Search results for "plantaginis"

showing 3 items of 53 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
researchProduct

Multimodal Aposematic Defenses Through the Predation Sequence

2021

Aposematic organisms warn predators of their unprofitability using a combination of defenses, including visual warning signals, startling sounds, noxious odors, or aversive tastes. Using multiple lines of defense can help prey avoid predators by stimulating multiple senses and/or by acting at different stages of predation. We tested the efficacy of three lines of defense (color, smell, taste) during the predation sequence of aposematic wood tiger moths (Arctia plantaginis) using blue tit (Cyanistes caeruleus) predators. Moths with two hindwing phenotypes (genotypes: WW/Wy = white, yy = yellow) were manipulated to have defense fluid with aversive smell (methoxypyrazines), body tissues with a…

varoitusväri0106 biological sciencesTastepredator-prey interactionsPyrrolizidine alkaloidEvolutiondefense mechanismsmultimodal signalingPREYAVOIDANCEZoologyContext (language use)AposematismITHOMIINE BUTTERFLIESBiology010603 evolutionary biology01 natural sciencestäpläsiilikäsPredation03 medical and health scienceschemistry.chemical_compoundCyanistes caeruleuschemical defensePYRROLIZIDINE ALKALOIDSQH359-425aposematismpuolustusmekanismit (biologia)Arctia plantaginissinitiainenQH540-549.5EDUCATED PREDATORSEcology Evolution Behavior and Systematics030304 developmental biology0303 health sciencesTASTEEcologyfungiCyanistesbiology.organism_classificationsaalistusWARNING COLORATIONCHEMICAL DEFENSEchemistryTRADE-OFFwarning signals1181 Ecology evolutionary biologyPyrrolizidineChemical defensePYRAZINE ODORFrontiers in Ecology and Evolution
researchProduct

Multimodal Aposematic Signals and Their Emerging Role in Mate Attraction

2018

Chemically defended animals often display conspicuous color patterns that predators learn to associate with their unprofitability and subsequently avoid. Such animals (i.e., aposematic), deter predators by stimulating their visual and chemical sensory channels. Hence, aposematism is considered to be “multimodal.” The evolution of warning signals (and to a lesser degree their accompanying chemical defenses) is fundamentally linked to natural selection by predators. Lately, however, increasing evidence also points to a role of sexual selection shaping warning signal evolution. One of the species in which this has been shown is the wood tiger moth, Arctia plantaginis, which we here put forward…

warning colourationvaroitusvärisaaliseläimetpredator-prey interactionssukupuolivalintaparinvalintapetoeläimetmultimodal signalschemical defencessignaalitchemical signalsarcctia plantaginissignal variation
researchProduct