0000000000164468

AUTHOR

Alexandre Roulin

showing 4 related works from this author

Melanin-based colour polymorphism signals aggressive personality in nest and territory defence in the tawny owl (Strix aluco)

2013

Nest and territory defence are risky and potentially dangerous behaviours. If the resolution of life history trade-offs differs between individuals, the level of defence may also vary among individuals. Because melanin-based colour traits can be associated with life history strategies, differently coloured individuals may display different nest and territory defence strategies. We investigated this issue in the colour polymorphic tawny owl (Strix aluco) for which plumage varies from dark to light reddish melanic. Accordingly, we found that (1) our presence induced a greater response (flying around) from dark-coloured than light-coloured females and (2) dark reddish males suffered lower nest…

biologygenetic structuresEcologyAggressive personalityNest defence; Colour polymorphism; Personality; Pheomelanin; PredationLife history theoryPredationStrix alucoNestAnimal ecologyPlumagebiology.animalAnimal Science and ZoologyLife historyEcology Evolution Behavior and Systematics
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Melanism is related to behavioural lateralization in nestling barn owls.

2017

5 pages; International audience; Behavioural laterality is a commonly observed phenomenon in many species suggesting there might be an advantage of using dominantly one side over the other for certain tasks. Indeed, lateralized individuals were often shown to be more successful in cognitive tasks compared to non-lateralized conspecifics. However, stressed individuals are also often, but not always, more strongly lateralized. Because barn owl (Tyto alba) females displaying larger black spots on the tip of their ventral feathers produce offspring that are more resistant to a variety of environmental stressful factors, we examined whether laterality is associated with melanin-based coloration.…

0106 biological sciencesScratching01 natural sciencesFunctional LateralityPreeningDevelopmental psychologyBehavioral Neuroscience0302 clinical medicineMESH: MelaninsMESH: Behavior AnimalMESH: AnimalsBehavior AnimalbiologyPigmentationBarn-owlTytoMESH: Stress PsychologicalGeneral MedicineFeathervisual_artLateralityvisual_art.visual_art_mediumFemaleMESH: GroomingPsychologyBlack spotPersonalityOffspringMESH: StrigiformesZoologyDevelopment010603 evolutionary biologyLateralization of brain functionMESH: Pigmentation03 medical and health sciencesBirdAnimalsColourationMESH: FeathersMESH: Functional LateralityMelaninsMelanismFeathersStrigiformesbiology.organism_classificationGroomingAnimal Science and Zoology[SDE.BE]Environmental Sciences/Biodiversity and EcologyMESH: FemaleStress Psychological030217 neurology & neurosurgery
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The biology of color

2017

In living color Animals live in a colorful world, but we rarely stop to think about how this color is produced and perceived, or how it evolved. Cuthill et al. review how color is used for social signals between individual animals and how it affects interactions with parasites, predators, and the physical environment. New approaches are elucidating aspects of animal coloration, from the requirements for complex cognition and perception mechanisms to the evolutionary dynamics surrounding its development and diversification. Science , this issue p. eaan0221

0301 basic medicinegenetic structuresColor functionEvolutionSpeciationColor perceptionBiologyColor functionSocial signaling03 medical and health sciencesUltraviolet lightStructural colorationAnimalsPhotoreceptor CellsEvolutionary dynamicsOrganismCognitive scienceMultidisciplinaryColor pigmentsColor VisionEcologyMechanism (biology)PigmentationReproductionAnimal colorationPigments BiologicalBiological Evolution030104 developmental biologyCamouflageColor Perception
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No need to shout: Effect of signal loudness on sibling communication in barn owlsTyto alba

2017

In animal communication, signal loudness is often ignored and seldom measured. We used a playback experiment to examine the role of vocal loudness (i.e., sound pressure level) in sibling to sibling communication of nestling barn owls Tyto alba. In this species, siblings vocally negotiate among each other for priority access to parental food resources. Call rate and call duration play key roles in this vocal communication system, with the most vocal nestlings deterring their siblings from competing for access to the food item next delivered by parents. Here, we broadcast calls at different loudness levels and call rate to live nestlings. The loudness of playback calls did not affect owlets' …

0106 biological sciencesCommunicationbiologybusiness.industry05 social sciencesTytoAffect (psychology)biology.organism_classification010603 evolutionary biology01 natural sciencesLoudnessSilenceBegging0501 psychology and cognitive sciencesAnimal Science and ZoologyAnimal communication050102 behavioral science & comparative psychologySiblingPsychologybusinessEcology Evolution Behavior and SystematicsCall durationEthology
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