature and the activity of the different species. Although day to day variations in temperature influenced the level of activity, it had little effect on the daily activity patterns. The adaptive significance of the diurnal activity patterns of carabid beetles in northern areas is discussed in relation to low night temperatures and high predation pressure from birds.     

Golden hamsters are nocturnal in captivity but diurnal in nature

Daily activity rhythms are nearly universal among animals and their specific pattern is an adaptation of each species to its ecological niche. Owing to the extremely consistent nocturnal patterns of activity shown by golden hamsters (Mesocricetus auratus) in the laboratory, this species is a prime model for studying the mechanisms controlling circadian rhythms. In contrast to laboratory data, we discovered that female hamsters in the wild were almost exclusively diurnal. These results raise many questions about the ecological variables that shape the activity patterns in golden hamsters and the differences between laboratory and field results.     

Comparative studies of diurnal variations of nitrate reductase activity in wheat, oat and barley

Diurnal variations of in vitro and in vivo (intact tissue assay) nitrate reductase (EC 1.6.6.1) activity and stability were examined in leaves of wheat ( Triticum aestivum L. cv. Runar), oat ( Avcna saliva L. cv. Mustang) and barley ( Hordeum vulgure L. cv. Agneta and cv. Gunillu). Nitrate reductase activity was generally higher for wheat than for oat and barley. However, the diurnal variations of nitrate reductase activity and stability were principally the same for all species, e.g. the high activity during the photoperiod was associated with low stability. All species showed a rapid (30-60 min) increase in the in vitro and in vivo activity when the light was switched on. When light was switched off the in vitro activity decreased rapidly whereas decrease in in vivo activity was slower. These experiments support the hypothesis that an activation/ deactivation mechanism is involved in the regulation of diurnal variations in nitrate reductase activity. Red light enhanced nitrate reductase activity in etiolated wheat and barley leaves. In green leaves, however, the daily increase in nitrate reductase activity was not induced by a brief red light treatment. Indications of different regulation mechanisms for the diurnal variations of nitrate reductase activity among the cereals were not found.     

The dependence of methane transport in rice plants on the root zone temperature

Large diurnal and seasonal variations in methane flux from rice paddies have been found in many studies. Although these variations are considered to result from changes in methane formation rates in the soil and the transport capacity (e.g. biomass, physiological activities, and so on) of rice plants, the real reasons for such variations are as yet unclear. This study was conducted to clarify the effects of temperature on the rate of methane transport from the root zone to the atmosphere using hydroponically grown rice plants. Methane emission rates from the top of the rice plants whose roots were soaked in a solution with a high methane concentration were measured using a flow-through chamber method with the top or root of the rice plants being kept at various temperatures. The methane emission rates and methane concentrations in solution were analyzed using a diffusion model which assumes that the methane emission from a rice paddy is driven by molecular diffusion through rice plants by a concentration gradient. In the experiment where the temperature around the root was changed, the conductance for methane diffusion was typically 2.0-2.2 times larger when the solution temperature was changed from 15 to 30 °C. When the air temperature surrounding the top of the rice plant was changed, the change in conductance was much less. In addition, from measurements of methane flux and methane concentration in soil water in a lysimeter rice paddy during the 2 growing seasons of rice, it was found that the conductance for methane transport was correlated with the soil temperature at 5 cm depth. These results suggest that the temperature around the root greatly affects the methane transport process in rice plants, and that the process of passing through the root is important in determining the rate of methane transport through rice plants.     

The diurnal changes in behaviors on laboratory beagle dogs

Diurnal patterns of food and water intakes, fecal and urine outputs, and locomotive activity were observed on beagles for three days continuously. They were kept individually in cages at temperature 21-23 degrees C, humidity 40-70% with a light time 7:00-19:00. The results showed that food and water intakes, and locomotive activity have diurnal patterns. Fecal and urine outputs have not diurnal patterns, but times of fecal and urine outputs is similar in many animals. The results suggest that physical condition is shown by quantitative values of behaviors, and sensitivity of diagnosis is raised by recognition of their diurnal patterns.