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Ecomorphology of eye shape and retinal topography in waterfowl (Aves: Anseriformes: Anatidae) with different foraging modes
Authors:Thomas J. Lisney  Karyn Stecyk  Jeffrey Kolominsky  Brian K. Schmidt  Jeremy R. Corfield  Andrew N. Iwaniuk  Douglas R. Wylie
Affiliation:1. Department of Psychology, University of Alberta, Edmonton, AB, Canada
2. Centre for Neuroscience, University of Alberta, Edmonton, AB, Canada
3. Division of Birds, National Museum of Natural History, Smithsonian Institution, PO Box 30712, Washington, DC, 20013-7012, USA
4. Department of Neuroscience, Canadian Centre for Behavioural Neuroscience, University of Lethbridge, Lethbridge, AB, Canada
Abstract:Despite the large body of literature on ecomorphological adaptations to foraging in waterfowl, little attention has been paid to their sensory systems, especially vision. Here, we compare eye shape and retinal topography across 12 species representing 4 different foraging modes. Eye shape was significantly different among foraging modes, with diving and pursuit-diving species having relatively smaller corneal diameters compared to non-diving species. This may be associated with differences in ambient light intensity while foraging or an ability to tightly constrict the pupil in divers in order to facilitate underwater vision. Retinal topography was similar across all species, consisting of an oblique visual streak, a central area of peak cell density, and no discernible fovea. Because the bill faces downwards when the head is held in the normal posture in waterfowl, the visual streak will be held horizontally, allowing the horizon to be sampled with higher visual acuity. Estimates of spatial resolving power were similar among species with only the Canada goose having a higher spatial resolution. Overall, we found no evidence of ecomorphological adaptations to different foraging modes in the retinal ganglion cell layer in waterfowl. Rather, retinal topography in these birds seems to reflect the ‘openness’ of their habitats.
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