Search results for "STOPOVER"

showing 6 items of 6 documents

Multispecies tracking reveals a major seabird hotspot in the North Atlantic

2021

The conservation of migratory marine species, including pelagic seabirds, is challenging because their movements span vast distances frequently beyond national jurisdictions. Here, we aim to identify important aggregations of seabirds in the North Atlantic to inform ongoing regional conservation efforts. Using tracking, phenology, and population data, we mapped the abundance and diversity of 21 seabird species. This revealed a major hotspot associated with a discrete area of the subpolar frontal zone, used annually by 2.9–5 million seabirds from ≥56 colonies in the Atlantic: the first time this magnitude of seabird concentrations has been documented in the high seas. The hotspot is temporal…

0106 biological sciencesmarine protected areaSHEARWATERSSTOPOVERMarine protected area01 natural sciencesBiologging conservationAbundance (ecology)HABITATComputingMilieux_MISCELLANEOUSEcologybiologyPhenologyconservationArea beyond national jurisdictionOVERLAPHotspot (Wi-Fi)Geographyarea beyond national jurisdictionInternational waters[SDE]Environmental SciencesPopulation dataSeabirdMIGRATIONCONSERVATIONQH1-199.5010603 evolutionary biologyEcology and EnvironmentFEEDING ECOLOGYbiologgingbiology.animalparasitic diseasesVDP::Mathematics and natural science: 400::Zoology and botany: 480High seas14. Life underwaterPELAGIC SEABIRDEcology Evolution Behavior and Systematicsregional seas conventionNature and Landscape ConservationMOVEMENTS010604 marine biology & hydrobiologyfungiGeneral. Including nature conservation geographical distributionPelagic zoneRegional seas conventionFisheryMarine Scienceshigh seasAtlanticMarine protected areaVDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480
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Charging Electric Vehicles Using Opportunistic Stopovers

2017

The diffusion of electric vehicles asks for efficient energy replenishment, which requires geographical and temporal coordination of shared charging resources. We introduce a novel charging methodology that exploits users’ opportunistic mobility. This paper focuses on vehicle stopovers detecting potential charg- ing opportunities. Our mobility-assisted methodology protects users privacy and permits a hybrid centralized/distributed ap- proach avoiding clashes with other potential users. A preliminary analysis on our charging system, obtained with mobility data from the field, shows that among the available charging stations, some are more relevant and have a key role in serving electric vehi…

Engineeringbusiness.product_categoryExploitbusiness.industrySettore ING-INF/03 - Telecomunicazioni020209 energyDistributed computingOnline charging system02 engineering and technologyelectric vehicle recharge stopover mobilityPreliminary analysisHardware_GENERALElectric vehicle0202 electrical engineering electronic engineering information engineeringKey (cryptography)businessTelecommunicationsEfficient energy use
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Welcome aboard: are birds migrating across the Mediterranean Sea using ships as stopovers during adverse weather conditions?

2022

Birds use stopovers during migration to interrupt endurance flight in order to minimize immediate and/or future fitness costs. Stopovers on ships is considered an exceptional and anecdotal event in the ornithological literature. This does not match the experience we had in the summer of 2021, during an oceanographic campaign in the Central Mediterranean, when we regularly observed on average 2.8 birds, of at least 13 species, stopping on board during the 25 days of the campaign. The median stopping time was 42 min, ranging from a few minutes to overnight stays on board. The probability of finding a bird stopping aboard increased with wind force and cloud cover. Birds also stopped more often…

autumn migration marine ornithological campaign sea barrier crossing ship stopoverSettore BIO/05 - ZoologiaAnimal Science and ZoologyEcology Evolution Behavior and Systematics
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Geolocators reveal variation and sex-specific differences in the migratory strategies of a long-distance migrant

2021

Bell F, Bearhop S, Briedis M, El Harouchi M, Bell SC, Castello J, Burgess M. 2022. Geolocators reveal variation and sex-specific differences in the migratory strategies of a long-distance migrant. Ibis. doi:10.1111/ibi.13017

avian migrationEuropean pied flycatcherAfro-Palearctic Flywaygeolocatorretreat migrationanimal behaviorstopover behaviorlight-level loggeranimal movementFicedula hypoleuca
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Geolocators reveal variation and sex-specific differences in the migratory strategies of a long-distance migrant-reference-data

2021

Bell F, Bearhop S, Briedis M, El Harouchi M, Bell SC, Castello J, Burgess M. 2022. Geolocators reveal variation and sex-specific differences in the migratory strategies of a long-distance migrant. Ibis. doi:10.1111/ibi.13017

avian migrationEuropean pied flycatcherAfro-Palearctic Flywaygeolocatorretreat migrationanimal behaviorstopover behaviorlight-level loggeranimal movementFicedula hypoleuca
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Data from: Geolocators reveal variation and sex-specific differences in the migratory strategies of a long-distance migrant

2021

Bell F, Bearhop S, Briedis M, El Harouchi M, Bell SC, Castello J, Burgess M. 2022. Geolocators reveal variation and sex-specific differences in the migratory strategies of a long-distance migrant. Ibis. doi:10.1111/ibi.13017

avian migrationEuropean pied flycatcherAfro-Palearctic Flywaygeolocatorretreat migrationanimal behaviorstopover behaviorlight-level loggeranimal movementFicedula hypoleuca
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