Inter-Colony Comparison of Diving Behavior of an Arctic Top Predator: Implications for Warming in the Greenland Sea

The goal of this study was to assess how diverse oceanographic conditions and prey communities affect the foraging behavior of little auks Alle alle. The Greenland Sea is characterized by 3 distinct water masses: (1) the East Greenland Current (EGC), which carries Arctic waters southward; (2) the Sø...

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Bibliographic Details
Main Authors: Karnovsky, Nina J., Brown, Zachary W., '07, Welcker, Jorg, Harding, Ann M.A., Walkusz, Wojciech, Cavalcanti, André, Hardin, Johanna S., Kitaysky, Alexander, Gabrielsen, Geir, Grémillet, David
Format: Text
Language:unknown
Published: Scholarship @ Claremont 2011
Subjects:
Little auk
Alle alle
Calanus
Climate change
East Greenland Current
Sørkapp Current
West Spitsbergen Current
Time-depth recorder
Dovekie
Applied Mathematics
Ecology and Evolutionary Biology
Physical Sciences and Mathematics
Arctic
Arctic Ocean
Greenland
East Greenland
east greenland current
Greenland Sea
little auk
Copepods
Spitsbergen
Online Access:https://scholarship.claremont.edu/pomona_fac_pub/293
https://scholarship.claremont.edu/cgi/viewcontent.cgi?article=1297&context=pomona_fac_pub
Description
Summary:The goal of this study was to assess how diverse oceanographic conditions and prey communities affect the foraging behavior of little auks Alle alle. The Greenland Sea is characterized by 3 distinct water masses: (1) the East Greenland Current (EGC), which carries Arctic waters southward; (2) the Sørkapp Current (SC), which originates in the Arctic Ocean but flows north along the west coast of Spitsbergen; and (3) the West Spitsbergen Current (WSC), which carries warm Atlantic-derived water north. Each of these 3 water masses is characterized by a distinct mesozooplankton community. Little auks breeding adjacent to the EGC have access to large, lipid-rich Calanus copepods, whereas those adjacent to the SC have medium sized prey, while those near the WSC are limited to even smaller, less profitable prey. We used time−depth recorders to compare the time allocation and diving behavior of little auks adjacent to each of these 3 water masses. We predicted that birds in the EGC would not have to forage as intensively as those in the SC or WSC. We found that little auks foraging in the EGC spent less time at sea, spent less time flying, dived less often, made fewer long, deep dives, and made fewer V-shaped searching dives. This indicates that the EGC provides a more favorable foraging environment than do the warmer water masses to the east. Comparing the foraging behavior of little auk populations confined to Arctic versus Atlantic-influenced waters can provide insight into the potential impacts of future warming in the Greenland Sea.

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