Demography of the sessile rotifers, <Emphasis Type="Italic">Limnias ceratophylli</Emphasis> and <Emphasis Type="Italic">Limnias melicerta</Emphasis> (Rotifera: Gnesiotrocha), in relation to food (<Emphasis Type="Italic">Chlorella vulgaris</Emphasis> Beijerinck, 1890) density

Circadian rhythms occur widely amongst living organisms, often in response to diel changes in environmental conditions. In aquatic animals, circadian activity is often synchronised with diel changes in the depths individuals occupy and may be related to predator–prey interactions, where the circadian rhythm is determined by ambient light levels, or have a thermoregulatory purpose, where the circadian rhythm is governed by temperature. Here, these two hypotheses are examined using animal-attached accelerometers in juvenile freshwater sawfish occupying a riverine environment displaying seasonal changes in thermal stratification. Across seasons, diel patterns of depth use (shallow at night and deep in the day) tended to occur only in the late dry seasons when the water was stratified, whereas individuals were primarily shallow in the early dry season which featured no thermal stratification. Activity was elevated during crepuscular and nocturnal periods compared to daytime, regardless of the thermal environment. Our observation of resting at cooler depths is consistent with behavioural thermoregulation to reduce energy expenditure, whereas activity appears linked to ambient light levels and predator–prey interactions. This suggests that circadian rhythms in activity and vertical migrations are decoupled in this species and respond to independent environmental drivers.     

Diel activity of adult pikeperch <Emphasis Type="Italic">Sander lucioperca</Emphasis> (L.) in a drainage canal in the Mediterranean basin during spring

Pikeperch (Sander lucioperca L.) is a broadly distributed fish species in Europe but little is known about its ecology in the southern part of its distribution area in warm climatic conditions. The aim of this study was to analyse pikeperch rate of movement and to assess whether it displayed a diel pattern related to temperature. Thus acoustic telemetry was used to track adult pikeperch in a drainage canal located in south of France. The survey was carried out in spring, during the spawning period. The results showed that females were more active than males. This is in accordance with previous data on the nest guardian behaviour of the males. For both genders, the activity rates increased during the study period as water temperature rose. Males and females displayed the same diel activity with a maximum at dusk, thereby confirming many indirect observations. Nevertheless, inter-individuals variations were observed. Thus, these results on diel activity are rather a general trend than a strict rule and suggest the involvement of other factors than light intensity in the control of diel activity. This diel rhythm is positively correlated to water temperature for females. Pikeperch activity may be the result of a trade-off between physiological requirements of temperature and light, satisfaction of energy needs and avoidance of predators.     

About the Existence of Circadian Activity in Cave Crayfish

Evidence of a circadian clock mechanism was found in the cave crayfish Procambarus cavernicola. Analysis of motor activity recorded in this species during 12 consecutive days in either free running (constant darkness, DD or constant light, LL) or entrainment conditions (12 h of light alternated with 12 h of darkness, 12 : 12 LD) showed a well recognized circadian rhythm. In this rhythm however, the absence of synchronization by periodical external signals was notorious. The comparison between the motor circadian rhythm in cave crayfish and epigeous crayfish Procambarus clarkii (these last studied during juvenile and adult stages), evidenced strong similitude between the motor circadian rhythm of cave crayfish and juvenile epigeous crayfish.     

Pairing strategy after today’s failure: unpaired termites synchronize mate search using photic cycles

Animals must search for other individuals under spatially and temporally fluctuating environments. During mate searches, search timing is critical to increase encounter rate and internal oscillating clocks often play important roles in synchronization. On the other hands, some species living in areas with no or reduced periodicity do not show endogenous circadian rhythm, where little is known about how they determine search timing. Termites usually live within logs and underground with little light fluctuations, but also come out of their nests during mating flight season. After swarming, termites run on the ground to search for mates. If they fail to find mates on the flight day, they need to continue searching until a day to succeed. Here we found that unpaired termites show daily search–rest cycles and restrict searching activity to a certain period of the day by responding to photic cycles. The search–rest cycles were diel rhythmic and synchronized with light–dark cycles. Termites also showed periodic (period length ≈ 18 h) search–rest patterns under constant darkness. These results indicate that the diel rhythm is caused by the internal oscillating clocks which are entrained to the photic cycles. The search activity in light–dark cycles was observed only at a specific time during the light period, which matches approximately the time of swarming flight. Our results suggest that termites adaptively regulate their daily searching activity, if they fail to encounter mates at the flight day.     

