Search results for "Predator–prey interactions"

showing 10 items of 11 documents

How to fight multiple enemies : target-specific chemical defences in an aposematic moth

2017

Animals have evolved different defensive strategies to survive predation, among which chemical defences are particularly widespread and diverse. Here we investigate the function of chemical defence diversity, hypothesizing that such diversity has evolved as a response to multiple enemies. The aposematic wood tiger moth (Arctia plantaginis) displays conspicuous hindwing coloration and secretes distinct defensive fluids from its thoracic glands and abdomen. We presented the two defensive fluids from laboratory-reared moths to two biologically relevant predators, birds and ants, and measured their reaction in controlled bioassays (no information on colour was provided). We found that defensive…

0106 biological sciences0301 basic medicineColorAposematismBiologyMoths010603 evolutionary biology01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyPredationBirds03 medical and health sciencesSpecies SpecificityAnimalsaposematismta116General Environmental ScienceGeneral Immunology and MicrobiologyEcologyEcologyAntsfungipredator–prey interactionschemical defencesGeneral MedicinepyrazinesBiological EvolutionBody Fluids030104 developmental biologyPredatory Behaviorta1181General Agricultural and Biological SciencesProceedings of the Royal Society B : Biological Sciences
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Can multiple-model mimicry explain warning signal polymorphism in the wood tiger moth, Arctia plantaginis (Lepidoptera: Erebidae)?

2018

0106 biological sciences0301 basic medicinevaroitusvärisiilikkäätZoologyBiology010603 evolutionary biology01 natural sciencesErebidaetäpläsiilikäsLepidoptera genitalia03 medical and health sciencesArctia plantaginisimperfect mimicryaposematismEcology Evolution Behavior and SystematicsTigermimikrypredator–prey interactionsbiology.organism_classificationsignal-detection theorymuuntelu030104 developmental biologypalatabilityGeometridaeMimicryta1181Biological Journal of the Linnean Society
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Bank vole alarm pheromone chemistry and effects in the field

2021

Chemical communication plays an important role in mammalian life history decisions. Animals send and receive information based on body odour secretions. Odour cues provide important social information on identity, kinship, sex, group membership or genetic quality. Recent findings show, that rodents alarm their conspecifics with danger-dependent body odours after encountering a predator. In this study, we aim to identify the chemistry of alarm pheromones (AP) in the bank vole, a common boreal rodent. Furthermore, the vole foraging efficiency under perceived fear was measured in a set of field experiments in large outdoor enclosures. During the analysis of bank vole odour by gas chromatograph…

0106 biological sciencesalarm pheromoneRodentpredator-prey interactionsmetsämyyräForagingZoology010603 evolutionary biology01 natural sciencesPheromoneshaju03 medical and health sciencesALARMmammalian body odournisäkkäätbiology.animalBody odourparasitic diseasespetoeläimetmedicineAnimalsbank volePredatorEcology Evolution Behavior and Systematics030304 developmental biologyferomonit0303 health sciencessaaliseläimetbiologyArvicolinaeBank voleBehavioral Ecology–Original ResearchfungiFearbiology.organism_classificationBank voleMammalian body odourAlarm pheromoneOdorantsbehavior and behavior mechanismsPheromoneVoleCuesmedicine.symptomPredator–prey interactions
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Geographic mosaic of selection by avian predators on hindwing warning colour in a polymorphic aposematic moth

2020

AbstractWarning signals are predicted to develop signal monomorphism via positive frequency-dependent selection (+FDS) albeit many aposematic systems exhibit signal polymorphism. To understand this mismatch, we conducted a large-scale predation experiment in four locations, among which the frequencies of hindwing warning coloration of aposematic Arctia plantaginis differ. Here we show that selection by avian predators on warning colour is predicted by local morph frequency and predator community composition. We found +FDS to be strongest in monomorphic Scotland, and in contrast, lowest in polymorphic Finland, where different predators favour different male morphs. +FDS was also found in Geo…

