Vision on the high seas : Spatial resolution and optical sensitivity in two procellariiform seabirds with different foraging strategies

Procellariiform or 'tubenosed' seabirds are challenged to find prey and orient over seemingly featureless oceans. Previous studies have found that life-history strategy (burrow versus surface nesting) was correlated to foraging strategy. Burrow nesters tended to track prey using dimethyl s...

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Bibliographic Details
Published in:Journal of Experimental Biology
Main Authors: Mitkus, Mindaugas, Nevitt, Gabrielle A., Danielsen, Johannis, Kelber, Almut
Format: Article in Journal/Newspaper
Language:English
Published: The Company of Biologists Ltd 2016
Subjects:
Evolutionary Biology
Zoology
Bird visual ecology
Leach's storm petrel
Northern fulmar
Optical sensitivity
Retinal ganglion cell topography
Visual spatial resolution
Fulmar
Northern Fulmar
Online Access:https://lup.lub.lu.se/record/92608753-186f-48bb-bb17-7799cf71bd5e
https://doi.org/10.1242/jeb.140905
Description
Summary:Procellariiform or 'tubenosed' seabirds are challenged to find prey and orient over seemingly featureless oceans. Previous studies have found that life-history strategy (burrow versus surface nesting) was correlated to foraging strategy. Burrow nesters tended to track prey using dimethyl sulphide (DMS), a compound associated with phytoplankton, whereas surface-nesting species did not. Burrow nesters also tended to be smaller and more cryptic, whereas surface nesters were larger with contrasting plumage coloration. Together these results suggested that differences in life-history strategy might also be linked to differences in visual adaptations. Here, we used Leach's storm petrel, a DMSresponder, and northern fulmar, a non-responder, as model species to test this hypothesis on their sensory ecology. From the retinal ganglion cell density and photoreceptor dimensions,we determined that Leach's storm petrels have six times lower spatial resolution than the northern fulmars. However, the optical sensitivity of rod photoreceptors is similar between species. These results suggest that under similar atmospheric conditions, northern fulmars have six times the detection range for similarly sized objects. Both species have extended visual streaks with a central area of highest spatial resolution, but only the northern fulmar has a central fovea. The prediction that burrow-nesting DMSresponding procellariiforms should differ from non-responding species nesting in the open holds true for spatial resolution, but not for optical sensitivity. This result may reflect the fact that both species rely on olfaction for their nocturnal foraging activity, but northern fulmars might use vision more during daytime.

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