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1.
Pyrazine odour makes visually conspicuous prey aversive   总被引:3,自引:0,他引:3  
Unpalatable insects frequently adopt multimodal signals to ward off predators, incorporating sounds and odours into their colourful displays. Pyrazine is an odour commonly used in insect warning displays, and has previously been shown to elicit unlearned biases against common warning colours, e.g. yellow and red in naive predators. We designed two experiments to test for similar effects of pyrazine on the conspicuousness of prey, perhaps the most ubiquitous aspect of aposematic coloration. In the first experiment, we offered predators (Gallus gallus domesticus) a choice between conspicuous crumbs and cryptic crumbs in the presence or absence of pyrazine. In the second experiment, we manipulated the birds' experience of conspicuous prey during an initial training phase. Only in the presence of pyrazine did birds show a bias against conspicuously coloured food, and this occurred whether or not they had previously experienced food that contrasted with the background. This emergent behaviour relied upon the visual and odorous signal components being presented together. These unlearned, yet hidden, responses against conspicuousness demonstrate that there are initial benefits to prey being conspicuous when the multimodal nature of warning signals is accounted for.  相似文献   

2.
Multimodal warning displays combine visual signals with components produced in other sensory modalities, for instance, aposematically coloured insects often produce a pungent odour or harsh sound when they are attacked. Recent research has focussed upon a particular odour, pyrazine, which is commonly associated with warning coloration. Our experiments have shown that pyrazine elicits hidden unlearned biases against particular visual aspects of food in foraging domestic chicks. Here we asses the current state of our knowledge about these biases, reviewing our results using pyrazine and other odours, and also presenting new data showing that sound can produce similar effects. We will discuss potential psychological mechanisms by which these foraging biases are achieved in avian predators, and potential pathways for their evolution. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

3.
Non-warning odors trigger innate color aversions--as long as they are novel   总被引:1,自引:0,他引:1  
Warning signals made by unpalatable insects to potential predatorscommonly target more than one sense: such signals are "multimodal." Pyrazines are odors produced by warningly colored insects whenattacked, and have been shown to interact with food coloration,biasing avian predators against novel and typically aposematicfood. However, at present it is not known whether this is anadaptation by prey to exploit a general feature of avian psychology,or an evolutionary response by birds to enhance their avoidanceof unpalatable prey. Here we investigate the effect of otherodors on the innate responses of naive domestic chicks (Gallusgallus domesticus) to food that is of novel color, or of acolor that is associated with warning coloration, yellow. Inthe first experiment, we demonstrate that natural and artificialodors that have no association with aposematism in the wildcan produce biases against both novel colored foods and yellowcolored foods. In a second experiment, we also show that odor novelty is vital for eliciting such effects. These results supportthe idea that warning odors have evolved in response to preexistingpsychological biases against novel odors in predators, ratherthan predators evolving specific responses against odors associatedwith unpalatable prey.  相似文献   

4.
Many aposematic species have evolved an aggregated lifestyle, and one possible advantage of grouping in warningly coloured prey is that it makes the aposematic signal more effective by generating a greater aversion in predators. Here we investigate the effect of prey group size on predator behaviour, both when prey are aposematic and when they are not aposematic, to separate the effects of warning coloration and prey novelty. Naive domestic chicks (Gallus gallus domesticus) were presented with either solitary or groups of 3, 9 or 27 live larvae of the aposematic bug Tropidothorax leucopterus. Other naive chicks were presented with larvae of the non-aposematic bug Graptostethus servus either solitary or in groups of 27. Attack probability decreased with increasing group size of aposematic prey, both when birds were naive and when they had prior experience, whereas prey gregariousness did not affect the initial attack probability on the G. servus larvae. In a separate experiment, groups of mealworms were shown to be even more attractive than solitary mealworms to naive chicks. We conclude that the aversiveness of prey grouping in this study can be explained as increased signal repellence of specific prey coloration, in this case a classical warning coloration. These experiments thus support the idea of gregariousness increasing the signalling effect of warning coloration.  相似文献   

