Activity patterns, feeding and burrowing behaviour of the crab Ucides cordatus (Ucididae) in a high intertidal mangrove forest in North Brazil

Activity patterns, feeding and burrowing behaviour of the economically important semi-terrestrial mangrove crab Ucides cordatus (Ucididae, L. 1763) was studied in a high intertidal Rhizophora mangle forest stand in Bragança, North Brazil. Video observations in the rainy and dry season were conducted over 24 h cycles at different lunar phases to investigate the behaviour of these litter-feeding crabs outside their burrows. During the rainy season, crabs stayed inside their burrows for 79% and 92% of the time during day and night, respectively. Time spent for feeding, burrowing and other activities outside their burrows was significantly longer during the day with 9.9% (night: 1.7%) and at waning and waxing moon with 9% (full and new moon: 0.9%). At neap tides (no tidal inundation) foraging and feeding activities outside burrows were clearly light-dependent, increasing at dawn and decreasing at dusk. Highest activities during daytime relate to the visual localisation of food. During the dry season, crabs spent less time inside burrows at neap tides than during the rainy season (80% and 91%, respectively). However, time spent for feeding activities was similar during both seasons. During almost all observation periods crabs collected leaf litter, but rarely fed on it outside burrows. At neap tides nearly all available litter was collected, suggesting that the U. cordatus population is litter-limited during these times. At spring tides (regular tidal inundation) the surface activity of U. cordatus was tide-dependent. Crabs closed their burrow entrances 2-3 h before flooding and re-emerged as soon as the tide retreated. During the day, burrow maintenance was the second most frequent behaviour after feeding. Agonistic interactions were regularly observed and were mainly related to burrow defence. The mean foraging radius of the crabs was only 19 cm (max: 1 m) underneath high Rhizophora mangle trees where crab densities were high. The results point to a high competition for burrows and show that U. cordatus is territorial. It is concluded that several exogenous factors, in particular light, leaf litter availability, flooding of burrows and the presence of conspecifics are important in controlling the crabs' activity patterns.     

大沙鼠洞道利用机制及地面行为时间分配特征

2010年5—11月,在古尔班通古特沙漠南部采用焦点动物取样法研究了大沙鼠(Rhombomys opimus)的昼间洞道利用机制(地面活动强度、进洞频率)以及地面行为时间分配。结果表明:大沙鼠在春夏秋三季地面活动时间占总观察时间的77.62%、66.13%和80.93%,进洞频率分别为0.50、0.31和0.19次.min-1,地面活动强度和进洞频率均具有明显的季节性变化;在其地面行为中,摄食是大沙鼠任一季节最主要的行为,不同季节摄食比例均超过50%;储食是大沙鼠春季两秋两季次重要的行为,其时间比例分别达到了17.19%和25.46%;夏季大沙鼠修饰行为比例明显升高(27.78%),而储食行为比例明显下降(7.1%)。本研究结果说明,食物因子是促使大沙鼠进行地面活动的重要因素之一;另外,温度、生理周期、捕食风险可影响大沙鼠地面活动强度、进洞频率以及地面行为时间分配。     

The effect of hind-tibial spurs on digging rate in female eastern cicada killers

Abstract.  1. The function of the large hind-tibial spurs of female eastern cicada killer wasps ( Sphecius speciosus ), thought to be adaptations to digging, was examined by measuring the effect of spurs on digging rate.
2. Spurs were removed from one group of wasps and left intact in control specimens.
3. Wasps with intact spurs removed soil from the burrow at a rate of 0.98 ± 0.11 (16) g dry mass min⁻¹ [mean ± SEM ( N )]. Removal of spurs results in an average digging rate just over one-half that, 0.54 ± 0.13 (9) g min⁻¹.
4. The difference in digging rate was primarily because of a twofold greater mass of soil unloaded by intact wasps each time they exited the burrow, rather than the rate at which such loads were delivered.
5. Such inefficiency results in an estimated additional 8.2 h requirement to fully excavate an average burrow, or a 1–4% reduction in time available for foraging in spur-ablated wasps.
6. Calculations suggest that the time lost to digging would result in a 3.9–19.5% reduction in foraging success for spurless females.
7. These temporal and resulting foraging advantages of hind-tibial spurs presumably provided selection pressure for their evolution from smaller, pre-existing setae.     

