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At-sea behavioural ecology of the endangered MacGillivray's prion from Saint Paul Island: combining tracking and stable isotopes

Citation

Delord, K and Cherel, Y and Roy, A and Bustamante, P and Swadling, KM and Weimerskirch, H and Bost, C-A and Barbraud, C, At-sea behavioural ecology of the endangered MacGillivray's prion from Saint Paul Island: combining tracking and stable isotopes, Marine Ecology Progress Series, 697 pp. 149-165. ISSN 0171-8630 (2022) [Refereed Article]


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Inter-Research 2022

DOI: doi:10.3354/meps14136

Abstract

Seabirds play important roles as marine ecosystem sentinels. Studying their at-sea ecology is essential for understanding how environmental variability affects their populations. However, the at-sea ecology of small-sized temperate seabirds remains poorly studied. We explored the at-sea ecology of the Critically Endangered MacGillivray's prion Pachyptila macgillivrayi breeding on the subtropical Saint Paul Island. Using global location sensor loggers and stable isotope analysis, we investigated movements, migratory strategies, at-sea activity and moulting period, and characterized the isotopic niche of tracked individuals. During incubation, MacGillivray's prions remained in temperate waters north of the Subtropical Front, possibly feeding on prey caught in cold eddies. During the inter-breeding period, individuals wintered almost equally to the north and south of the Subtropical Front in 2 distinct sectors (Tasman Sea and Southwest Indian Ridge). Daily activity varied seasonally, and individuals overwintering in the Tasman Sea spent more time flying at night when moonlight intensity was high. Moulting occurred after the breeding period and lasted longer compared to other prion species. Isotopic data suggest a higher dietary proportion of low trophic-level prey for MacGillivray's prions than for Antarctic and slender-billed prions, highlighting trophic segregation in relation to bill width. Our study provides new evidence to understand the suite of adaptations allowing the abundant prion species to coexist by feeding on prey of different sizes. Contrary to the majority of seabird species, MacGillivray's prions from Saint Paul Island exhibited 2 migratory tactics with associated differences in at-sea activity, leading to questions about the origin of these differences.

Item Details

Item Type:Refereed Article
Keywords:diet analysis, seabirds, subantarctic, stable isotopes, Pachyptila macgillivrayi, at-sea distribution, activity pattern, Southern Indian Ocean, geolocation, GPS, seabirds, bill width, trophic position
Research Division:Biological Sciences
Research Group:Ecology
Research Field:Marine and estuarine ecology (incl. marine ichthyology)
Objective Division:Expanding Knowledge
Objective Group:Expanding knowledge
Objective Field:Expanding knowledge in the environmental sciences
UTAS Author:Swadling, KM (Associate Professor Kerrie Swadling)
ID Code:153639
Year Published:2022
Deposited By:Ecology and Biodiversity
Deposited On:2022-09-29
Last Modified:2022-11-28
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