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Within-colony spatial segregation leads to foraging behaviour variation in a seabird
Version 2 2024-06-03, 20:49Version 2 2024-06-03, 20:49
Version 1 2019-02-01, 12:48Version 1 2019-02-01, 12:48
journal contribution
posted on 2024-06-03, 20:49 authored by S Sánchez, RD Reina, A Kato, Y Ropert-Coudert, C Cavallo, Graeme HaysGraeme Hays, A Chiaradia© The authors 2018. Central-place foraging in large seabird colonies leads to high levels of intra-specific competition for food resources, often resulting in between-colony spatial segregation. However, little is known about within-colony variation in foraging behaviour that may arise from breeding locations. Using little penguins Eudyptula minor from a large colony (ca. 32 000 individuals) on Phillip Island (Australia), we present a novel approach combining GPS, diving, acceleration and bathymetry data. We investigated within-colony variation in 3-dimensional distribution of prey encounters and its consequences for foraging behaviour and breeding success. Over 1 breeding season, we simultaneously tracked 63 little penguins from 2 breeding sites located ∼2 km apart and monitored their breeding success. We recorded 58 452 dives, of which 11 992 had prey en-counter events associated. Results revealed strong spatial foraging segregation between sites throughout the breeding season and differences between sites in prey encounter depth during chick-rearing (mean ± SE, 11.8 ± 0.2 m vs. 17.3 ± 0.3 m). Birds from one site foraged in deeper waters and appar ently experienced higher levels of competition, r esulting in lower prey encounter rates and lower foraging efficiency (i.e. body mass gain after foraging trips), hence these birds seemed less successful. However, breeding success was high (>1.5 chicks fledged per pair) at both sites, indicating that food was not a limiting factor that year. Nonetheless, breeding success records over the last 12 yr showed that the site where birds foraged at deeper depths produced fewer chicks. Our findings highlight the importance of understanding small-scale spatial segregation to capture foraging behaviour variation within large seabird colonies.
History
Journal
Marine Ecology Progress SeriesVolume
606Pagination
215-230Location
Oldendorf, GermanyPublisher DOI
Open access
- Yes
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ISSN
0171-8630eISSN
1616-1599Language
EnglishPublication classification
C Journal article, C1 Refereed article in a scholarly journalCopyright notice
2018, The AuthorsPublisher
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Keywords
Science & TechnologyLife Sciences & BiomedicinePhysical SciencesEcologyMarine & Freshwater BiologyOceanographyEnvironmental Sciences & EcologyPrey encounterDiving behaviourColonial breedingForaging efficiencyBreeding ecologyBio-loggingAccelerationEudyptula minorPENGUINS EUDYPTULA-MINORNORTHERN ROCKHOPPER PENGUINSINTRA-SPECIFIC COMPETITIONPHILLIP-ISLANDPOPULATION TRENDSGEOGRAPHIC STRUCTUREBREEDING SUCCESSMARINE PREDATORPREY CAPTUREFINE-SCALESchool of Life and Environmental Sciences3103 Ecology3109 Zoology
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