Foraging flexibility and search patterns are unlinked during breeding in a free-ranging seabird

In order to maximize foraging efficiency in a varying environment, predators are expected to optimize their search strategy. Environmental conditions are one important factor affecting these movement patterns, but variations in breeding constraints (self-feeding vs. feeding young and self-feeding) d...

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Bibliographic Details
Published in:Marine Biology
Main Authors: Shoji, A, Aris-Brosou, S, Owen, E, Bolton, M, Boyle, D, Fayet, A, Dean, B, Kirk, H, Freeman, R, Perrins, C, Guilford, T
Format: Article in Journal/Newspaper
Language:English
Published: Springer Verlag 2016
Subjects:
Alca torda
Razorbill
Online Access:https://doi.org/10.1007/s00227-016-2826-x
https://ora.ox.ac.uk/objects/uuid:71419a1d-0fef-4d47-b9c5-9d3d362f58a4
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Summary:In order to maximize foraging efficiency in a varying environment, predators are expected to optimize their search strategy. Environmental conditions are one important factor affecting these movement patterns, but variations in breeding constraints (self-feeding vs. feeding young and self-feeding) during different breeding stages (incubation vs. chick-rearing) are often overlooked, so that the mechanisms responsible for such behavioral shifts are still unknown. Here, to test how search patterns are affected at different breeding stages and to explore the proximate causes of these variations, we deployed data loggers to record both position (global positioning system) and dive activity (time–depth recorders) of a colonial breeding seabird, the razorbill Alca torda. Over a period of 3 years, our recordings of 56 foraging trips from 18 breeders show that while there is no evidence for individual route fidelity, razorbills exhibit higher foraging flexibility during incubation than during chick rearing, when foraging becomes more focused on an area of high primary productivity. We further show that this behavioral shift is not due to a shift in search patterns, as reorientations during foraging are independent of breeding stage. Our results suggest that foraging flexibility and search patterns are unlinked, perhaps because birds can read cues from their environment, including conspecifics, to optimize their foraging efficiency.

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