Moult location and diet of auks in the North Sea inferred from coupled light-based and isotope-based geolocation

Many pelagic seabirds moult their feathers while at sea, which is an energetically costly behaviour. Mortality rates during moult can be high, so spatial and trophic ecology during this critical period is important for understanding demographic patterns. Unfortunately, individual foraging behaviours...

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Bibliographic Details
Published in:Marine Ecology Progress Series
Main Authors: Glew, Katie St. John, Wanless, Sarah, Harris, Michael P., Daunt, Francis, Erikstad, Kjell E, Strøm, Hallvard, Trueman, Clive N.
Format: Article in Journal/Newspaper
Language:English
Published: Inter Research 2018
Subjects:
Alca torda
Atlantic puffin
common guillemot
fratercula
Fratercula arctica
Razorbill
Uria aalge
uria
Online Access:http://hdl.handle.net/11250/2557982
https://doi.org/10.3354/meps12624
Description
Summary:Many pelagic seabirds moult their feathers while at sea, which is an energetically costly behaviour. Mortality rates during moult can be high, so spatial and trophic ecology during this critical period is important for understanding demographic patterns. Unfortunately, individual foraging behaviours specifically linked to at-sea moulting are commonly unclear. This paper combines 2 different approaches to geolocation: data from bird-borne geolocation loggers and stableisotope assignment using carbon and nitrogen isotope maps (isoscapes). Coupling 2 geolocation processes allows some uncertainties associated with isotope-based assignment to be constrained. We applied this approach to quantify species-specific foraging locations and individual trophic variability during feather regrowth in 3 sympatric auk populations breeding on the Isle of May, Scotland (common guillemot Uria aalge, razorbill Alca torda and Atlantic puffin Fratercula arctica). Inferred foraging areas during moult differed between species and feather types. Guillemots likely underwent moult within the southern North Sea, razorbills along the east coast of England and into the southern North Sea and puffins off the east coast of Scotland. Estimates of individual trophic position varied considerably within feather types (up to 1 trophic level difference between individuals), among feather types grown during different time periods and across the 3 species, with guillemots consistently foraging at higher trophic positions than razorbills and puffins. Used in combination, these methods better constrain foraging areas during moulting, and provide a technique to explore individual differences and flexibility in foraging strategy, which is valuable information for both seabird conservation and marine spatial planning. Isoscape · Trophic ecology · Foraging · Moult · Atlantic puffin · Common guillemot · Razorbill publishedVersion © The authors 2018. Open Access under Creative Commons by Attribution Licence. Use, distribution and reproduction are un - restricted. Authors and original publication must be credited.

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