Foraging behavior of golden hamsters (<Emphasis Type="Italic">Mesocricetus auratus</Emphasis>) in the wild

Foraging theory posits that animals should maximize energy gains while minimizing risks, the largest of which is usually predation. For small burrowing mammals the best measure of risk avoidance may be the time spent in the burrow, although this measure is rarely examined. During the spring of 2005 and 2006 we recorded the foraging behavior of female golden hamsters in their natural habitat in southern Turkey. Data were collected with a data logger and by direct observations. Female golden hamsters averaged 64 min per day above ground in a series of foraging trips with a mean duration of 5.5 min. Two nursing females increased their time out of the burrow by a factor of 6–8 times over the course of 16 days by increasing both the number of trips and the length of each trip. These results show that hamsters spend little time out of the burrow, thus minimizing risk, but they also show that time spent out of the burrow is related to the energy needs of the hamsters; lactating females with high energy needs exposed themselves to much greater risk than did non-lactating females.     

Low incubation investment in the burrow‐nesting Crab Plover Dromas ardeola permits extended foraging on a tidal food resource

We used GPS data‐loggers, video‐recordings and dummy eggs to assess whether foraging needs may force the low incubation attentiveness (< 55%) of the Crab Plover Dromas ardeola, a crab‐eating wader of the Indian Ocean that nests colonially in burrows. The tidal cycle was the major determinant of the time budget and some foraging trips were more distant from the colony than previously known (up to 26 km away and lasting up to 45 h). The longest trips were mostly made by off‐duty parents, but on‐duty parents also frequently left the nest unattended while foraging for 1–7 h. However, the time spent at the colony area (47%) and the time spent roosting on the foraging grounds (16%) would have allowed almost continuous incubation, as in other species with shared incubation. Therefore, the low incubation attentiveness is not explained by the need for long foraging trips but is largely dependent on a high intermittent rhythm of incubation with many short recesses (5.8 ± 2.6 recesses/h) that were not spent foraging but just outside the burrow or thermoregulating at the seashore. As a result, the eggs were warmed on average only 1.7 °C above burrow temperature, slightly more during high tide periods and when burrow temperature was lower between 20:00 and 10:00 h, only partly counteracting the temperature fluctuations of the incubation chamber. These results suggest that low incubation attentiveness is due to the favourable thermal conditions provided by safe nesting burrows and by the hot tropical breeding season, a combination that allows simultaneous foraging by parents and the exploitation of distant foraging grounds. Why Crab Plovers engage in many short recesses from incubation still remains to be clarified but the need to thermoregulate at the seashore and to watch for predators may play a role.     

Seasonal and daily activity patterns of striped skunks (Mephitis mephitis) in the Canadian prairies

We investigated the hypothesis that the daily and seasonal activity patterns of female and male striped skunks ( Mephitis mephitis ) vary with reproductive constraints. Four biological periods were identified: pre-parturition (1 April–14 May), parturition and rearing (15 May–30 June), pre-dispersal (1–31 July), and dispersal (1–31 August). Tracking data (1873h) indicated that activity (percentage time active) of female skunks varied among seasons, being lowest during the pre-parturition period (34 ± 10%), and highest during the pre-dispersal period (66 ± 4%). Male activity did not vary among seasons (55 ± 3%). Animals of both sexes were mostly nocturnal, and had similar patterns of daily activity. Onset and cessation of activity were highly variable, but were not affected by season or sex. Daily activity typically started 13 ± 10 min before sunset, and was terminated 35 ± 8min before sunrise. Night-time activity periods of both sexes were often (57%, n = 108) interrupted by at least one resting period (median = 1, range = 0–4). However, females rarely (5%, n = 89) returned to the maternal den to rest. We hypothesize that the nocturnal activity of adults is linked to prey activity and reduced predation risk, whereas apparent diurnal activity of juveniles represents an adaptation to daily fasting periods caused by the nocturnal foraging trips of females.     

