Search results for "suojaväri"

showing 10 items of 15 documents

Variable crab camouflage patterns defeat search image formation.

2021

Understanding what maintains the broad spectrum of variation in animal phenotypes and how this influences survival is a key question in biology. Frequency dependent selection – where predators temporarily focus on one morph at the expense of others by forming a “search image” – can help explain this phenomenon. However, past work has never tested real prey colour patterns, and rarely considered the role of different types of camouflage. Using a novel citizen science computer experiment that presented crab “prey” to humans against natural backgrounds in specific sequences, we were able to test a range of key hypotheses concerning the interactions between predator learning, camouflage and mor…

0106 biological sciences0301 basic medicineTime FactorsComputer scienceQH301-705.5BrachyuraBehavioural ecologyFrequency-dependent selectionMedicine (miscellaneous)ColorVariation (game tree)010603 evolutionary biology01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyArticlePredationtaskuravut03 medical and health sciencesDisruptive colorationCitizen scienceAnimalsHumansexperimental evolutionBiology (General)muuntelu (biologia)PredatorEcosystemsuojaväriMechanism (biology)Pigmentationbehavioural ecologyAdaptation Physiological030104 developmental biologyPhenotypeVideo GamesExperimental evolutionEvolutionary biologyCamouflagePattern Recognition PhysiologicalPredatory BehaviorfenotyyppiGeneral Agricultural and Biological SciencesColor PerceptionCommunications biology
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Gray plumage color is more cryptic than brown in snowy landscapes in a resident color polymorphic bird

2020

Abstract Camouflage may promote fitness of given phenotypes in different environments. The tawny owl (Strix aluco) is a color polymorphic species with a gray and brown morph resident in the Western Palearctic. A strong selection pressure against the brown morph during snowy and cold winters has been documented earlier, but the selection mechanisms remain unresolved. Here, we hypothesize that selection favors the gray morph because it is better camouflaged against predators and mobbers in snowy conditions compared to the brown one. We conducted an online citizen science experiment where volunteers were asked to locate a gray or a brown tawny owl specimen from pictures taken in snowy and snow…

0106 biological sciencesFITNESSStrix alucoSpecies distributioncolor polymorphismZoologyCAMOUFLAGE010603 evolutionary biology01 natural sciencesPredationOWLS03 medical and health scienceslcsh:QH540-549.5biology.animalcamouflagemonimuotoisuusvisual predationEcology Evolution Behavior and SystematicsREDUCE030304 developmental biologyNature and Landscape ConservationOriginal ResearchsuojaväriRISK0303 health sciencesEcologybiologyselviytyminenlehtopöllöVIEWSilmastonmuutokset15. Life on landsaalistusPasserineEVOLUTIONStrix alucoclimate changeMAINTENANCEPlumageCamouflageTESTS1181 Ecology evolutionary biologyDETECTlcsh:EcologyGray (horse)survival selection
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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
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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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A synthesis of deimatic behaviour

2022

Deimatic behaviours, also referred to as startle behaviours, are used against predators and rivals. Although many are spectacular, their proximate and ultimate causes remain unclear. In this review we aim to synthesise what is known about deimatic behaviour and identify knowledge gaps. We propose a working hypothesis for deimatic behaviour, and discuss the available evidence for the evolution, ontogeny, causation, and survival value of deimatic behaviour using Tinbergen's Four Questions as a framework. Our overarching aim is to direct future research by suggesting ways to address the most pressing questions in this field. peerReviewed

defencecognitionsuojavärivaroitusvärisaaliseläimetpredatordeimatismeläinten käyttäytyminenGeneral Biochemistry Genetics and Molecular Biologybehaviourstartleantipredatorevoluutioekologiakilpailu (biologia)Predatory BehaviorpetoeläimetAnimalspreyaposematismpuolustusmekanismit (biologia)General Agricultural and Biological SciencescompetitionBiological Reviews
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Camouflage in arid environments: the case of Sahara-Sahel desert rodents