5.
Defended prey frequently advertise to potential predators usingmultimodal warning displays. Signaling through more than onesensory pathway may enhance the rate of avoidance learning andthe memorability of these learned avoidances. If this is so,then mimetic insects would gain more protection from mimickinga multimodal rather than a monomodal model. Day-old domesticchicks (Gallus gallus domesticus) were used to examine whethera common insect warning odor (pyrazine) enhanced learning andmemorability of yellow prey, a common warning color. Pyrazineincreased the rate at which the chicks learned to avoid unpalatableyellow prey, and how well this learned avoidance was rememberedafter a 96-h interval. After 96 h, mimics of the multimodalprey were avoided, whereas mimics of the monomodal prey werenot. In the absence of pyrazine, chicks generalized their learnedavoidance of the unpalatable yellow prey to palatable greenprey; however, the presence of pyrazine reduced this color generalization.These results suggest that much is to be gained from signalingmultimodally, for both models and mimetic prey species. Thepresence of multimodal prey in the habitat may also advantagethe predators as it allows it them to distinguish more easilybetween palatable and unpalatable prey.  相似文献   

6.
It is well known that development of vision is affected by experience, but there are few studies of environmental effects on colour vision. Natural scenes contain predominantly a restricted range of reflectance spectra, so such effects might be important, perhaps biasing visual mechanisms towards common colours. We investigated how the visual environment affects colour preferences of domestic chicks ( Gallus gallus), by training week-old birds to select small food containers distinguished from an achromatic alternative either by an orange or by a greenish-blue colour. Chicks that had been raised in control conditions, with long-wavelength-dominated reflectance spectra, responded more readily to orange than to blue. This was not due to avoidance of blue, as increasing saturation enhanced the chicks' preference for the same hue. The advantage of orange was, however, reduced or abolished for chicks raised in an environment dominated by blue objects. This indicates that responses to coloured food are affected by experience of non-food objects. If colours of ordinary objects in the environment do influence responses to specialised visual signals this might help explain why biological signals directed at birds are often coloured yellow, orange or red; long-wavelength-dominated spectra being more prevalent than short-wavelength-dominated spectra.  相似文献   

7.
It is difficult to imagine how warning colours evolve in unpalatable prey. Firstly, novel warningly coloured variants gain no protection from their colours, since predators have not previously encountered and learnt their colour patterns. This leads to a frequency-dependent disadvantage of a rare variant within a species. Secondly, novel warningly coloured variants may be more conspicuous than non-aposematic prey.
Nevertheless, it is obvious that many palatable butterflies have bright colours used in intraspecific communication and in duping predators. Other palatable butterflies are already warningly coloured. Should such butterflies evolve unpalatability, perhaps because of a host-plant shift, these bright colours would be preadapted to a warning role. Warning colours could then continue to evolve by enhancement of memorable characteristics of these patterns, or by mimicry.
Even within lineages of warningly coloured, unpalatable butterflies, colour patterns have continued to evolve rapidly. This diversity of warning colour patterns could have evolved in a number of ways, including individual and kin selection, and by the shifting balance. Evidence for these mechanisms is discussed, as are the similarities between the evolution of warning colours and more general evolutionary processes, including sexual selection and speciation.  相似文献   

8.
The theory of warning signals dates back to Wallace but is still confusing, controversial and complex. Because predator avoidance of warningly coloured prey (aposematism) is based upon learning and reinforcement, it is difficult to understand how initially rare conspicuous forms subsequently become common. Here, we discuss several possible resolutions to this apparent paradox. Many of these ideas have been largely ignored as a result of implicit assumptions about predator behaviour and assumed lack of variation in the predators, prey and the predation process. Considering the spatial and temporal variation in and mechanisms of behaviour of both predators and prey will make it easier to understand the process and evolution of aposematism.  相似文献   

9.
Colours are common stimuli in signalling systems. Requirements to function well as a signal sometimes conflict between different signallers, and the same colour stimulus is used to convey completely different messages to the same receiver. Fruits and aposematic insects both use red coloration as a signal, in the former case to signal profitability and in the latter case as a warning signal. In two experiments, we investigated whether the domestic chick, an omnivorous predator, differed in its unconditioned preference or avoidance of red and green stimuli depending on whether or not the stimulus was an insect. The experiments were designed as preference tests between red and green painted prey. The prey were live insects and artificial fruits (experiment 1), and, to investigate the effect of movement, live and dead insects (experiment 2). The chicks did not show any difference in pecking preference between red and green when fruit-like stimuli were used, but when the prey were insects, green prey were strongly preferred to red prey, and prey movement did not affect this bias. Thus, young chicks may recognize prey as insects and then discriminate between different prey colorations, or one type of food may elicit an unlearned colour preference-avoidance response that is absent with another type of food.  相似文献   

