Search results for "Birds"

showing 10 items of 291 documents

Response to formal comment on Myhrvold (2016) submitted by Griebeler and Werner (2017)

2018

In his 2016 paper, Myhrvold criticized ours from 2014 on maximum growth rates (Gmax, maximum gain in body mass observed within a time unit throughout an individual’s ontogeny) and thermoregulation strategies (ectothermy, endothermy) of 17 dinosaurs. In our paper, we showed that Gmax values of similar-sized extant ectothermic and endothermic vertebrates overlap. This strongly questions a correct assignment of a thermoregulation strategy to a dinosaur only based on its Gmax and (adult) body mass (M). Contrary, Gmax separated similar-sized extant reptiles and birds (Sauropsida) and Gmax values of our studied dinosaurs were similar to those seen in extant similar-sized (if necessary scaled-up) …

0106 biological sciences0301 basic medicineMetabolic AnalysisPhysiologylcsh:MedicineAnimal Phylogenetics01 natural sciencesDinosaursBody TemperatureExtant taxonOrnithologyMaximum gainMedicine and Health SciencesGrowth rateSauropsidalcsh:ScienceArchosauriaData ManagementMammalsMultidisciplinarybiologyVertebrateEukaryotaPrehistoric AnimalsThermoregulationPhylogeneticsBioassays and Physiological AnalysisPhysiological ParametersEctothermVertebratesRegression AnalysisComputer and Information SciencesVertebrate PaleontologyZoologyResearch and Analysis Methods010603 evolutionary biologyFormal CommentBirds03 medical and health sciencesbiology.animalBasal Metabolic Rate MeasurementAnimalsAnimal PhysiologyEvolutionary SystematicsPaleozoologyTaxonomyEvolutionary Biologylcsh:ROrganismsBiology and Life SciencesPaleontologyReptilesbiology.organism_classificationBird Physiology030104 developmental biologyAmniotesEarth Scienceslcsh:QAllometryPaleobiologyZoologyPLoS ONE

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Dinosaur Metabolism and the Allometry of Maximum Growth Rate

2016

0106 biological sciences0301 basic medicineMetabolic stateMetabolic AnalysisPhysiologylcsh:MedicineAnimal Phylogenetics01 natural sciencesBody TemperatureDinosaursMathematical and Statistical TechniquesExtant taxonMedicine and Health SciencesBody SizeGrowth ratelcsh:Sciencemedia_commonArchosauriaData ManagementMammalsMultidisciplinaryEcologyFossilsEukaryotaRegression analysisPrehistoric AnimalshumanitiesCurve FittingPhylogeneticsBioassays and Physiological AnalysisPhysiological ParametersEctothermPhysical SciencesVertebratesRegression AnalysisStatistics (Mathematics)Research ArticleComputer and Information Sciencesmedia_common.quotation_subjectVertebrate PaleontologyBiologyResearch and Analysis Methods010603 evolutionary biologyMarsupialsFormal CommentBirds03 medical and health sciencesBasal Metabolic Rate MeasurementAnimalsEvolutionary SystematicsStatistical MethodsPaleozoologyTaxonomyEvolutionary BiologyVariableslcsh:ROrganismsReptilesBiology and Life SciencesPaleontology030104 developmental biologyEvolutionary biologyBasal metabolic rateAmniotesEarth Scienceslcsh:QAllometryPaleobiologyEnergy MetabolismZoologyMathematical FunctionsMathematicsPLoS ONE

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A Migratory Divide Among Red-Necked Phalaropes in the Western Palearctic Reveals Contrasting Migration and Wintering Movement Strategies

2019

Publisher's version (útgefin grein)

0106 biological sciences0301 basic medicineÓðinshanilcsh:EvolutionBird migrationmigration strategyMigració d'ocells01 natural sciencesSEXUAL SELECTIONOnderz. Form. D.ROUTESlcsh:QH359-425itinerancyComputingMilieux_MISCELLANEOUSPhalaropus lobatusCLIMATE-CHANGEPalearcticEcologybiologyEcologyBREEDING MOVEMENTSred-necked phalaropeWageningen Marine ResearchSITE FIDELITYBIRD MIGRATIONflexibilityGeographyHabitat[SDE]Environmental Sciences1181 Ecology evolutionary biologyTropical Eastern PacificPhalaropus lobatusClimate changeARRIVAL TIMES010603 evolutionary biology03 medical and health scienceslcsh:QH540-549.514. Life underwaterWaderLobatusEcology Evolution Behavior and SystematicsCONSEQUENCESBusiness Manager projecten Midden-NoordPaleàrticBirds migrationFuglafarbiology.organism_classificationPhalaropus lo batusLONG030104 developmental biologyVisplasticityWIASPeriod (geology)lcsh:EcologyLOBATUSBusiness Manager projects Mid-North

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Manipulating Individual Decisions and Environmental Conditions Reveal Individual Quality in Decision-Making and Non-Lethal Costs of Predation Risk

