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1.
Most studies of social polygyny in birds have examined male provisioning on the basis of the number of feeding visits. This
may be misleading if males compensate for infrequent visits by bringing larger prey at each visit. We investigated nestling
provisioning in the socially polygynous great reed warbler, Acrocephalus arundinaceus, in south Central Sweden in 1996–1997. We collected data on rate of feeding visits, prey size and the amount of biomass delivered
by males and females. Males had lower rates of feeding visits and provided smaller prey to nestlings in secondary than in
monogamous and primary nests. Secondary females had higher rates of feeding visits and brought larger prey than monogamous
and primary females. These results confirm that secondary females face a potential cost of polygyny through a lower rate of
male feeding, and that this cost was reinforced by the significantly lower male provisioning rate (biomass h–1) at secondary nests. Secondary females compensated for the lack of male assistance by increasing their rate of feeding and
bringing larger prey. As a result, offspring in nests of secondary females received as much food as did those in nests of
primary females. Prey load size increased with the parent’s proportion of feeding visits, suggesting that parents use different
feeding strategies depending on their amount of responsibility for nestling provisioning. We suggest that parents which take
the main responsibility for nestling feeding have to forage further away from the nest, and based on optimal-foraging theory,
they should then on average bring larger prey to their nest.
Received: 4 April 1999 / Received in revised form: 12 October 1999 / Accepted: 23 October 1999 相似文献
2.
We present a hitherto unknown prey perception strategy in bats: Myotis nattereri (Vespertilionidae, Chiroptera) is able to perceive prey by echolocation within a few centimeters of echo-cluttering vegetation,
by using frequency-modulated search signals of very large bandwidth (up to 135 kHz). We describe the species’ search behavior
and echolocation repertoire from the field and from experiments in a flight tent. In the field, bats varied signal parameters
in relation to their distance from vegetation and usually flew close to vegetation. In the flight tent, M. nattereri detected and localized prey by echolocation alone as close as 5 cm from vegetation. Apparently, the bats were able to tolerate
some overlap between prey and clutter echoes. Passive prey cues (vision, olfaction, prey-generated sounds) were not used in
prey perception. The bats selected prey by size. The animals performed aerial catches and produced approach sequences typical
for aerial hawking bats, but were able to do so within a few centimeters of the substrate. M. nattereri thus has access to silent, suspended prey very close to vegetation (e.g., spiders, and caterpillars on threads).
Received: 29 September 1999 / Received in revised form: 12 February 2000 / Accepted: 12 February 2000 相似文献
3.
Interactions between foragers may seriously affect individual foraging efficiency. In a laboratory study of handling time,
prey value and prey-size preference in northern pike and signal crayfish, we show that risk of intraspecific interactions
between predators does not affect handling time or value of prey. However, the presence of agonistic intraspecific interactors
shifts prey-size preference in these predators. Neither northern pike nor signal crayfish foraging alone show a prey-size
preference, while pike foraging among conspecifics prefer small prey, and crayfish foraging in groups prefer large prey. We
ascribe the different outcomes in prey preference to differences in susceptibility to interactions: northern pike under risk
avoid large prey to avoid long handling times and the associated risk of interactions, while signal crayfish foraging among
conspecifics may defend themselves and their prey during handling, and thus select prey to maximise investment. In addition,
the value of pike prey (roach) is low for very small prey, maximises for small prey, and then decreases monotonically for
larger prey, while crayfish prey (pond snail) value is low for very small prey, has a maximum at small prey, but does not
decrease as much for larger prey. Therefore, a large and easily detected snail prey provides a crayfish with as much value
as a small prey. We conclude that interaction risk and predator density affect prey-size preference differently in these aquatic
predators, and therefore has different potential effects on prey-size structure and population and community dynamics.
Received: 4 October 1999 / Revised: 20 March 2000 / Accepted: 27 May 2000 相似文献
4.