10.
Müllerian mimicry, where two unpalatable species share a warning pattern, is classically believed to be a form of mutualism, where the species involved share the cost of predator education. The evolutionary dynamics of Müllerian mimicry have recently become a controversial subject, after mathematical models have shown that if minor alterations are made to assumptions about the way in which predators learn and forget about unpalatable prey, this textbook case of mutualism may not be mutualistic at all. An underlying assumption of these models is that Müllerian mimics possess the same defence chemical. However, some Müllerian mimics are known to possess different defence chemicals. Using domestic chicks as predators and coloured crumbs flavoured with either the same or different unpalatable chemicals as prey, we provide evidence that two defence chemicals can interact to enhance predator learning and memory. This indicates that Müllerian mimics that possess different defence chemicals are better protected than those that share a single defence chemical. These data provide insight into how multiple defence chemicals are perceived by birds,and how they influence the way birds learn and remember warningly coloured prey. They highlight the importance of considering how different toxins in mimicry rings can interact in the evolution and maintenance of Müllerian mimicry and could help to explain the remarkable variation in chemical defences found within and between species.  相似文献   

11.
Aposematic insects use warning colours to deter predators, but many also produce odours or sounds when attacked by a predator. One possible role for these additional components is that they promote the association between the warning colour and the non-profitability it signals, thus reducing the chance of future attacks from visually hunting predators. This experiment explicitly tests this idea by looking at the effects of sound on a visual discrimination task. Young domestic chicks were trained to look for food rewards under coloured paper cones scattered in an experimental arena. In a subsequent visual discrimination task, they learned to discriminate between rewarded and non-rewarded hats on the basis of colour. Half the chicks performed this task in silence, whilst the other half had a tone played when they attacked non-rewarded hats. The presence of the tone improved the speed of colour discrimination learning. This demonstrates that there could be a selective advantage for aposematic coloured insects to emit sounds when attacked, since avian predators will learn to avoid their coloration more quickly. The role of psychological interactions between signal components in receivers is discussed in relation to the evolution of multimodal displays.  相似文献   

12.
Polymorphic warning signals in aposematic organisms are puzzling because efficient predator learning should select for the most efficient warning colouration. Yet, there are many examples of polymorphic and aposematic organisms in nature. Here, we investigated whether perceived trade-offs between natural and sexual selection, combined with different degrees of morph lineage admixture, can maintain polymorphic yellow and white hindwing colouration in aposematic wood tiger moth males (Arctia plantaginis). Prior research in the system suggests that yellow males have better warning colouration against predators, whereas white male morphs have higher mating success. We performed a mating experiment where females were offered four males: two white and two yellow. One male from each colour came from (purely) monomorphic lines (i.e. including the same paternal colour for multiple generations), whereas one male from each colour were from mixed-morph (or hybrid) lineages. We then assessed whether phenotype (colour), lineage, or an interaction between the two, best affected mating success. Our results showed that although white hindwing coloured males tended to have overall better reproductive success, this was mainly due to the significantly higher mating and hatching success of mixed-morph compared to pure-line individuals. Notably, this suggests the advantage of mixed-morph lineage is limited to white individuals, while on the contrary yellow mixed lineage moths have a disadvantage, i.e. the lowest mating success. The latter also suggests a cost to reproductive success in producing the more efficient against predators yellow warning colouration, even when those individuals recently descend from a white hindwing coloured lineage. Heterozygote, or hybrid advantage, even when confined to only one morph, has been shown to promote polymorphism in some systems, therefore, our results point at the need to further examine genetic architecture and the role of mixed-morph lineages in understanding the maintenance of polymorphisms in nature.  相似文献   