0106 biological sciencespredatorspredator-prey interactionsFrequency-dependent selectionFREQUENCY-DEPENDENT SELECTIONDIVERSITYMoths01 natural sciencesMüllerian mimicrytäpläsiilikäsPredationmuuntelu (biologia)Arctia plantaginisPredatorFinland0303 health sciencesMonomorphismsaaliseläimetluonnonvalintaEcologywood tiger mothVARIABLE SELECTIONDIFFERENTIATIONPOISON FROG1181 Ecology evolutionary biologyMULLERIAN MIMICRYvaroitusväriColorZoologyAposematismBiology010603 evolutionary biologyBirds03 medical and health sciencesArctia plantaginisAposematismPARASEMIAcolour polymorphismpetoeläimetAnimalsaposematismfrequency‐dependent selectionEcology Evolution Behavior and SystematicsSelection (genetic algorithm)030304 developmental biologysignal variationsignal convergence010604 marine biology & hydrobiologypredator–prey interactionsEVOLUTIONSIGNALScotlandCommunity compositionPredatory Behavior
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Antipredator strategies of pupae: how to avoid predation in an immobile life stage?

2019

Antipredator strategies of the pupal stage in insects have received little attention in comparison to larval or adult stages. This is despite the fact that predation risk can be high during the pupal stage, making it a critical stage for subsequent fitness. The immobile pupae are not, however, defenceless; a wide range of antipredator strategies have evolved against invertebrate and vertebrate predators. The most common strategy seems to be ‘avoiding encounters with predators' by actively hiding in vegetation and soil or via cryptic coloration and masquerade. Pupae have also evolved behavioural and secondary defences such as defensive toxins, physical defences or deimatic movements and soun…

0106 biological sciencespupal defencesuojautuminenFood ChainInsectaZoologyBiologyEnvironment010603 evolutionary biology01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyPredation03 medical and health sciencestoukatAnimalsprotective colorationpuolustusmekanismit (biologia)Selection Genetic030304 developmental biologysuojaväri0303 health sciencesLarvasaaliseläimetchemical defencephysical defencefungiPupapredator–prey interactionsArticlesLife stagePupahyönteisetGeneral Agricultural and Biological SciencesPhilosophical transactions of the Royal Society of London. Series B, Biological sciences
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Why aren't warning signals everywhere? : On the prevalence of aposematism and mimicry in communities

2021

Warning signals are a striking example of natural selection present in almost every ecological community - from Nordic meadows to tropical rainforests, defended prey species and their mimics ward off potential predators before they attack. Yet despite the wide distribution of warning signals, they are relatively scarce as a proportion of the total prey available, and more so in some biomes than others. Classically, warning signals are thought to be governed by positive density-dependent selection, i.e. they succeed better when they are more common. Therefore, after surmounting this initial barrier to their evolution, it is puzzling that they remain uncommon on the scale of the community. He…

0106 biological sciencesvaroitusväri570predator-prey interactionsFREQUENCY-DEPENDENT SELECTIONFrequency-dependent selectionPopulationBatesian mimicryAposematismMacroevolutionModels Biological010603 evolutionary biology01 natural sciencesRISK-TAKINGGeneral Biochemistry Genetics and Molecular BiologyMüllerian mimicryPredationANTIPREDATOR DEFENSES03 medical and health sciencesPrevalenceAnimalsaposematismecological nicheeducationMullerian mimicryBODY-SIZE030304 developmental biology0303 health scienceseducation.field_of_studyMüllerian mimicryEcologyBiological Mimicrymimikrypredator–prey interactionseliöyhteisötBiological EvolutionBatesian mimicrysaalistusekologinen lokeroCORAL-SNAKE PATTERNCHEMICAL DEFENSEGeographyCOLOR PATTERNPredatory Behavior1181 Ecology evolutionary biologyMimicrySHIFTING BALANCEGeneral Agricultural and Biological Sciencescommunity ecology
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Social learning within and across predator species reduces attacks on novel aposematic prey

2020

Abstract To make adaptive foraging decisions, predators need to gather information about the profitability of prey. As well as learning from prey encounters, recent studies show that predators can learn about prey defences by observing the negative foraging experiences of conspecifics. However, predator communities are complex. While observing heterospecifics may increase learning opportunities, we know little about how social information use varies across predator species.Social transmission of avoidance among predators also has potential consequences for defended prey. Conspicuous aposematic prey are assumed to be an easy target for naïve predators, but this cost may be reduced if multipl…

