Search results for "PREY"

showing 10 items of 117 documents

Antipredatory function of head shape for vipers and their mimics.

2011

Most research into the adaptive significance of warning signals has focused on the colouration and patterns of prey animals. However, behaviour, odour and body shape can also have signal functions and thereby reduce predators' willingness to attack defended prey. European vipers all have a distinctive triangular head shape; and they are all venomous. Several non-venomous snakes, including the subfamily Natricinae, commonly flatten their heads (also known as head triangulation) when disturbed. The adaptive significance of this potential behavioural mimicry has never been investigated. We experimentally tested if the triangular head shape typical of vipers offers protection against predation.…

kyykäärmeetModels AnatomicScience PolicyAnimal TypesPopulation Dynamicslcsh:MedicineZoologyBiologybehavioural mimicryHead shapePredationkäärmeetBehavioral EcologyNatrix mauraPredator-Prey DynamicsViperaSubfamily NatricinaeViperidaeAnimalsaposematismAnimal behaviorlcsh:ScienceBiologyAnimal ManagementsnakeEvolutionary BiologyMultidisciplinaryAnimal BehaviorEcologyPopulation BiologyEcologyta1184lcsh:RAgricultureBioethicsTriangular head shapeSpecies InteractionsCommunity EcologyEvolutionary EcologyPredatory BehaviorMimicryAnimal Studiesta1181lcsh:QVeterinary ScienceZoologyResearch ArticlePloS one
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Maintenance, feeding and growth of Carybdea marsupialis (Cnidaria: Cubozoa) in the laboratory

2013

9 pages, 5 figures, 1 table

CnidariaJellyfishbiologySurvivalved/biologyEcologyved/biology.organism_classification_rank.speciesPreyAquatic Sciencebiology.organism_classificationZooplanktonPredationMysisbiology.animalCubozoaFeeding ratesJellyfishCarybdea marsupialisAcartiaEcology Evolution Behavior and SystematicsCopepod
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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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The role of biotic interactions in a prey-predator system : the case of predation and regulation of weed seeds by carabids.

2020

For the transition towards agricultural production systems that are less dependent on herbicides, the use of weed regulation by seed-eating carabids is of great interest. Weed seed predation by carabids is variable and occurs within a complex context of many biotic interactions. This complexity partly explains our current inability to predict levels of in-field weed regulation. In this thesis, I analysed variations in the levels of predation and biological regulation of weeds and determined how they respond to two classes of biotic interactions: 1) the availability of alternative prey; and, 2) intra- and inter-specific interactions between the carabids themselves. Field measurements carried…

Proies alternatives[SDV.SA]Life Sciences [q-bio]/Agricultural sciences[SDV.SA] Life Sciences [q-bio]/Agricultural sciencesNatural predation and regulationAlternative preyPrédation et régulation naturelleInter and intraspecific interactionsInteractions biotiquesInteractions inter et intraspécifiquesBiotic interactionsCarabidaeWeed seedsGraines d’adventices
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Spatial Memory Drives Foraging Strategies of Wolves, but in Highly Individual Ways

2022

The ability of wild animals to navigate and survive in complex and dynamic environments depends on their ability to store relevant information and place it in a spatial context. Despite the centrality of spatial memory, and given our increasing ability to observe animal movements in the wild, it is perhaps surprising how difficult it is to demonstrate spatial memory empirically. We present a cognitive analysis of movements of several wolves (Canis lupus) in Finland during a summer period of intensive hunting and den-centered pup-rearing. We tracked several wolves in the field by visiting nearly all GPS locations outside the den, allowing us to identify the species, location and timing of ne…

central place foragingANIMAL MOVEMENTPREYsusieläinten käyttäytyminenHOME-RANGECOLLARED WOLVESdiscrete choice modelingWORKING-MEMORYwolfRESOURCE SELECTIONSPACEPOPULATIONEcology Evolution Behavior and Systematicsforaging site switchingmuisti (kognitio)reviiritEcologyCANIS-LUPUSsaalistusforaging site fidelityDISCRETE-CHOICE MODELSboundary patrolling1181 Ecology evolutionary biologypredationmovement
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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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The Ghost of the Hawk: Top Predator Shaping Bird Communities in Space and Time

2021

Despite the wide recognition that strongly interacting species can influence distributions of other species, species interactions are often disregarded when assessing or projecting biodiversity distributions. In particular, it remains largely uncharted the extent to which the disappearance of a keystone species cast repercussions in the species composition of future communities. We tested whether an avian top predator can exert both positive and negative effects on spatial distribution of other species, and if these effects persist even after the predator disappeared. We acquired bird count data at different distances from occupied and non-occupied nests of Northern goshawks Accipiter genti…