Contrasting behavioral responses to cold temperatures by two marine fish species during their pelagic juvenile interval

Motor activity of juvenile walleye pollock, Theragra chalcogramma, and sablefish, Anoplopoma fimbria, was monitored in the laboratory during high and low light levels under a changing temperature regime over a 5 d period. Water temperatures were ambient (12 °C) for the first 24 h of observation, rapidly lowered to 3 °C for the next 48 h, then raised back to 12 °C for the final 48 h. We hypothesized that the fishes' behavior would either follow a simple bioenergetic response of lowered activity associated with reduced metabolic rates at the colder temperature, or an avoidance response, with increased activity at decreased temperatures. Results for walleye pollock were consistent with a bioenergetic response, with activity decreasing in the presence of cold water under both high and low light levels, then returning to initial levels when temperatures increased. The response of sablefish, in contrast, indicated avoidance of cold temperatures, depending on light level. During high light, when sablefish were typically highly active, cold water induced a slight but insignificant decrease in activity. At low light, however, the presence of cold water caused a marked increase in sablefish movement through the experimental tanks, with a seven fold increase in the measured index of activity. When water temperatures were raised back to 12 °C, sablefish activity at low light returned to its normal, minimal level. The sharp increase in activity of sablefish in cold water, followed by a decrease in activity when the temperature was raised to pre-test levels, is suggestive of an avoidance response. The contrasting responses of the two species to thermal changes are consistent with their separate life history patterns and natural distributions.     

Performance of juvenile brown trout exposed to fluctuating water level and temperature

Individual daily food intake, mass‐specific growth rate and growth efficiency in groups of juvenile brown trout Salmo trutta were compared in tank experiments with three water level regimes (fluctuating, stable high and low water levels) and two temperature regimes (fluctuating between 10 and 14° C and constant 14° C) to simulate events during hydropeaking in regulated rivers. Fish exposed to high stable water level showed higher food intake and growth rate, and higher or similar growth efficiency than fish exposed to fluctuating or stable low water level. Both groups of slow‐growing and fast‐growing individuals fed less and grew slower at stable low and fluctuating water level than at stable high water level. Furthermore, growth and growth efficiency were lower in brown trout exposed to stable low water level and fluctuating temperature, particularly for groups of fish with slow growth. Temperature did not have any effect at high water level. For groups of fast‐growing fish, there was no difference in growth efficiency between treatments. It is concluded that fluctuating water level and temperature have a potentially detrimental effect on growth in juvenile brown trout and effects are more severe in slow‐ than fast‐growing fish.     

Seasonal changes in diel activity of juvenile European catfish Silurus glanis (Linnaeus, 1758) in Byšická Lake,Central Bohemia

Dualism in activity has been described in many fish species, including larger individuals of European catfish (Silurus glanis), which are able to switch their activities from nocturnal to diurnal in winter and spring. During the multi‐year telemetry study, seasonal changes in diel activity of 45 juvenile European catfish were investigated. These juveniles exhibited no dualism in movement and were strictly nocturnal and crepuscular with no period of diurnal activity. During winter, the same juvenile European catfish were completely inactive throughout the 24‐hr cycle. Also investigated was the impact of temperature, dissolved oxygen levels and water clarity on fish movement, relocation of resting places and home range size. The only significant correlations were that relocation and home range size increased with rising water temperatures.     

