Search results for "SEMAT"

showing 10 items of 173 documents

Predators' consumption of unpalatable prey does not vary as a function of bitter taste perception

2020

Many prey species contain defensive chemicals that are described as tasting bitter. Bitter taste perception is, therefore, assumed to be important when predators are learning about prey defenses. However, it is not known how individuals differ in their response to bitter taste, and how this influences their foraging decisions. We conducted taste perception assays in which wild-caught great tits (Parus major) were given water with increasing concentrations of bitter-tasting chloroquine diphosphate until they showed an aversive response to bitter taste. This response threshold was found to vary considerably among individuals, ranging from chloroquine concentrations of 0.01 mmol/L to 8 mmol/L.…

0106 biological sciencesEXPRESSIONDEFENSEmedia_common.quotation_subjectbitter tasteLibrary scienceConsumption (sociology)BiologySTRATEGIC DECISIONS010603 evolutionary biology01 natural sciencesBasic Behavioral and Social ScienceMONARCH BUTTERFLIES03 medical and health sciencesREPERTOIREBitter taste perceptionchemical defenseAvoidance learningExcellenceFOODBehavioral and Social ScienceaposematismDental/Oral and Craniofacial DiseaseEcology Evolution Behavior and SystematicsEDUCATED PREDATORS030304 developmental biologyIndependent researchmedia_commonNutrition0303 health sciencesBIRDSFOS: Clinical medicine3103 EcologyNeurosciencestoxinsBitter tastehumanitiesEVOLUTIONgreat titsRECEPTORS3109 ZoologyResearch councilavoidance learning1181 Ecology evolutionary biologybehavior and behavior mechanismsAnimal Science and Zoology31 Biological Sciences
researchProduct

Alternative prey can change model-mimic dynamics between parasitism and mutualism

2003

Classical (conventional) Mullerian mimicry theory predicts that two (or more) defended prey sharing the same signal always benefit each other despite the fact that one species can be more toxic than the other. The quasi-Batesian (unconventional) mimicry theory, instead, predicts that the less defended partner of the mimetic relationship may act as a parasite of the signal, causing a fitness loss to the model. Here we clarify the conditions for parasitic or mutualistic relationships between aposematic prey, and build a model to examine the hypothesis that the availability of alternative prey is crucial to Mullerian and quasi-Batesian mimicry. Our model is based on optimal behaviour of the pr…

0106 biological sciencesMutualism (biology)0303 health sciencesSexual mimicryEcologyAposematismBiology010603 evolutionary biology01 natural sciencesMüllerian mimicryPredation03 medical and health sciencesAggressive mimicryMimicryChemical mimicryEcology Evolution Behavior and Systematics030304 developmental biologyEcology Letters
researchProduct

2019

Trade-offs have been shown to play an important role in the divergence of mating strategies and sexual ornamentation, but their importance in explaining warning signal diversity has received less attention. In aposematic organisms, allocation costs of producing the conspicuous warning signal pigmentation under nutritional stress could potentially trade-off with life-history traits and maintain variation in warning coloration. We studied this with an aposematic herbivore Arctia plantaginis (Arctiidae), whose larvae and adults show extensive variation in aposematic coloration. In larvae, less melanic coloration (i.e. larger orange patterns) produces a more efficient warning signal against pre…

0106 biological sciencesPhenotypic plasticityLarvaHerbivoreLow protein010604 marine biology & hydrobiologyMelanismZoologyAposematismBiology010603 evolutionary biology01 natural sciencesLife history theoryAnimal Science and ZoologyGene–environment interactionEcology Evolution Behavior and SystematicsJournal of Animal Ecology
researchProduct

Characterizing the pigment composition of a variable warning signal of Parasemia plantaginis larvae

2010

Summary 1. Aposematic animals advertise their defences to predators via warning signals that often are bright colours combined with black patterns. Predation is assumed to select for large pattern elements and conspicuousness of warning signals because this enhances avoidance learning of predators. However, conspicuousness of the colour pattern can vary among individuals of aposematic species, suggesting that warning signal expression may be constrained by opposing selection pressures. If effective warning signals are costly to produce, variation in signal expression may be maintained via physiological trade-offs. To understand the costs of signalling that might underlay both physiological …

0106 biological scienceschemistry.chemical_classification0303 health scienceseducation.field_of_studyLarvabiologyPopulationAposematismOrange (colour)biology.organism_classification010603 evolutionary biology01 natural sciencesPredationLepidoptera genitalia03 medical and health scienceschemistryParasemia plantaginisBotanyeducationCarotenoidEcology Evolution Behavior and Systematics030304 developmental biologyFunctional Ecology
researchProduct