2012

Received: July 6, 2012; Accepted: November 13, 2012; Published: December 13, 2012

0106 biological sciencesAnimal breedingEcophysiology01 natural sciencesNesting BehaviorPredationSongbirdsBehavioral EcologyOrnithologyMolecular Cell BiologyCellular Stress ResponsesAnimal Managementmedia_common0303 health sciencesMultidisciplinaryEcologyAnimal BehaviorEcologyReproductionPhysiological conditionQRCommunity EcologyHabitatMedicineFemaleResearch ArticleOffspringSciencemedia_common.quotation_subjectDecision MakingEnvironmentBiology010603 evolutionary biologyBirds03 medical and health sciencesAnimalsQuality (business)BiologyCommunity StructureEcosystemSelection (genetic algorithm)030304 developmental biologyEvolutionary BiologyReproductive successHawksSpecies InteractionsEvolutionary EcologyPredatory Behaviorta1181Veterinary ScienceZoologyPLoS One

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Interspecific comparison of the performance of soaring migrants in relation to morphology, meteorological conditions and migration strategies.

2012

This is an open-access article distributed under the terms of the Creative Commons Attribution License.-- et al.

0106 biological sciencesAtmospheric PhenomenaAtmospheric ScienceBiologialcsh:MedicineComputingMilieux_LEGALASPECTSOFCOMPUTING01 natural sciences010605 ornithologyBehavioral EcologyOrnithologyAfrica NorthernZoologiaMeteorological conditionsMigration strategiesSpatial and Landscape EcologyZoologíaBiomechanicsAtmospheric Dynamicslcsh:ScienceMultidisciplinarybiologyEcologyAnimal BehaviorEcologyPhysicsFlight speedBird flightSeasonsResearch ArticleEagleMorphologyeducationBiophysics010603 evolutionary biologyAltitudeMeteorologybiology.animalAtmospheric StructuresAnimalsBiologyVultureMigratory performance of birdsGlobal wind patternsRaptorslcsh:RInterspecific competitionEarth Sciences1182 Biochemistry cell and molecular biologyAnimal Migrationlcsh:QPhysical geographyScale (map)Zoology

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An integrated analysis of micro- and macro-habitat features as a tool to detect weather-driven constraints: A case study with cavity nesters.

2017

The effects of climate change on animal populations may be shaped by habitat characteristics at both micro- and macro-habitat level, however, empirical studies integrating these two scales of observation are lacking. As analyses of the effects of climate change commonly rely on data from a much larger scale than the microhabitat level organisms are affected at, this mismatch risks hampering progress in developing understanding of the details of the ecological and evolutionary responses of organisms and, ultimately, effective actions to preserve their populations. Cavity nesters, often with a conservation status of concern, are an ideal model because the cavity is a microenvironment potentia…

0106 biological sciencesAtmospheric ScienceResearch FacilitiesPhysiologyOvipositionlcsh:MedicineKestrelMedicine (all); Biochemistry Genetics and Molecular Biology (all); Agricultural and Biological Sciences (all)01 natural sciencesGlobal Warming010605 ornithologyNesting BehaviorGeographical LocationsNestReproductive PhysiologyMedicine and Health SciencesNatural Selectionlcsh:ScienceAbiotic componentClimatologyeducation.field_of_studyMultidisciplinaryBiotic componentbiologyAnimal BehaviorEcologyMedicine (all)Falco naumanniEuropeHabitatItalyVertebratesClutchesResearch ArticleEvolutionary ProcessesClimate ChangePopulationAnimal Sexual BehaviorResearch and Analysis MethodsWeather Stations010603 evolutionary biologyBirdsAnimalseducationWeatherEcosystemFalconiformesAnalysis of VarianceBehaviorEvolutionary BiologyBiochemistry Genetics and Molecular Biology (all)Reproductive successlcsh:REndangered SpeciesOrganismsBiology and Life SciencesModels Theoreticalbiology.organism_classificationReproductive SuccessAgricultural and Biological Sciences (all)AmniotesPeople and PlacesLinear ModelsEarth Scienceslcsh:QZoologyPloS one

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Interspecific variation in the relationship between clutch size, laying date and intensity of urbanization in four species of hole-nesting birds

2016

Marie Vaugoyeau [et al.]