Locomotor activity rhythm in four wrasse species under varying light conditions

Under controlled laboratory conditions, the locomotor activity rhythms of four species of wrasses (Suezichthys gracilis, Thalassoma cupido, Labroides dimidiatus andCirrhilabrus temminckii) were individually examined using an actograph with infra-red photo-electric switches in a dark room at temperatures of 21.3–24.3°C, for 7 to 14 days. The locomotor activity ofS. gracilis occurred mostly during the light period under a light-dark cycle regimen (LD 12:12; 06:00-18:00 light, 18:00-06:00 dark). The locomotor activity commenced at the beginning of the light period and continued until a little before the beginning of dark period. The diel activity rhythm of this species synchronizes with LD. Under constant illumination (LL) this species shows distinct free-running activity rhythms varying in length from 23 hrs. 39 min. to 23 hrs. 47 min. Therefore,S. gracilis appears to have a circadian rhythm under LL. However, in constant darkness (DD), the activity of this species was greatly suppressed. All the fish showed no activity rhythms in DD conditions. After DD, the fish showed the diel activity rhythm with the resumption of LD, but this activity began shortly after the beginning of light period. The fish required several days to synchronize with the activity in the light period. Therefore,S. gracilis appeared to continue the circadian rhythm under DD. InT. cupido, the locomotor activity commenced somewhat earlier than the beginning of the light period and continued until the beginning of the dark period under LD. The diel activity rhythm of this species synchronizes with LD. Under LL, four of the five specimens of this species tested showed free-running activity rhythms for the first 5 days or longer varying in length from 22 hrs. 54 min. to 23 hrs. 39 min. Although the activity of this species was suppressed under DD, two of five fish showed free-running activity rhythms throughout the experimental period. The lengths of such free-running periods were from 23 hrs. 38 min. to 23 hrs. 50 min. under DD. Therefore, it was ascertained thatT. cupido has a circadian rhythm. InL. dimidiatus, the locomotor activity rhythm under LD resembled that observed inT. cupido. The diel activity rhythm of this species synchronizes with LD. Under LL, four of seven of this species showed free-running activity rhythms throughout the experimental period. The lengths of such free-running periods were from 23 hrs. 07 min. to 25 hrs. 48 min. Although the activity of this species was suppressed under DD, three of five fish showed free-running activity rhythms throughout the experimental period. The lengths of such free-running periods were from 23 hrs. 36 min. to 23 hrs. 41 min. under DD. Therefore, it was ascertained thatL. dimidiatus has a circadian rhythm. Almost all locomotor activity of C.temminckii occurred during the light period under LD. The diel activity rhythm of this species coincides with LD. Under LL, two of four of this species showed free-running activity rhythms throughout the experimental period. The lengths of such free-running periods were from 23 hrs. 32 min. to 23 hrs. 45 min. Although the activity of this species was suppressed under DD, one of the four fish showed free-running activity rhythms throughout the experimental period. The length of the free-running period was 23 hrs. 21 min. under DD. Therefore,C. temminckii appeared to have a circadian rhythm. According to field observations,S. gracilis burrows and lies in the sandy bottom whileT. cupido, L. dimidiatus, andC. temminckii hide and rest in spaces among piles of boulders or in crevices of rocks during the night. It seems that the differences in nocturnal behavior among the four species of wrasses mentioned above are closely related to the intensity of endogenous factors in their locomotor activity rhythms.     

Activity patterns in northern rock sole are mediated by temperature and feeding history

Studies of activity patterns of fishes rarely consider the impact of environmental conditions or organism state. In this paper we demonstrate the influence of temperature and feeding history on the diel activity patterns of juvenile (age 1+) northern rock sole Lepidopsetta polyxystra (Orr and Matarese). Activity type (benthic vs. water column) and level were determined from hourly video recordings of fish in laboratory tanks with the aid of infrared illumination. Groups of rock sole (n = 4 per group) were observed at 2, 5, 9 and 13 °C without food and at 9 °C with food offered once in the morning, at dusk or at night. In all experiments, rock sole exhibited peak activity levels during the dusk and dawn transition periods and a temporal segregation of activity mode. Daytime and crepuscular activity was predominantly benthic, occurring within a few centimeters of the tank bottom, whereas a significant fraction of nighttime activity (up to 90%) occurred with rock sole swimming in the water column or at the water surface. The primary effect of water temperature on rock sole behavior was a reduction in daytime and crepuscular activity at low temperatures. Conversely, nighttime activity levels were independent of water temperature, resulting in a thermally induced shift in the primary activity period. Morning and dusk feeding produced a short-term (1 h) elevation in activity followed by activity suppression until the subsequent crepuscular phase. Nighttime feeding resulted in a longer period of elevated activity (2 h) and did not suppress further benthic or water column activity. These observations suggest a temporal segregation of activity between daytime foraging and nighttime movement that balances energetic demands with predation risk.     