John M. Ratcliffe Hanumanthan Raghuram Ganapathy Marimuthu James H. Fullard M. Brock Fenton 《Behavioral ecology and sociobiology》2005,58(2):157-164
The literature suggests that in familiar laboratory settings, Indian false vampire bats (Megaderma lyra, family Megadermatidae) locate terrestrial prey with and without emitting echolocation calls in the dark and cease echolocating when simulated moonlit conditions presumably allow the use of vision. More recent laboratory-based research suggests that M. lyra uses echolocation throughout attacks but at emission rates much lower than those of other gleaning bats. We present data from wild-caught bats hunting for and capturing prey in unfamiliar conditions mimicking natural situations. By varying light level and substrate complexity we demonstrated that hunting M. lyra always emit echolocation calls and that emission patterns are the same regardless of light/substrate condition and similar to those of other wild-caught gleaning bats. Therefore, echoic information appears necessary for this species when hunting in unfamiliar situations, while, in the context of past research, echolocation may be supplanted by vision, spatial memory or both in familiar spaces.Communicated by T. Czeschlik 相似文献
5.
An ingestion-based prey selectivity function (IS) is described specifically to aid the simulation of zooplankton activity in circumstances in which selectivity varies, for example, as functions of prey palatability or abundance. In IS, the ultimate control of the rate of predation is not the external concentration of prey but the total rate of prey capture relative to predator demand. Further, “preference” is not an input (as it is for most prey selection functions) so that the selection or deselection of any or all prey can be freely altered. Hence, if required, all prey could be deselected, or the impact of inert materials or turbulence adversely affecting capture rates of any or all prey can be considered. Capture kinetics are not fixed at a common value for all items. In its basic form IS contains no more variables than other selectivity functions. The construction and use of switches to vary grazing in response to changes in abundance of alternative prey types or in prey nutritional (stoichiometric) quality is demonstrated. The advantages of using IS instead of the widely used ratio-based selectivity function is demonstrated with reference to model fits to experimental datasets for microzooplankton activity. 相似文献
6.
Adrian Vallin Sven Jakobsson Christer Wiklund 《Behavioral ecology and sociobiology》2007,61(9):1419-1424
Large eyespots on the wings of butterflies and moths have been ascribed generally intimidating qualities by creating a frightening
image of a bird or mammal much larger than the insect bearing the eyespots. However, evidence for this anti-predator adaptation
has been largely anecdotal and only recently were peacock butterflies, Inachis io, shown to effectively thwart attacks from blue tits, Parus caeruleus. Here, we test whether large eyespots on lepidopterans are generally effective in preventing attacks from small passerines
and whether the size of insect or bird can influence the outcome of interactions. We staged experiments between the larger
eyed hawkmoths, Smerinthus ocellatus, and the smaller peacock butterflies, I. io, and the larger great tits, Parus major, and the smaller blue tits, P. caeruleus. Survival differed substantially between the insect species with 21 of 24 peacock butterflies, but only 6 of 27 eyed hawkmoths,
surviving attacks from the birds. Thus, surprisingly, the smaller prey survived to a higher extent, suggesting that factors
other than insect size may be important. However, great tits were less easily intimidated by the insects’ eyespots and deimatic
behaviour and consumed 16 of 26, but the blue tits only 8 of 25, of the butterflies and hawkmoths. Our results demonstrate
that eyespots per se do not guarantee survival and that these two insects bearing equally large eyespots are not equally well
protected against predation. 相似文献
7.
María I. Cabrera F 《Ecological modelling》2011,222(3):598-605
Our understanding of predator-prey systems has progressed in recent decades mainly due to the ability to test models in chemostats. This study aimed to develop a deterministic model using differential equations to reproduce the dynamics of the interaction of a predator and a prey in a two stage chemostat focusing in the proposed previous prey dependent model of Fussmann et al. (2000) [Fussmann, G.F., Ellner, S.P., Shertzer, K.W., Hairston Jr., N.G., 2000. Crossing the Hopf bifurcation in a live predator-prey system. Science 290, 1358-1360]. The main problem with that model, but parameterized with the values obtained in this study (particularly the concentration of nutrient), was that the temporal trajectory of both the prey and the predator showed very high peaks that eventually led to the extinction of predator in all cases. In the same way the experimental time series obtained in this study does not exhibit the behavior predicted by the model of Fussman et al. On the contrary, as prey density increases, the system actually becomes more stable. Finally, the model that best explained the behavior of the predator and prey in the chemostat, at medium to high dilution rates, was the ratio dependent (algae-nitrogen) model with mutual interference measured in the chemostat (rotifer-alga) and that incorporated the age structure of the predator. Qualitative analysis of the dynamic behavior enabled evaluation of coexistence at equilibrium, coexistence on limit cycles, extinction of the predator or extinction of both populations. 相似文献
8.