0106 biological sciencesAvian clutch size010504 meteorology & atmospheric sciencesurban heat island effect01 natural sciencesFicedula hypoleucaorthophotographBreeding phenology orthophotograph passerine birds population dynamics urban heat island effect.Parus major11. Sustainabilitypopulation dynamicspasserine birdsQL_671Original Research[SDV.EE]Life Sciences [q-bio]/Ecology environmenteducation.field_of_studyEcologyPhenologyEcologyCyanistesbreeding phenology;orthophotograph;passerine birds;population dynamics;urban heat island effectoiseau nicheurChemistrydynamique des populationsFicedula albicolliseducationPopulationFicedula albicollisBiology010603 evolutionary biologyEcology and Environment[ SDV.EE ] Life Sciences [q-bio]/Ecology environmentreproductionCyanistes caeruleusoiseaueducationBiologyNest boxEcology Evolution Behavior and Systematics0105 earth and related environmental sciencesNature and Landscape ConservationBreeding phenologyEkologiParus[ SDE.BE ] Environmental Sciences/Biodiversity and EcologyurbanisationEnvironmental and SocietyFicedulabiology.organism_classificationpopulaatiodynamiikkaSettore AGR/11 - Entomologia Generale E Applicata13. Climate actionta1181Environnement et Société[SDE.BE]Environmental Sciences/Biodiversity and EcologyZoology

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The worldwide variation in avian clutch size across species and space.

2008

Traits such as clutch size vary markedly across species and environmental gradients but have usually been investigated from either a comparative or a geographic perspective, respectively. We analyzed the global variation in clutch size across 5,290 bird species, excluding brood parasites and pelagic species. We integrated intrinsic (morphological, behavioural), extrinsic (environmental), and phylogenetic effects in a combined model that predicts up to 68% of the interspecific variation in clutch size. We then applied the same species-level model to predict mean clutch size across 2,521 assemblages worldwide and found that it explains the observed eco-geographic pattern very well. Clutches a…

0106 biological sciencesAvian clutch sizeQH301-705.5BiogeographyClimateComparative biologyBiologyEnvironment010603 evolutionary biology01 natural sciencesGeneral Biochemistry Genetics and Molecular Biology010605 ornithologyNesting BehaviorBirdsAnimalsClutchBiology (General)Macroecologyreproductive and urinary physiologyBrood parasiteEvolutionary BiologyGeneral Immunology and MicrobiologyEcologyGeographyEcologyGeneral NeuroscienceInterspecific competitionClutch SizePhylogeographyFemaleSeasonsGeneral Agricultural and Biological SciencesResearch ArticlePLoS biology

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Phenological sensitivity to climate change is higher in resident than in migrant bird populations among European cavity breeders

2018

Many organisms adjust their reproductive phenology in response to climate change, but phenological sensitivity to temperature may vary between species. For example, resident and migratory birds have vastly different annual cycles, which can cause differential temperature sensitivity at the breeding grounds, and may affect competitive dynamics. Currently, however, adjustment to climate change in resident and migratory birds have been studied separately or at relatively small geographical scales with varying time series durations and methodologies. Here, we studied differential effects of temperature on resident and migratory birds using the mean egg laying initiation dates from 10 European n…

0106 biological sciencesBLUE TITadaptation01 natural sciencesNesting Behavior010605 ornithologyGEOGRAPHICAL VARIATIONadaptation birds climate change competition information use laying date nest boxes timingtimingClimate changePasseriformesGeneral Environmental ScienceTrophic levelmedia_commonGlobal and Planetary ChangeEcologyEcologyPhenologyReproductionTemperatureEuropeNEST-SITE SELECTIONclimate changeMIGRATORY BIRDSinternationalTROPHIC LEVELSSeasonslaying datecompetitionnest boxesmedia_common.quotation_subjectta1172Climate changeBiologySPRING TEMPERATURE010603 evolutionary biologyCompetition (biology)BirdsLONG-DISTANCE MIGRANTmedicineAnimalsEnvironmental ChemistryTIT PARUS-MAJORAdaptationNest boxCompetitionSHIFTSInterspecific competitioninformation use15. Life on landSeasonalitymedicine.disease13. Climate actionbirdsFLYCATCHERS FICEDULA-HYPOLEUCAta1181Animal MigrationAdaptationGlobal Change Biology

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Habitat- and density-dependent demography of a colonial raptor in Mediterranean agro-ecosystems

2016

Agricultural intensification is considered the major cause of decline in farmland bird populations, especially in the Mediterranean region. Food shortage increased by the interaction between agricultural intensification and density-dependent mechanisms could influence the population dynamics of colonial birds.Weused demographic data on lesser kestrels (Falco naumanni), a key species of Mediterranean pseudo-steppes, to understand the importance of land-use changes and density-dependent mechanisms in the light of its fluctuating conservation status in the Western Palearctic. Our analysis indicated an important influence of land uses (artichokes, arable and grassland fields) and colony size on…

0106 biological sciencesCapture-recapture modelsPopulationSettore BIO/05 - ZoologiaKestrel010603 evolutionary biology01 natural sciences010605 ornithologyLesser kestrelColony sizePopulation growthAgricultural intensiﬁcation Capture–recapture model Colony size Farmland birds Land-use Lesser kestreleducationLand-useAgricultural intensiﬁcationEcology Evolution Behavior and SystematicsNature and Landscape ConservationFarmland birdseducation.field_of_studybiologyAgricultural intensificationEcologyFalco naumanniCapture–recapture modelbiology.organism_classificationFecundityCapture-recapture modelHabitatConservation statusArable landFarmland birdDemographyBiological Conservation

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