Search results for "MIM"

showing 10 items of 645 documents

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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Multiple modalities in insect warning displays have additive effects against wild avian predators

2019

Allocation to different components of defence has been suggested as an explanation for the existence of multiple aposematic morphs in a single population. We tested whether there are trade-offs between warning colouration and chemical defence or whether these have an additive effect when combined, using blue tits (Cyanistes caeruleus) as predators and the polymorphic wood tiger moth (Arctia plantaginis) as prey. We used artificial edible models (with and without the moths’ defensive fluids) with paper wings whose colour and pattern properties matched those of real moths. When the models were presented sans defensive fluids or when the fluids were presented without colour cues, we detected n…

varoitusväri0106 biological sciencesanimal structuresgenetic structuresmedia_common.quotation_subjectPopulationZoologyAposematismInsectwarning colorationBiology010603 evolutionary biology01 natural sciencesPredation0501 psychology and cognitive sciences050102 behavioral science & comparative psychologypuolustusmekanismit (biologia)insectseducationPredatorEcology Evolution Behavior and Systematicsmedia_commoneducation.field_of_studyfungi05 social sciencesdefence mechanisms (biological phenomena)BeakAnimal ecologyhyönteisetMimicryAnimal Science and ZoologyBehavioral Ecology and Sociobiology
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Transparency reduces predator detection in mimetic clearwing butterflies

2019

International audience; Predation is an important selective pressure and some prey have evolved conspicuous warning signals that advertise unpalatability (i.e. aposematism) as an antipredator defence. Conspicuous colour patterns have been shown effective as warning signals, by promoting predator learning and memory. Unexpectedly, some butterfly species from the unpalatable tribe Ithomiini possess transparent wings, a feature rare on land but common in water, known to reduce predator detection.We tested if transparency of butterfly wings was associated with decreased detectability by predators, by comparing four butterfly species exhibiting different degrees of transparency, ranging from ful…

varoitusväri0106 biological scienceskokeilubirdTransparency (market)perhosetaposematicZoologyAposematism010603 evolutionary biology01 natural sciencesPredationläpinäkyvyyscitizen sciencePredatorEcology Evolution Behavior and Systematicssuojaväri[SDV.EE]Life Sciences [q-bio]/Ecology environmentbiologyexperiment[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]vision modellingbiology.organism_classificationIthomiinicrypsisIthomiinidetectability[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate ZoologykansalaistiedeCrypsisButterflyMimicrymonarkkiperhoset010606 plant biology & botany
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Safety in Numbers: How Color Morph Frequency Affects Predation Risk in an Aposematic Moth

2021

Polymorphic warning signals in aposematic systems are enigmatic because predator learning should favor the most common form, creating positive frequency-dependent survival. However, many populations exhibit variation in warning signals. There are various selective mechanisms that can counter positive frequency-dependent selection and lead to temporal or spatial warning signal diversification. Examining these mechanisms and their effects requires first confirming whether the most common morphs are favored at both local and regional scales. Empirical examples of this are uncommon and often include potentially confounding factors, such as a lack of knowledge of predator identity and behavior. …

varoitusväriForagingFrequency-dependent selectionColorPREYAposematismMothswarning colorationtäpläsiilikäsSEXUAL SELECTIONpolymorphismPredationSIGNALSAnimalsaposematismPasseriformesDEPENDENT SELECTIONmuuntelu (biologia)PredatorEcology Evolution Behavior and SystematicsParusluonnonvalintaHYPOTHESISbiologyEcologycontext-dependent predationLEAF BEETLEMIMICRYbiology.organism_classificationBiological EvolutionsaalistusPOLYMORPHISMfrequency-dependent selectionSympatric speciationPredatory BehaviorTRADE-OFFSexual selection1181 Ecology evolutionary biologyThe American Naturalist
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The Effect of Predator Population Dynamics on Batesian Mimicry Complexes.

2022

Understanding Batesian mimicry is a classic problem in evolutionary biology. In Batesian mimicry, a defended species (the model) is mimicked by an undefended species (the mimic). Prior theories have emphasized the role of predator behavior and learning as well as evolution in model-mimic complexes but have not examined the role of population dynamics in potentially governing the relative abundances and even persistence of model-mimic systems. Here, we examined the effect of the population dynamics of predators and alternative prey on the prevalence of warning-signaling prey composed of models and mimics. Using optimal foraging theory and signal detection theory, we found that the inclusion …