J. Martín L. de Neve V. Polo J. A. Fargallo M. Soler 《Behavioral ecology and sociobiology》2006,60(6):778-784
Predators may select more often to attack the more vulnerable prey or those with an inferior health status. Thus, prey should be able to assess their own vulnerability to predation and modify their antipredatory behavior accordingly. When approached by predator skuas, unguarded penguin chicks flee short distances, and usually aggregate in dense packs, but there is a clear interindividual variability in their responses under similar conditions. We hypothesized that this variability in escape responses might be related to the perceived vulnerability to predation of each individual chick. We simulated predator attacks to chinstrap penguin chicks and analyzed the sources of variation in their escape response, such as the presence of adults or the density of other chicks, and the sex, age, body condition, and health status of responding chicks. Chicks allowed shorter approach distances when they had a better health condition (i.e., a greater T-cell-mediated immunity, CMI), when they were younger, and when the density of adults around was higher. Sex and density of other chicks were not important. Similarly, chicks fled from the experimenter to longer distances when they had a lower CMI and when the density of adults was lower. Therefore, escape characteristics of chicks depended on the presence of adults that can deter predators and on the health-dependent vulnerability of chicks. 相似文献
9.
Little has been done to compare the relative importance of various mechanisms through which prey assess the potential risk
from natural enemies. We used predator-naive spider mites (Tetranychus urticae, Tetranychidae) to (1) compare the responses of prey to chemical cues from enemy and non-enemy species and (2) investigate
the source of these cues. In the laboratory, we observed the distribution of T. urticae in response to cues from nine mite species, including (1) predators of spider mites, (2) predators/parasites of other animals,
and (3) fungivores/pollen-feeders. When given a choice over 24 h, spider mites foraged and oviposited in fewer numbers on
leaf discs that were previously exposed to predatory or parasitic mites (including species incapable of attacking spider mites)
than on clean leaf discs (unexposed to mites). Interestingly, previous exposure of leaf arenas to fungivores and pollen-feeders
had no significant effect on spider mite distribution. We then observed the response of T. urticae to cues from two species of predator that had been reared on a diet of either spider mites or pollen. T. urticae showed stronger avoidance of leaf discs that were previously exposed to spider-mite-fed predators than of discs exposed to
pollen-fed predators. Nevertheless, for one predator species (Amblyseius andersoni), T. urticae still preferred to forage and oviposit on clean (unexposed) discs than on discs exposed to pollen-fed predators. Protein-derived
metabolic wastes of predatory or parasitic mites may provide a general cue about potential predation risk for T. urticae. However, T. urticae also avoided areas exposed to pollen-fed predators, suggesting there may be other sources of enemy recognition by the spider
mites. We discuss the ecological and evolutionary mechanisms that may influence the scope of information through which animals
assess predation risk.
Received: 11 January 1999 / Received in revised form: 25 October 1999 / Accepted: 20 November 1999 相似文献
10.
Recent growth in the distribution and abundance of cougars (Puma concolor) throughout western North America has created opportunities, challenges, and problems for wildlife managers and raises questions
about what factors affect cougar populations. We present an analysis of factors thought to affect cougar distribution and
abundance across the broad geographical scales on which most population management decisions are made. Our objectives were
to: (1) identify and evaluate landscape parameters that can be used to predict the capability of habitats to support cougars,
and (2) evaluate factors that may account for the recent expansion in cougar numbers. Habitat values based on terrain ruggedness
and forested cover explained 73% of the variation in a cougar abundance index. Indices of cougar abundance also were spatially
and temporally correlated with ungulate abundance. An increase in the number and total biomass of ungulate prey species is
hypothesized to account for recent increases in cougars. Cougar populations in Montana are coping with land development by
humans when other components of habitat and prey populations are sufficient. Our analysis provides a better understanding
of what may have influenced recent growth in cougar distribution and abundance in Montana and, when combined with insights
about stakeholder acceptance capacity, offers a basis for cougar management at broad scales. Long-term conservation of cougars
necessitates a better understanding of ecosystem functions that affect prey distribution and abundance, more accurate estimates
of cougar populations, and management abilities to integrate these components with human values. 相似文献