Tool Use by Spiders: Stone Selection and Placement by Corolla Spiders Ariadna (Segestriidae) of the Namib Desert

The corolla spider (Araneae: Segestriidae: Ariadna) of the Namib Desert gravel plains typically places seven or eight stones in a circle around its burrow entrance. It was examined whether the spider selects and places stones according to physical characteristics. Circle composition can be explained by the allometric scaling to spider size of the burrow entrance and the stones. The stones were usually placed with the narrowest side or point towards the burrow. Quartz crystals were preferred to four other stone types available. The spiders could detect prey brushing the outside of the circle stones that were about as wide as the spider's path of attack. I conclude that corolla spiders use the selected stones as tools to extend their foraging range.     

Colony size and structure, activity patterns and foraging behaviour of a colony of the social mole-rat Cryptomys damarensis (Bathyergidae)

A complete colony of 20 Cryptomys damarensis was trapped in the Kalahari Gemsbok National Park, South Africa. The colony consisted of 15 males and five females and formed three distinct size classes, two of which were presumed to represent worker (smallest mole-rats) and soldier (largest males) castes. Body masses ranged from 86–197 g, with the dominant male being the largest mole-rat. The activity patterns of five animals in the colony were monitored by radiotelemetry. Activity patterns were not influenced by diel fluctuations in burrow temperature and photoperiod. It was suggested that the chance of hyperthemia influenced activity, such that in order to maximize the daily distance burrowed (foraging efficiency), the mole-rats had to engage in frequent (5.58 times. day^-1), but short ( c. 60 min) foraging bouts.     

Parallel evolution of thermophilia: daily and seasonal foraging patterns of heat‐adapted desert ants: Cataglyphis and Ocymyrmex species*

In the deserts of northern and southern Africa, respectively, ants of the genera Cataglyphisf oerster (Formicinae) and Ocymyrmexe mery (Myrmicinae) occupy the same ecological niche, which comprises that of a strictly diurnal thermophilic scavenger. Their daily foraging activities exhibit a bimodal pattern in summer and unimodality or complete inactivity in winter. The present study investigates whether these overall patterns are a result of endogenous annual activity rhythms of the colony or are triggered directly by the prevailing ambient temperatures. By exploiting various seasonal temperature regimes and, in particular, by creating near‐nest winter conditions experimentally in summer, it is shown that the latter hypothesis is generally true. However, there are daily and annual variations in the temperature set points at which foraging activities start and finish. These temperatures are lower in the winter than in the summer months and, in summer, they are lower in the morning than in the afternoon. The level of foraging activity in the afternoon reaches maximum values at surface temperatures of 60–63 °C. This means that, in summer months, these thermophilic ants concentrate their foraging activities into a period of almost lethal temperature regimes, during which they have to devote a substantial portion of their time outside the nest to respite (i.e. cooling‐off) behaviour.     

The ontogeny of foragwehaviour in desert ants, Cataglyphis bicolor

Abstract. 1. Individually foraging desert ants, Cataglyphis bicolor , exhibit short foraging lives (half lifetime, i.e. half-time of the exponential decay function: 4.5 days), in which they perform 3.7 ± 1.9 foraging runs per day.
2. During their short lifetime foraging period the ants increase the duration of their foraging round trips (up to 40.0 ± 24.6 min per run), the maximal distance of individual foraging runs (up to 28.2 ± 4.1 m), and their foraging success, i.e. the ratio of successful runs to the total number of runs (up to 0.70).
3. The parameter that increases most dramatically during a forager's lifetime is direction fidelity, i.e. the tendency to remain faithful to a particular foraging direction.
4. A model based on some simple behavioural rules is used to describe the experimental findings that within an isotropic food environment individual ants develop spatial foraging idiosyncrasies, and do so at a rate that increases with the food densities they encounter.
5. Finally, it is argued that in functional terms direction fidelity is related to the navigational benefits resulting from exploiting familiar (route-based) landmark information, and hence reduces round-trip time and by this physiological stress and predatory risk.     