RISKsaaliseläimetCONSEQUENCESCOMPLEXITYpredator-prey interactionsbayesilainen menetelmäecological legacyheterospecific attractionlintukannatpetolinnuteliöyhteisötASSOCIATIONRESILIENCEBayesian community-modelMESOPREDATOR RELEASE1181 Ecology evolutionary biologylinnutPRESENT-DAY FORESTspecies distributionBIODIVERSITYEXTINCTIONSPAST LAND-USEkeystone species
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Comparative morphology of the postpharyngeal gland in the Philanthinae (Hymenoptera, Crabronidae) and the evolution of an antimicrobial brood protect…

2015

Background Hymenoptera that mass-provision their offspring have evolved elaborate antimicrobial strategies to ward off fungal infestation of the highly nutritive larval food. Females of the Afro-European Philanthus triangulum and the South American Trachypus elongatus (Crabronidae, Philanthinae) embalm their prey, paralyzed bees, with a secretion from a complex postpharyngeal gland (PPG). This coating consists of mainly unsaturated hydrocarbons and reduces water accumulation on the prey’s surface, thus rendering it unfavorable for fungal growth. Here we (1) investigated whether a North American Philanthus species also employs prey embalming and (2) assessed the occurrence and morphology of …

CrabronidaeWaspsMolecular ConformationBeewolvesBeesAntifungalBiological Evolution590 Tiere (Zoologie)HydrocarbonsPrey preservationExocrine GlandsLarvaPredatory BehaviorPhilanthinaeddc:590AnimalsPostpharyngeal glandComparative morphologyAntimicrobialFemale3D reconstructionPostpharyngeal gland; 3D reconstruction; Comparative morphology; Prey preservation; Antimicrobial; Antifungal; Crabronidae; Philanthinae; BeewolvesPhylogenyEcology Evolution Behavior and SystematicsResearch ArticleBMC Evolutionary Biology
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Voles and weasels in the boreal Fennoscandian small mammal community : What happens if the least weasel disappears due to climate change?

2019

Climate change, habitat loss and fragmentation are major threats for populations and a challenge for individual behavior, interactions and survival. Predator–prey interactions are modified by climate processes. In the northern latitudes, strong seasonality is changing and the main predicted feature is shortening and instability of winter. Vole populations in the boreal Fennoscandia exhibit multiannual cycles. High amplitude peak numbers of voles and dramatic population lows alternate in 3–5‐year cycles shortening from North to South. One key factor, or driver, promoting the population crash and causing extreme extended lows, is suggested to be predation by the least weasel. We review the ar…

0106 biological sciencesFood ChainClimate ChangePopulationClimate changeReviewBiology010603 evolutionary biology01 natural scienceseläinten käyttäytyminenPredationNestpredator–preycascading effectsMustelidaeAnimals0501 psychology and cognitive sciences050102 behavioral science & comparative psychologyeducationLeast weaselFinlandSwedeneducation.field_of_studyEcologyArvicolinaeNorwaybehavior05 social sciencesmyyrätleast weasellumikko15. Life on landilmastonmuutoksetbiology.organism_classificationpopulaatiodynamiikkasaalistusHabitat destructionclimate change13. Climate actionPopulation cyclekannanvaihtelutAnimal Science and ZoologyVolepopulation cyclespredator-prey
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Food resource partitioning between two sympatric temperate wrasses

2017

The present study analysed two sympatric wrasses, Thalassoma pavo and Coris julis, with similar sizes and morphologies, that are widespread in the reef habitats of the Mediterranean and the eastern Atlantic coast. Ocean warming has induced the northward movement of T. pavo, whereas C. julis has been moving to deeper habitats. In addition, under conditions of high slope of the sea bottom, T. pavo occupies shallow habitats and C. julis is in greater abundance in deeper habitats. By investigating stomach contents and prey availability in the benthos, we assessed whether the two wrasses exploit food resources by choosing different prey within the same habitat both under co-existence and segreg…

Benthic prey diet Labridae trophic overlap nicheSettore BIO/07 - Ecologia0106 biological sciencesEcologybiologyEcology010604 marine biology & hydrobiologymedia_common.quotation_subjectCorisThalassoma pavoAquatic ScienceOceanographybiology.organism_classification010603 evolutionary biology01 natural sciencesCompetition (biology)PredationFisheryHabitatBenthic zoneSympatric speciationEcology Evolution Behavior and SystematicsTrophic levelmedia_commonMarine and Freshwater Research
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