Circadian activity rhythms in the crayfish Paranephrops zealandicus (Crustacea)

The diel activity rhythm shown by Paranephrops is usually unimodal with most activity occurring at night. In constant darkness, locomotor activity is expressed for up to 60 days as a free-running circadian rhythm. The period varies from 18 to 38 hours following a seasonal cycle (summer mean period 24 hours, winter mean 30 hours). No adaptive significance can be attached to either seasonal or individual variations in period and it is suggested that such variations are a consequence of the way in which the clock mechanism operates, the period being linked to the overall activity level following Aschoff's ( 1960 ) "Circadian Rule". Activity levels will inevitably vary individually and seasonally.     

Diel profile of behaviour in the smooth newt, Triturus vulgaris (L.): an analysis of environmental cues and endogenous timing

Diel activity in a population of smooth newts during the aquatic period, was compared with rhythmic activity in newts under controlled light-dark and temperature cycles in the laboratory. The light-dark cycle was the primary synchronizer of activity and entrained a bimodal activity rhythm. This rhythm was endogenous and persisted for several cycles under constant conditions. Under natural conditions this rhythm was modified by illumination and temperature to produce a crepuscular activity pattern with a dominant second peak in activity. Diel activity under natural conditions was partitioned into sexual behaviour and feeding. Whereas sexual behaviour was entirely crepuscular, feeding behaviour was nocturnal. Feeding was probably unrelated to the underlying circadian rhythm and was engendered by the diel migration of zooplankton in the ponds. Ascents to the pond surface for air were most frequent during periods of sexual behaviour.     

Effect of Skeleton Photoperiods upon the Circadian Locomotor Activity Rhythm During Development in Crayfish Procambarus clarkii

This study was carried out to investigate the non-parametric effect of white light on the activity rhythm of the postembryonic stages of crayfish and to elucidate the characteristics and development of its entrainment mechanisms. Forty-five postembryonical instars of crayfish Procambarus clarkii, separated into three groups according to age and moult, were investigated. They were individually monitored with a motor activity recording system in constant photic conditions. For the three groups of animals, three trials with different skeleton photoperiod (SP) imitating LD 8:16, LD 12:12 and LD 20:4 were conducted, each followed by exposure to a period of constant darkness (DD). The locomotor activity rhythm and its entrainment ability were evaluated. All ages showed a circadian rhythm with a capability to synchronize to the different SP increasing with age. The three groups of crayfish analysed were generally synchronized by the dusk pulse, clustering the onset of activity close to the light pulses considered as dusk. The results presented in this study suggest the involvement of extraretinal pathways in the non-parametric entrainment of crayfish.     

Temporal variability in lotic macroinvertebrate communities associated with invasive signal crayfish (<Emphasis Type="Italic">Pacifastacus leniusculus</Emphasis>) activity levels and substrate character

Invasive signal crayfish (Pacifastacus leniusculus) are considered to be the most prevalent non-native crayfish species in Europe. Where large populations become established they have significant and long-term effects on benthic macroinvertebrate communities. However, much less is known about how community effects associated with crayfish invasion change in the short-term as a function of varying activity levels during the summer months. We examined the macroinvertebrate community composition of two lowland UK rivers, one which supported a well-established non-native crayfish population (invaded) and one in which crayfish had not been recorded (control). Colonisation cylinders were deployed which recorded community composition over a 126-day time period. Results indicate that once the activity period commences, invasive crayfish consistently altered macroinvertebrate community structure regardless of substrate character. Invaded communities displayed reduced beta-diversity compared to control sites. However, effects on the macroinvertebrate assemblage varied over the period when crayfish were active probably reflecting the behavioural activity of crayfish (which intensifies with increasing water temperature and during the spawning season) and life histories of other macroinvertebrates. The results indicate that crayfish invasions modify macroinvertebrate community composition, but over shorter timescales, the effects vary associated with their activity levels.     