0106 biological sciencesvaroitusväripredator-prey interactionsForagingZoologyAposematism010603 evolutionary biology01 natural scienceseläinten käyttäytyminenPredationpetoeläimetAnimalsaposematismPasseriformesSocial informationPredatorEcology Evolution Behavior and Systematicsheterospecific informationBehavioural EcologyParussaaliseläimetbiologyconspecific information010604 marine biology & hydrobiologyCyanistespredator–prey interactionsSocial learningbiology.organism_classificationsosiaalinen oppiminensocial learningPredatory Behavior1181 Ecology evolutionary biologyavoidance learningAnimal Science and ZoologyResearch Article
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Generalist invasion in a complex lake food web

2023

Invasive species constitute a threat not only to native populations but also to the structure and functioning of entire food webs. Despite being considered as a global problem, only a small number of studies have quantitatively predicted the food web-level consequences of invasions. Here, we use an allometric trophic network model parameterized using empirical data on species body masses and feeding interactions to predict the effects of a possible invasion of Amur sleeper (Perccottus glenii), on a well-studied lake ecosystem. We show that the modeled establishment of Amur sleeper decreased the biomasses o ftop predator fishes by about 10%–19%. These reductions were largely explained by inc…

Global and Planetary ChangesaaliseläimetEcologypredator-prey interactionsspecies introductionfeeding interactionstulokaslajitpredator–prey interactionsEnvironmental Science (miscellaneous)lake ecosystemjärvetinvasive speciestrofeetekosysteemit (ekologia)food websruokintapetoeläimetarticlesravintoverkotNature and Landscape Conservationtrophic interactions
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Social information use by predators : expanding the information ecology of prey defences

2022

Social information use is well documented across the animal kingdom, but how it influences ecological and evolutionary processes is only just beginning to be investigated. Here we evaluate how social transmission may influence species interactions and potentially change or create novel selection pressures by focusing on predator-prey interactions, one of the best studied examples of species coevolution. There is extensive research into how prey can use social information to avoid predators, but little synthesis of how social transmission among predators can influence the outcome of different stages of predation. Here we review evidence that predators use social information during 1) encount…

PUBLIC INFORMATIONpredator-prey interactionsBIRDSTOOL USEFEEDING-BEHAVIORinformation ecologyFORAGING FLOCKSpredator–prey interactionseläinten käyttäytyminensaalistussocial informationMONARCH BUTTERFLIESsosiaalinen oppiminenFOODantipredator defencesTASTE-AVERSION1181 Ecology evolutionary biologyNORWAY RATSCULTURAL TRANSMISSIONpuolustusmekanismit (biologia)Ecology Evolution Behavior and Systematics
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Colour alone matters : no predator generalization among morphs of an aposematic moth

2018

Local warning colour polymorphism, frequently observed in aposematic organisms, is evolutionarily puzzling. This is because variation in aposematic signals is expected to be selected against due to predators' difficulties associating several signals with a given unprofitable prey. One possible explanation for the existence of such variation is predator generalization, which occurs when predators learn to avoid one form and consequently avoid other sufficiently similar forms, relaxing selection for monomorphic signals. We tested this hypothesis by exposing the three different colour morphs of the aposematic wood tiger moth, Arctia plantaginis, existing in Finland to local wild-caught predato…

varoitusväri0106 biological sciences0301 basic medicinepredatorspredator-prey interactionsoppiminengeneralisationta1172ZoologyAposematismBiologywarning coloration010603 evolutionary biology01 natural sciencestäpläsiilikäsgeneettinen monimuotoisuusPredationpolymorphism03 medical and health sciencesArctia plantaginisGeneralization (learning)petoeläimetmatkiminenmothsjäljittelyPredatorEcology Evolution Behavior and Systematicswood tigersaaliseläimetWinglearningCyanistesyöperhosetpredator–prey interactionswood tiger mothbiology.organism_classificationpredator generalization030104 developmental biologywarning signalsMimicryta1181Animal Science and ZoologypreyAnimal Behaviour
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