varoitusväriJACAMARS GALBULA-RUFICAUDAInformationSystems_INFORMATIONINTERFACESANDPRESENTATION(e.g.HCI)apparent competitionPopulationAVIAN PREDATORSPopulation DynamicsevoluutioBiologyALTERNATIVE PREYModels BiologicalEMPIRICAL-TESTInformationSystems_MODELSANDPRINCIPLESsignal detectionIMPERFECT MIMICRYAnimalsaposematismeducationtheoryPredatorEcology Evolution Behavior and Systematicssignal detection theoryeducation.field_of_studyBiological MimicrymimikryComputingMilieux_PERSONALCOMPUTINGeliöyhteisötdynamicspopulaatiodynamiikkaBiological EvolutionBatesian mimicrySIGNAL-DETECTION-THEORYCORAL-SNAKE PATTERNNATURAL-SELECTIONComputingMethodologies_PATTERNRECOGNITIONEvolutionary biologyPredatory Behavior1181 Ecology evolutionary biologywarning signalCOMMUNITY STRUCTUREcommunity ecologyMULLERIAN MIMICRYThe American naturalist
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Evolution of signal diversity: predator-prey interactions and the maintenance of warning colour polymorphism in the wood tiger moth Arctia plantaginis

2017

Aposematic organisms avoid predation by advertising defences with warning signals. The theory of aposematism predicts warning signal uniformity, yet variation in warning coloration is widespread. The chemically defended wood tiger moth Arctia plantaginis shows both geographic variation and local polymorphism in warning coloration. In this thesis, I studied whether predation by local avian predators is driving the evolution of wood tiger moth warning colours. The close relatives of the wood tiger moth designated here to genus Arctia do not show similar colour polymorphism. The wood tiger moth is thus apparently under evolutionary radiation and provides a natural laboratory for observing curr…

varoitusvärimuuntelusiilikkäätpredator-prey interactionsmimikryevoluutioaposematismwarning signal evolutiongeneralizationmimicrysaalistustäpläsiilikäspolymorphism
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The impact of life stage and pigment source on the evolution of novel warning signal traits

2021

Our understanding of how novel warning color traits evolve in natural populations is largely based on studies of reproductive stages and organisms with endogenously produced pigmentation. In these systems, genetic drift is often required for novel alleles to overcome strong purifying selection stemming from frequency-dependent predation and positive assortative mating. Here, we integrate data from field surveys, predation experiments, population genomics, and phenotypic correlations to explain the origin and maintenance of geographic variation in a diet-based larval pigmentation trait in the redheaded pine sawfly (Neodiprion lecontei), a pine-feeding hymenopteran. Although our experiments c…

varoitusvärimäntypistiäisetecological geneticsPopulationFREQUENCY-DEPENDENT SELECTIONevoluutioAposematismPredationravintoNegative selectionchemical defenseGenetic driftAposematismpolytypic colorationGeneticsAnimalsaposematismCOLORPOPULATION-GENETICSmuuntelu (biologia)educationEcology Evolution Behavior and Systematicseducation.field_of_studybiologyPigmentationfungiAssortative matingcarotenoidsfood and beverageshost adaptationbiology.organism_classificationBiological EvolutionHymenopterakarotenoiditREAD ALIGNMENTNeodiprion leconteiSawflyCHEMICAL DEFENSEPhenotypeEvolutionary biologyTRADE-OFFLarvaPredatory Behavior1181 Ecology evolutionary biologySHIFTING BALANCEWOOD TIGER MOTHGeneral Agricultural and Biological SciencesGENETIC CORRELATIONSMULLERIAN MIMICRYEvolution
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Diversity in warning coloration: selective paradox or the norm?

2019

Aposematic theory has historically predicted that predators should select for warning signals to converge on a single form, as a result of frequency-dependent learning. However, widespread variation in warning signals is observed across closely related species, populations and, most problematically for evolutionary biologists, among individuals in the same population. Recent research has yielded an increased awareness of this diversity, challenging the paradigm of signal monomorphy in aposematic animals. Here we provide a comprehensive synthesis of these disparate lines of investigation, identifying within them three broad classes of explanation for variation in aposematic warning signals: …

varoitusväripolytypismFREQUENCY-DEPENDENT SELECTIONModels BiologicalSEXUAL SELECTIONpolymorphismPOLYMORPHIC MULLERIAN MIMICRYSex FactorsmonimuotoisuusAnimalsaposematismEcosystemGRAPHOSOMA-LINEATUM HETEROPTERAPolymorphism GeneticINDO-WEST PACIFICEVOLUTIONARY SIGNIFICANCEBiological MimicryAge FactorsTemperaturePOISON FROGSOriginal ArticlesBiodiversityPigments BiologicalBiological EvolutionCORAL-SNAKE PATTERNcontinuous variationmuunteluBiological Variation PopulationPredatory Behavior1181 Ecology evolutionary biologyHISTORY TRADE-OFFSOriginal ArticleHELICONIUS BUTTERFLIES
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Can structural and bioactivity gradients mitigate intima hyperplasia on a small diameter tissue-engineered vascular graft?

vascular graftBiomimetictissue-engineeredCardiovascular
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Kuolan niemimaa, Karjala ja Inkeri

1782

Eero ja Erkki Fredriksonin säätiö

vesistötKareliakaupungitIngriaInkeriKolarajathallintoalueetKarjalaKuolan niemimaa
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