Movement patterns and water quality preferences of juvenile bull sharks (<Emphasis Type="Italic">Carcharhinus leucas</Emphasis>) in a Florida estuary

Acoustic telemetry was used to examine the size of daily activity space, small-scale movement patterns, and water quality preferences of juvenile bull sharks in the Caloosahatchee River, Florida. Movement pattern analysis included rate of movement, swimming depth, linearity, direction, tidal influence, diel pattern, and correlation with environmental variables. Manual tacking occurred before and after a large freshwater influx which divided the sharks into two groups based on movement patterns. The first group displayed increased rate of movement, distance traveled, and space utilization at night, and movements correlated with salinity, temperature, and dissolved oxygen. The second group had an increased rate of movement, distance traveled, and space utilization during the day, and movements correlated with temperature, dissolved oxygen, turbidity and pH. These juvenile bull sharks displayed distinct diel movement patterns that were influenced by physical factors, which may account for the distribution of this top-level predator in the Caloosahatchee River.     

Photoperiodic induction of ovarian maturation in crayfish Procambarus clarkii is mediated by extraretinal photoreception

The current study was carried out to investigate whether the photoperiodic induction of ovarian maturation in crayfish is based on a photosensitive rhythm related to extraretinal photoreceptors. To test this, two batches of 61 juvenile crayfish Procambarus clarkii consisting of [1] intact organisms and [2] animals lacking retina and lamina were exposed to 24h light-dark cycles of different photoperiodic schedules based on a night-break protocol for 3 months. Both batches of crayfish showed the greatest ovarian maturation (size, color, degree and size of oocytes) when the light pulse interrupted the scotophase at 21:00 and 05:00, showing a bimodal photoinducible rhythm. Results of the current study indicate that crayfish ovarian maturation depends on a photoinducible rhythm with two possible states that is related to the circadian clock of crayfish. This phenomenon is mediated by extraretinal photoreceptors. Results are interpreted in the light of models of external coincidence. (Chronobiology International, 18(3), 423-434, 2001)     

Effect of Skeleton Photoperiods upon the Circadian Locomotor Activity Rhythm During Development in Crayfish Procambarus clarkii

This study was carried out to investigate the non-parametric effect of white light on the activity rhythm of the postembryonic stages of crayfish and to elucidate the characteristics and development of its entrainment mechanisms. Forty-five postembryonical instars of crayfish Procambarus clarkii, separated into three groups according to age and moult, were investigated. They were individually monitored with a motor activity recording system in constant photic conditions. For the three groups of animals, three trials with different skeleton photoperiod (SP) imitating LD 8:16, LD 12:12 and LD 20:4 were conducted, each followed by exposure to a period of constant darkness (DD). The locomotor activity rhythm and its entrainment ability were evaluated. All ages showed a circadian rhythm with a capability to synchronize to the different SP increasing with age. The three groups of crayfish analysed were generally synchronized by the dusk pulse, clustering the onset of activity close to the light pulses considered as dusk. The results presented in this study suggest the involvement of extraretinal pathways in the non-parametric entrainment of crayfish.     

Circadian Locomotor Activity Rhythm During Ontogeny in Crayfish Procambarus Clarkii

The characteristics of the circadian rhythm of locomotor activity in the crayfish Procambarus clarkii during ontogeny under constant darkness and light-dark (LD 12:12) conditions were studied in 132 juvenile crayfish, aged 10-140 days, divided in four groups. All animals were individually monitored with a motor activity recording system. Activity was quantitatively and qualitatively analyzed. All ages showed a circadian rhythm, although the probability of its appearance increased with age. Period values oscillated between 25.0 h in group I (2-4-week-old animals) and 24.3 h in group IV (16-20-week-old animals with more than 6 molts), but always with a high standard deviation. Groups II (5-10-week-old animals) and IV showed a statistically significant bimodal nonrandom synchrony of phases. The activity/ rest relationship diminishes as development progresses and is most uniform in group IV. We discuss the possibility that the pacemaker system responsible for this rhythm might be present from the moment of eclosion, but the coupling strength of this system with the effectors might change along development. The results presented in this work seem to indicate that the central pacemakers responsible for the activity and the ERG rhythm are not the same.