Foraging behaviour of chick-rearing rhinoceros auklets Cerorhinca monocerata at Teuri Island, Japan, determined by acceleration-depth recording micro data loggers

Flight and diving activity of rhinoceros auklets Cerorhinca monocerata breeding on Teuri Island, Japan, were monitored during the summers 1999 and 2000 using miniaturized time-depth and acceleration recorders. Birds made 14.5 dive bouts per day of on average 15.4 min duration, which consisted of on average 16.2 dives of 12.1 m depth and 42.7 s duration. Birds made 13.8±7.3 flight bouts per day, which lasted on average 11.5±4.5 min. Daily total flight duration was 2.7±1.7 h (range 54 s–5.1 h) and the mean potential foraging range was estimated to be 87 km (maximum 164 km). Most birds stayed at the colony or rested on the water surface during the night. Rhinoceros auklets dived more actively in early morning and in late afternoon than during mid-day. Compared to results from studies of time allocation in other alcids species, rhinoceros auklets spent longer time flying (3.3 hd⁻¹) and resting on water (13.1 hd⁻¹), and less time diving (3.1 hd⁻¹) and staying at the colony (4.4 hd⁻¹). These foraging patterns are probably related to the nest attendance pattern of rhinoceros auklets, i.e. leaving the colony early in the morning, staying at sea all the day and returning to the colony in the evening to provision their chicks.     

A simple mechanical device for recording the diel activity pattern of small burrowing mammals in their natural habitats

A mechanical device for monitoring the diel activity pattern of small burrowing mammals under natural conditions is described. The device has been used to estimate the time spent by the Indian gerbil, Tatera indica indica Hardwicke in foraging above ground and in an underground nest which is a part of the device. Activity patterns recorded with this device have confirmed observations that Tatera i, indica is nocturnal. The average time spent by this rodent outside the nest during an eight day study period was 318 min/24h. These rodents are generally active between 1900–0300 hrs, apparently with two peaks of activity, one between 2100–2200 hrs and the other between 0100–0200 hrs.     

Foraging behaviour and diet of an ectothermic herbivore: Testudo horsfieldi

Herbivorous vertebrates of arid regions are frequently faced with inadequate food quality, quantity or both. The time and energy devoted to foraging is vital to balancing their energy budgets. For desert ectotherms, a low metabolism should be advantageous, reducing their total energy requirement, but extreme ambient temperatures can strongly constrain these animals' activity periods. We provide the first data on the activity budgets, foraging behaviour and diet of a highly abundant, desert-dwelling, herbivorous ectotherm, the steppe tortoise Testudo horsfieldi . Extreme climatic conditions of Central Asia limit steppe tortoise's activity to only three months per year. They remain inactive most of their "active season" (90%), and spend very little time foraging (<15 min per day). This suggests that steppe tortoises can satisfy their energy requirements with modest feeding efforts. Interestingly, steppe tortoises avoid feeding on grass species and feed mostly on plant species that are usually highly toxic to mammals. This result suggests that steppe tortoises and ungulates do not compete for food.     

