Search results for "Stercorarius longicaudus"

showing 5 items of 5 documents

First Observation of a Four-egg Clutch of Long-tailed Jaeger (Stercorarius longicaudus)

2015

5 pages; International audience; Long-tailed Jaegers (Stercorarius longicaudus) normally lay one or two eggs (rarely three), with a maximum of two eggs set by the existence of only two brood patches. Here, however, we present the first documentation of a clutch of four eggs in a Long-tailed Jaeger nest found at Zackenberg in northeastern Greenland.

0106 biological sciencesAvian clutch sizeclutch sizeEcologyEcologylemmingsGreenlandLong-tailed jaegerBiologybiology.organism_classification010603 evolutionary biology01 natural sciencesBrood010605 ornithologyStercorarius longicaudusNestStercorarius longicaudus[ SDV.BA.ZV ] Life Sciences [q-bio]/Animal biology/Vertebrate Zoology[SDV.BA.ZV]Life Sciences [q-bio]/Animal biology/Vertebrate ZoologyAnimal Science and ZoologyClutch[SDV.BA.ZV] Life Sciences [q-bio]/Animal biology/Vertebrate ZoologyZackenbergEcology Evolution Behavior and Systematics
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Trans-equatorial migration routes, staging sites and wintering areas of a High-Arctic avian predator: the Long-tailed Skua (Stercorarius longicaudus).

2013

The Long-tailed Skua, a small (,300 g) Arctic-breeding predator and seabird, is a functionally very important component of the Arctic vertebrate communities in summer, but little is known about its migration and winter distribution. We used lightlevel geolocators to track the annual movements of eight adult birds breeding in north-east Greenland (n = 3) and Svalbard (n = 5). All birds wintered in the Southern Hemisphere (mean arrival-departure dates on wintering grounds: 24 October-21 March): five along the south-west coast of Africa (0–40uS, 0–15uE), in the productive Benguela upwelling, and three further south (30–40uS, 0–50uE), in an area extending into the south-west Indian Ocean. Diffe…

0106 biological sciencesTime FactorsGreenlandlcsh:MedicinehabitatBreeding01 natural sciencesSkuaSvalbardMarine ConservationStercorarius longicaudusOrnithologyFlywayOceansmovementsnorth-atlanticlcsh:ScienceAtlantic Oceanatlantic-ocean[SDV.EE]Life Sciences [q-bio]/Ecology environmentMultidisciplinarygeography.geographical_feature_categoryEcologyAnimal BehaviorbiologyArctic RegionsEcologyMarine EcologydynamicstrackingGeographygeolocationBiogeographyclimate-changeSeasonsSeabirdrevealspelagic seabird;atlantic-ocean;north-atlantic;climate-change;tracking;dynamics;geolocation;movements;reveals;habitatResearch Articlepelagic seabirdMarine Biology010603 evolutionary biology[ SDV.EE ] Life Sciences [q-bio]/Ecology environmentBirdsbiology.animalAnimals14. Life underwaterBiologySouthern Hemisphere[ SDE.BE ] Environmental Sciences/Biodiversity and Ecology010604 marine biology & hydrobiologylcsh:Rbiology.organism_classificationMarine and aquatic sciencesFisheryEarth sciencesArcticPredatory BehaviorUpwellingAnimal Migrationlcsh:Q[SDE.BE]Environmental Sciences/Biodiversity and EcologyOceanic basinZoology
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Flexibility in otherwise consistent non-breeding movements of a long-distance migratory seabird, the long-tailed skua

2017

Quantifying within- and between-individual variation in animal migration strategies is a first step towards our understanding of the ability of migrants to adjust to changes in the en - vironment. We studied consistency (or, conversely, flexibility) in movement patterns at large (>1000 km) to meso-scales (100−1000 km) during the non-breeding season of the long-tailed skua Stercorarius longicaudus, a long-distance migratory Arctic seabird, using light-based geolocation. We obtained 97 annual tracks of 38 individuals and quantified similarity between routes. Overall, tracks of the same individual were generally within about 200 to 300 km of their previous year’s route, and more similar than t…

ATLANTIC0106 biological sciencesEnvironmental changeIndividual consistency · Repeatability · Stercorarius longicaudus · Seabirds · Tracking · Non-breeding movements · Flexibility:Zoology and botany: 480 [VDP]CONSERVATIONMODELSTRANS-EQUATORIAL MIGRATIONAquatic Science010603 evolutionary biology01 natural sciencesSkuaStercorarius longicaudusOnderzoeksformatieOCEANALBATROSSESindividual consistencyDISPERSALbiology.animalRepeatability:Zoologiske og botaniske fag: 480 [VDP]Ecology Evolution Behavior and SystematicsEcologybiologyEcology[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]010604 marine biology & hydrobiologyFlexibility (personality)trackingbiology.organism_classificationTERNS STERNA-PARADISAEASeabirdsGeolocation[ SDV.BID.EVO ] Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]GeographyArcticWildlife Ecology and ConservationStercorarius longicaudusNAVIGATIONWIASnon-breeding movementsBiological dispersalSeabirdFlexibilityBEHAVIOR
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Climate change and cyclic predator-prey population dynamics in the high Arctic.

2009

The high Arctic has the world's simplest terrestrial vertebrate predator–prey community, with the collared lemming being the single main prey of four predators, the snowy owl, the Arctic fox, the long-tailed skua, and the stoat. Using a 20-year-long time series of population densities for the five species and a dynamic model that has been previously parameterized for northeast Greenland, we analyzed the population and community level consequences of the ongoing and predicted climate change. Species' responses to climate change are complex, because in addition to the direct effects of climate change, which vary depending on species' life histories, species are also affected indirectly due to…

GreenlandMustela erminea[SDV.EE.IEO] Life Sciences [q-bio]/Ecology environment/SymbiosisAlopex lagopuspredator–prey interaction[SDE.BE] Environmental Sciences/Biodiversity and Ecology[SDE.MCG] Environmental Sciences/Global Changesclimate changeDicrostonyx groenlandicusArctic communityStercorarius longicauduscyclic dynamics[SDV.EE.ECO] Life Sciences [q-bio]/Ecology environment/EcosystemsNyctea scandiaca
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Data from: Demographic responses of a site-faithful and territorial predator to its fluctuating prey: long-tailed skuas and arctic lemmings

2013

1. Environmental variability, through interannual variation in food availability or climatic variables, is usually detrimental to population growth. It can even select for constancy in key life-history traits, though some exceptions are known. Changes in the level of environmental variability are therefore important to predict population growth or life-history evolution. Recently, several cyclic vole and lemming populations have shown large dynamical changes, that might affect rodent predator demography or life histories. 2. Skuas constitute an important case study among rodent predators, because of their strongly saturating breeding productivity (they lay only two eggs) and high degree of …

medicine and health careDicrostonyx groenlandicusStercorarius longicaudusPopulation cyclesBreeding successLife SciencesMedicine
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