Towards a tractable working hypothesis for deimatic displays

2016

0106 biological sciencescolour05 social sciencesTettigoniidaeaposematicAposematismBiologyWorking hypothesisbiology.organism_classification010603 evolutionary biology01 natural sciencesdeimaticstartlewarning coloursEvolutionary biologyTettigoniidaeta11810501 psychology and cognitive sciencesAnimal Science and Zoology050102 behavioral science & comparative psychologyEcology Evolution Behavior and SystematicsAnimal Behaviour
researchProduct

Social information use about novel aposematic prey is not influenced by a predator’s previous experience with toxins

2019

Aposematism is an effective antipredator strategy. However, the initial evolution and maintenance of aposematism are paradoxical because conspicuous prey are vulnerable to attack by naive predators. Consequently, the evolution of aposematic signal mimicry is also difficult to explain. The cost of conspicuousness can be reduced if predators learn about novel aposematic prey by observing another predator's response to that same prey. On the other hand, observing positive foraging events might also inform predators about the presence of undefended mimics, accelerating predation on both mimics and their defended models. It is currently unknown, however, how personal and social information combi…

0106 biological sciencespredator-prey interactionstoksiinitZoologyAVOIDANCEAposematismBiology41 Environmental SciencesSTRATEGIC DECISIONSALTERNATIVE PREYFREQUENCY010603 evolutionary biology01 natural sciencesBATESIAN MIMICRYBasic Behavioral and Social SciencePredation03 medical and health sciencesDEFENDED PREYpetoeläimetBehavioral and Social ScienceCOLOR BIASEStoxin loadaposematismAVERSIONSSocial informationPredatorEcology Evolution Behavior and SystematicsEDUCATED PREDATORS030304 developmental biologysuojaväri0303 health sciencessaaliseläimetmimikry3103 EcologySocial learningBLACKBIRDSBatesian mimicrysosiaalinen oppiminengreat titssocial learning3109 Zoology1181 Ecology evolutionary biologyMimicrymimicry31 Biological Sciences
researchProduct

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
researchProduct

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
researchProduct

Evaluating the potential for evolutionary mismatch in Batesian mimics: A case study in the endangered smooth snake (Coronella austriaca)

2018

Many harmless organisms gain a survival advantage by mimicking venomous species. This is the case of the endangered smooth snake (Coronella austriaca), which mimics venomous vipers. Although this may protect the smooth snake against most of its natural predators, it may render them at greater risk of mortality from humans, who are more inclined to kill species, such as vipers, that they consider dangerous. This may cause an evolutionary mismatch, whereby humans may counteract the natural advantage of mimicry. We explore this possibility of evaluating the willingness of humans to kill smooth snakes versus the adder (Vipera berus), as well as their ability to discern them in the Åland Islands…

0106 biological sciencesvaroitusväriVIPeRVipera berusconflictEndangered specieskyyZoologyAposematismmatelijat010603 evolutionary biology01 natural sciencescomplex mixturesPredationkäärmeetCoronella austriacakangaskäärmeGeneticsaposematismkäyttäytyminenEcology Evolution Behavior and Systematicsbiologylajiensuojelu010604 marine biology & hydrobiologymimikrybiology.organism_classificationBatesian mimicrysaalistusreptilesbehaviourPerspectiveMimicryta1181ihminen-eläinsuhdepredationGeneral Agricultural and Biological SciencesPerspectivesEvolutionary Applications
researchProduct

Out in the open : behavior’s effect on predation risk and thermoregulation by aposematic caterpillars

2020

Abstract Warning coloration should be under strong stabilizing selection but often displays considerable intraspecific variation. Opposing selection on color by predators and temperature is one potential explanation for this seeming paradox. Despite the importance of behavior for both predator avoidance and thermoregulation, its role in mediating selection by predators and temperature on warning coloration has received little attention. Wood tiger moth caterpillars, Arctia plantaginis, have aposematic coloration, an orange patch on the black body. The size of the orange patch varies considerably: individuals with larger patches are safer from predators, but having a small patch is beneficia…

0106 biological sciencesvaroitusväriZoologyAposematismBiology010603 evolutionary biology01 natural scienceseläinten käyttäytyminenIntraspecific competitiontäpläsiilikäsPredation03 medical and health sciencesParus majoraposematismStabilizing selectionCaterpillarArctia plantaginisPredatorEcology Evolution Behavior and Systematicslämmönsäätely030304 developmental biologyParus0303 health sciencesthermoregulationAcademicSubjects/SCI01330Original Articlestalitiainen15. Life on landThermoregulationbiology.organism_classificationmicrohabitat preferencesaalistuscolorAnimal Science and Zoology
researchProduct