Activity Pattern of the Trawling Phyllostomid Bat,Macrophyllum macrophyllum,in Panamá1

We studied activity patterns of long‐legged bats, Macrophyllum macrophyllum (Phyllostomidae), in the Barro Colorado Nature Monument, Panamá, using radio‐telemetry. Activity of four males and five females equipped with radio‐transmitters were monitored for 4–7 entire nights each between April and July 2002. Bats exhibited maximum activity around dusk and high activity during the night. Males and females foraged for equal amounts of time in continuous flight (mean: 7 min, maximum 1 h) with interspersed resting phases (mean: 15 min, maximum 3 h). Activity of M. macrophyllum was sensitive to several factors. Time of emergence and return to day roost were correlated with time of sunset and sunrise, respectively. Maximum bat activity coincided with high abundance of aerial insects. Finally, heavy rain caused bats to reduce or cease flight activity. Direct observations and field video recordings support the assumption that M. macrophyllum employs two distinct foraging modes: trawling of insects from and capture of aerial insects at low heights above water. Combination of foraging modes gives M. macrophyllum high flexibility and efficiency in prey search. Activity, foraging mode, and morphology, which are similar to trawling bats from other families, distinguish M. macrophyllum from all other phyllostomid species and grant it access to open habitat above water, a habitat no other phyllostomid bat has conquered.     

Weathering a Dynamic Seascape: Influences of Wind and Rain on a Seabird’s Year-Round Activity Budgets

How animals respond to varying environmental conditions is fundamental to ecology and is a question that has gained impetus due to mounting evidence indicating negative effects of global change on biodiversity. Behavioural plasticity is one mechanism that enables individuals and species to deal with environmental changes, yet for many taxa information on behavioural parameters and their capacity to change are lacking or restricted to certain periods within the annual cycle. This is particularly true for seabirds where year-round behavioural information is intrinsically challenging to acquire due to their reliance on the marine environment where they are difficult to study. Using data from over 13,000 foraging trips throughout the annual cycle, acquired using new-generation automated VHF technology, we described sex-specific, year-round activity budgets in Cape gannets. Using these data we investigated the role of weather (wind and rain) on foraging activity and time allocated to nest attendance. Foraging activity was clearly influenced by wind speed, wind direction and rainfall during and outside the breeding season. Generally, strong wind conditions throughout the year resulted in relatively short foraging trips. Birds spent longer periods foraging when rainfall was moderate. Nest attendance, which was sex-specific outside of the breeding season, was also influenced by meteorological conditions. Large amounts of rainfall (> 2.5 mm per hour) and strong winds (> 13 m s^-1) resulted in gannets spending shorter amounts of time at their nests. We discuss these findings in terms of life history strategies and implications for the use of seabirds as bio-indicators.     

On a wing and a prayer: the foraging ecology of breeding Cape cormorants

The Cape cormorant Phalacrocorax capensis is unusual among cormorants in using aerial searching to locate patchily distributed pelagic schooling fish. It feeds up to 80 km offshore, often roosts at sea during the day and retains more air in its plumage and is more buoyant than most other cormorants. Despite these adaptations to its pelagic lifestyle, little is known of its foraging ecology. We measured the activity budget and diving ecology of breeding Cape cormorants. All foraging took place during the day, with 3.6 ± 1.3 foraging trips per day, each lasting 85 ± 60 min and comprising 61 ± 53 dives. Dives lasted 21.2 ± 13.9 s (maximum 70 s), attaining an average depth of 10.2 ± 6.7 m (maximum 34 m), but variability in dive depth both within and between foraging trips was considerable. The within-bout variation in dive depth was greater when making shallow dives, suggesting that pelagic prey were targeted mainly when diving to <10 m. Diving ecology and total foraging time were similar to other cormorants, but the time spent flying (122 ± 51 min day⁻¹, 14% of daylight) was greater and more variable than other species. Searching flights lasted up to 1 h, and birds made numerous short flights during foraging bouts, presumably following fast-moving schools of pelagic prey. Compared with the other main seabird predators of pelagic fish in the Benguela region, Cape gannets Morus capensis and African penguins Spheniscus demersus , Cape cormorants made shorter, more frequent foraging trips. Their foraging range while feeding small chicks was 7 ± 6 km (maximum 40 km), similar to penguins (10–20 km), but less than gannets (50–200 km). Successful breeding by large colonies depends on the reliable occurrence of pelagic fish schools within this foraging range.     