13.
Aposematism, the use of conspicuous colours to advertise unpalatability to predators, is perhaps the most studied signalling system in nature. However, its evolutionary stability remains paradoxical. The paradox is illustrated by the problem of automimicry. Automimics are palatable individuals within a population of unpalatable aposematics. Automimics benefit from predators avoiding warning coloration without carrying the models' cost of unpalatability, and should increase in the population, destabilizing the signalling system, unless selected against in some way. Cautious sampling, instead of avoidance, by predators may offer a solution to this problem. Here, we investigate the effect of automimic frequency on predator sampling behaviour, and whether predator sampling behaviour may provide a selection pressure against mimics. Domestic chicks (Gallus gallus domesticus) were subjected to the task of discriminating between green (signalling) and untreated brown chick crumbs. Some of the green crumbs were quinine treated and thus unpalatable. The frequency of palatable signalling prey items varied in four treatments; all unpalatable, low automimic frequency, high automimic frequency and all palatable. The results show that predator sampling behaviour is sensitive to automimic frequency and that predators may discriminate between models and mimics through sampling, and thereby benefit unprofitable prey. The results suggest somewhat surprisingly that aposematic signalling is stable only because of the actions of those predators not actually deterred by warning signals.  相似文献   

14.
    
Zusammenfassung Frisch geschlüpften Hühnerküken wurden schwarz-gelb geringelte und grüne Attrappen sowie Mehlwürmer angeboten, um zu testen, ob eine angeborene Hemmung gegenüber warnfarbiger Beute besteht. Unsere Küken zeigten sowohl eine eindeutige Präferenz für schwarzgelb geringelte Attrappen als auch für Mehlwürmer. Daraus schließen wir, daß es keine genetisch fixierte Hemmung gegenüber schwarz-gelber Ringelung, d. h. auffälliger Beute gibt.
Innate and learned preferences in food selection of chicken (Gallus domesticus)
Summary In reference to the experiment ofSchuler &Hesse (1985), recently hatched chicken were offered a choise between warningly coloured black and yellow and nonwarningly coloured green prey. We can not support their hypothesis of a genetically fixed pecking inhibition towards prey with warning colouration. The chicken directed their first peck at the warningly coloured ones and they ate them at a significantly higher rate. These results support the idea ofGittleman &Harvey (1980), that chicken prefer conspicuous prey.
  相似文献   

15.
Many aposematic prey combine their visual warning signals withadditional signals. Together, these signals constitute a multimodalor multicomponent warning display. The additional signals arethought to increase the effects of the visual signals on predators.Olfactory signals are much emphasized, but later studies haveshown that also auditory signals like the buzzing of certaininsects might have multimodal effects. The wasp displays typicalvisual aposematic signals, black and yellow stripes, but doesalso emit a characteristic buzzing. We wanted to test if, andin what way, the visual and acoustic display of the wasp hasan aversive function on the predators. We therefore conducteda 12-trial discrimination-learning task on inexperienced chicksto study whether there are innate biases toward these signalsand how they affect the speed of avoidance learning. We alsoperformed three extinction-learning trials to study how memorablethe signals were to the chicks. We show that the visual signalsin the display of the wasp contribute to the protection frompredators but in different ways; the yellow color had an aversiveeffect on inexperienced predators, while the striped patternimproved the aversion learning. The sound did not enhance theinnate aversions but increased the aversion learning of stripesin green prey.  相似文献   

16.
Recently there has been debate over the importance of innateavoidance of aposematic prey by predators, particularly birds.There is evidence that the predators have innate or unlearned,thus, inherited avoidance against certain colors, but whetherthere is any innate avoidance against gregariousness or conspicuousnessis unclear. Previously predator behavior toward these charactersof aposematic prey have been tested in separate experiments.We designed an experiment to separate inheritance toward color,gregariousness, and conspiucuosness. We simultaneously offeredthe predators warningly colored and nonwarningly colored preyitems, both aggregated and solitary, on white (conspicuous)or brown (cryptic) backgrounds. The predators we used were naive (handraised), wild-caught yearling and adult great tits (Parus major L.).The results confirm previous results regarding the innate avoidanceof color. Naive predators seemed to have a genetically or culturallytransmitted avoidance of yellow and black prey compared to brownprey. Surprisingly, yearling wild-caught great tits were moreselective than adults, which did not show as strong avoidanceof yellow and black prey. More importantly, birds did not findgregarious prey more aversive than single prey, which indicatesthat grouping alone does not serve as an innate avoidance signal.Conspicuousness itself was not aversive to the predators. Ourresults suggest that the avoidance against a particular colorpattern probably has an inherited basis, whereas gregariousand conspicuous characters of prey presumably aid the avoidancelearning.  相似文献   