2020

Deserts and semi-deserts, such as the Sahara-Sahel region in North Africa, are exposed environments with restricted vegetation coverage. Due to limited physical surface structures, these open areas provide a promising ecosystem to understand selection for crypsis. Here, we review knowledge on camouflage adaptation in the Sahara-Sahel rodent community, which represents one of the best documented cases of phenotype-environment convergence comprising a marked taxonomic diversity. Through their evolutionary history, several rodent species from the Sahara-Sahel have repeatedly evolved an accurate background matching against visually-guided predators. Top-down selection by predators is therefore …

jyrsijätAquatic Sciencebackground matchingGeneralist and specialist speciesPredation/dk/atira/pure/core/keywords/cognitive_scienceAfrikka/dk/atira/pure/core/keywords/visual_perceptioncamouflagepetoeläimetparasitic diseasesprotective colourationEcology Evolution Behavior and SystematicssuojavärisaaliseläimetEcologyVegetationAridcrypsisaavikotGeographyHabitatCamouflageAfricaCrypsisVisual PerceptionCognitive ScienceAnimal Science and ZoologypredationAdaptationJournal of Vertebrate Biology
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Warning signalling in European vipers and their mimics : implications for conservation of the smooth snake

2014

smooth snakekyykäärmeetsuojautuminenaposematismiCoronella austricaconservationVipera berusvaroitusväritsaalistussuojaväritkangaskäärmevaroitussignaalitmatkiminenaposematismsignaalitsaalistuksenvälttämisstrategiatmimicrymalli-matkijasysteemitviper
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The effect of spatial and temporal scale on camouflage in North African rodents

2022

Abstract Background matching, a common form of camouflage, is a widespread anti-predator adaptation that hinders detection or recognition by increasing the resemblance of prey to its environment. However, the natural environment is complex and both spatially and temporally variable, which constrains effective background matching as an anti-predator strategy. Here, using remote sensing data (publicly available satellite imagery), we investigated how variation of habitat parameters predicts background matching in 16 Sahara–Sahel rodent species across spatial and temporal scales. All fur colour parameters (hue, saturation and brightness) strongly matched the respective habitats of the differen…

sopeutuminensuojavärijyrsijätspecialisthabitaattiadaptationpaikkatietoanalyysibackground matchingcrypsiscryptic colorationsatelliittikuvataavikotrodentsSahara–SahelgeneralistdesertympäristönmuutoksetEcology Evolution Behavior and SystematicsBiological Journal of the Linnean Society
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The giant panda is cryptic

2021

The giant panda (Ailuropoda melanoleuca) is an iconic mammal, but the function of its black-and-white coloration is mysterious. Using photographs of giant pandas taken in the wild and state-of-the-art image analysis, we confirm the counterintuitive hypothesis that their coloration provides camouflage in their natural environment. The black fur blends into dark shades and tree trunks, whereas white fur matches foliage and snow when present, and intermediate pelage tones match rocks and ground. At longer viewing distances giant pandas show high edge disruption that breaks up their outline, and up close they rely more on background matching. The results are consistent across acuity-corrected c…

suojaväriMammalsEcologygenetic structuresEvolutionBehavioural ecologyisopandaBiological MimicryScienceQRBiological EvolutionArticlePhenotypePhysical Appearance BodyAnimalsHumansMedicineUrsidaeScientific Reports
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Camouflage accuracy in Sahara-Sahel desert rodents

2020

1.Camouflage helps animals to hide from predators and is therefore key to survival. Although widespread convergence of animal phenotypes to their natural environment is well established, there is a lack of knowledge about how species compromise camouflage accuracy across different background types in their habitat. 2.Here we tested how background matching has responded to top‐down selection by avian and mammalian predators using Sahara‐Sahel desert rodents in North Africa. 3.We show that the fur coloration of several species has become an accurate match to different types of desert habitats. This is supported by a correlation analysis of colour and pattern metrics, investigation of animal‐t…

suojaväriaavikotDipodinaeluonnonvalintajyrsijätvision modelQCPAbackground matchingGerbillinaetop‐down selectiongerbiilitdesert
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