The influence of distance to burrow on flight initiation distance in the woodchuck, Marmota monax

We used woodchucks (Marmota monax) to test predictions of acost-benefit model of antipredator behavior that flight initiationdistance would increase with distance to refuge and with predatorapproach velocity. We also examined the effects of distanceto refuge and predator approach velocity on escape velocityand on both temporal and spatial margin of safety (expectedtime and distance between predator and burrow at the time ofthe woodchuck's arrival). The observer, assumed to be perceivedas a potential predator, approached juvenile woodchucks fromthe direction opposite to the burrow at a slow (1.24 m/s) orfast (1.79 m/s) walking pace. When the woodchuck started toflee, the observer recorded the woodchuck's distance from theobserver and from its burrow, the time spent running, and whetherthe woodchuck stopped before reaching its burrow. Flight initiationdistance increased consistendy with distance to the burrow overthe entire observed range (0–25 m) but was not significantlyaffected by observer approach velocity. Escape velocity wasnot significantly influenced by the observer approach velocityand was approximately constant over the range of 2–25m, but was slower for woodchucks less than 2 m from their burrows.Both temporal and spatial margins of safety increased with distancefrom the burrow. The temporal margin of safety increased withdistance from the burrow more rapidly for slow than for fastobserver approach velocity. Woodchucks fleeing from greaterthan 2 m usually stopped near the burrow before entering, butthose from closer distances usually entered directly. Theseresults support the assumption that antipredator behavior issensitive to the costs and benefits of alternative escape decisions.     

Environmental factors influencing daily foraging activity of <Emphasis Type="Italic">Vespula germanica</Emphasis> (Hymenoptera,Vespidae) in Mediterranean Australia

In social insects, workers forego reproduction in favour of foraging and other tasks to promote growth of the whole colony. Maximising individual work effort is limited by the physical constraints on foraging outside the nest. Previous studies of factors influencing activity in social insects suggest that light intensity, ground and air temperature, relative humidity, solar radiation, wind speed and/or rainfall may be important. This study aimed to determine which environmental factors influence foraging in an invasive social insect, Vespula germanica, which has been introduced to Australia, where it experiences a hotter and drier climate than in its native range. Activity was measured in terms of foraging traffic, with nests from a range of locations being monitored. Results indicate that the onset of rain reduces activity by approximately 30%, but foraging returns to previous levels immediately after rain stops. Foraging time is correlated with duration of daylight, with wasp daily activity being on average 22 min longer than the time between sunrise and sunset. Low light was found to restrict wasp activity, as were low and high temperatures. A linear mixed-effects model developed to explain the influence of these variables on numbers of foragers was highly significant. Under hot conditions, V. germanica individuals thermoregulate their body temperature by regurgitating water. They also use water in evaporative cooling to keep nests at optimum temperatures. Thus, in this species, hot temperatures increase the need for water, and so populations may be severely impacted in seasonally hot regions where water is limited. Received 30 March 2007; revised 10 March 2008; accepted 9 April 2008.     

Activity patterns of the serotine bat (Eptesicus serotinus) at a roost in southern England

Activity patterns and emergence times of a colony of serotine bats, Eptesicus serotinus , were studied in southern England. Time of emergence from the day roost varied over the summer but was strongly correlated with sunset. Mean emergence time was 11.6 ± 7.7 min after sunset. Early in summer, activity patterns were unimodal, becoming bimodal during mid- to late pregnancy and multimodal in early to mid-lactation. When juveniles were volant, activity patterns became unimodal again. Periods of low ambient temperature were associated with reduced activity. The duration of the first foraging flight decreased as pregnancy progressed, possibly as a result of the greater wing-loading caused by increased body mass. However, the first foraging flight increased in duration during the course of lactation, probably in response to a combination of increased night length and the increased energetic demands of milk production. It is concluded that seasonal variation in the length of time spent away from the roost in the serotine is related to reproductive status, night length and ambient temperature. It is suggested that the more northerly distribution of this bat in continental Europe may be due to differences in habitat use and diet.