17.
《Behavioural processes》1986,12(3):261-271
Food neophobia or a hesitancy to feed on unfamiliar food was examined in domestic chicks as a function of genetic and experiential factors associated with differential responsiveness to novelty. Chicks were presented with novel blue mash following a regime of food withdrawal and return. ‘S’ line chicks (light hybrid) fed significantly sooner, longer and more than did medium-hybrid ‘T’ line birds and females accepted novel food more readily than males. Food neophobia was significantly reduced by previous exposure to a variety of coloured foods and by enrichment of the home environment with assorted novel objects. The results are discussed in terms of the relationship between food neophobia, general responsiveness to novelty and underlying levels of fearfulness.  相似文献   

18.
ABSTRACT. Studies were made in Zimbabwe of the propensity of Glossina pallidipes Austen and G. morsitans morsitans Westwood to divert from flying upwind in plumes of host odour to various visual features (termed targets). Using various arrangements of electrocuting nets with targets placed downwind of an odour source it was found that 45% diverted to a square target, c. 30% diverted to a black vertical oblong and there was no significant diversion to a bark-coloured vertical oblong that simulated the bole of a tree. The relative propensity of tsetse to divert to variously coloured targets decreased in the order: black = blue > red > yellow; for different shapes it decreased in the order: circle > square > horizontal oblong = vertical oblong. Changes in the composition or concentration of the odour, or loss of contact with it, did not markedly affect the percentage that diverted. Tsetse that diverted to a target and subsequently flew away from it showed an upwind bias in the presence of odour. In the absence of odour there was a slight crosswind bias. If these crosswind fliers then flew into a plume of host odour they turned c. 50 upwind.  相似文献   

19.
The mechanisms of aposematism (unprofitability of prey combined with a conspicuous signal) have mainly been studied with reference to vertebrate predators, especially birds. We investigated whether dragonflies, Aeshna grandis, avoid attacking wasps, Vespula norwegica, which are an unprofitable group of prey for most predators. As a control we used flies that were painted either black or with yellow and black stripes. The dragonflies showed greater aversion to wasps than to flies. Black-and-yellow-striped flies were avoided more than black ones, suggesting that aposematic coloration on a harmless fly provides a selective advantage against invertebrate predators. There was no significant difference in reactions to black-painted and black-and-yellow wasps, indicating that, in addition to coloration, some other feature in wasps might deter predators. In further experiments we offered dragonflies artificial prey items in which the candidate warning signals (coloration, odour and shape) were tested separately while other confounding factors were kept constant. The dragonflies avoided more black-and-yellow prey items than solid black or solid yellow ones. However, we found no influence of wasp odour on dragonfly hunting. Dragonflies were slightly, but not significantly, more reluctant to attack wasp-shaped prey items than fly-shaped ones. Our results suggest that the typical black-and-yellow stripes of wasps, possibly combined with their unique shape, make dragonflies avoid wasps. Since black-and-yellow stripes alone significantly decreased attack rate, we conclude that even profitable prey species (i.e. Batesian mimics) are able to exploit the dragonflies' avoidance of wasps. Copyright 2003 Published by Elsevier Ltd on behalf of The Association for the Study of Animal Behaviour.   相似文献   

20.
1. Birds are considered to be the primary selective agents for warning colouration in butterflies, and select for aposematic mimicry by learning to avoid brightly coloured prey after unpleasant experiences. It has long been thought that bright colouration plays an important role in promoting the avoidance of distasteful prey by birds. 2. The hypothesis that warning colouration facilitates memorability and promotes predator avoidance was tested by means of a field experiment using distasteful model butterflies. Artificial butterflies with a Heliconius colour pattern unknown to local birds were generated using bird vision models, either coloured or achromatic, and hung in tree branches in a tropical forest. Two sequential trials were conducted at each site to test avoidance by naïve and experienced predators. 3. There was a significant reduction in predation in the second trial. Also, coloured models were attacked less than achromatic models. Specifically, coloured butterflies were attacked significantly less in the second trial, but there was no significant decrease in predation on achromatic models. 4. The present results imply an important role for colour in enhancing aversion of aposematic butterflies. It has also been demonstrated that previous experience of distasteful prey can lead to enhanced avoidance in subsequent trials, supporting mimicry theory.  相似文献   

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