Optic Foramen Morphology and Activity Pattern in Birds

Optic Foramen Morphology and Activity Pattern in Birds

The optic nerve is the sole output of visual information from the ganglion cell layer of the retina to the brain in vertebrates. The size of the optic nerve is predicted to be closely associated with activity pattern, and, in many birds, the size of the optic foramen approximates the size of the opt...

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Bibliographic Details
Published in:Anatomical record (Hoboken, N.J. : 2007) Vol. 292; no. 11; pp. 1827 - 1845
Main Authors: Hall, Margaret I., Iwaniuk, Andrew N., Gutiérrez‐Ibáñez, Cristián
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 01-11-2009
Subjects:
activity pattern
Adaptation, Ocular - physiology
Adaptation, Physiological - physiology
Animals
Behavior, Animal - physiology
Birds - anatomy & histology
Birds - physiology
Circadian Rhythm - physiology
Dark Adaptation - physiology
Head - anatomy & histology
Head - physiology
optic foramen
Optic Nerve - anatomy & histology
Optic Nerve - physiology
Orbit - anatomy & histology
Orbit - physiology
Phylogeny
retinal summation
Skull - anatomy & histology
Skull - physiology
Sphenoid Bone - anatomy & histology
Sphenoid Bone - physiology
vision
Vision, Ocular - physiology
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Summary:The optic nerve is the sole output of visual information from the ganglion cell layer of the retina to the brain in vertebrates. The size of the optic nerve is predicted to be closely associated with activity pattern, and, in many birds, the size of the optic foramen approximates the size of the optic nerve. Specifically, nocturnal species should have relatively smaller optic foramina than diurnal species because of differences in retinal pooling between activity patterns. If optic foramen morphology varies predictably with activity pattern in birds, this variable may be useful for interpreting activity pattern for birds that do not have soft tissue available for study, specifically for fossils. Across 177 families (from 27 orders), we describe four different optic foramen morphologies, only one of which corresponds well with the size of the optic nerve and is therefore appropriate for activity pattern analyses. Here, we test our hypothesis that nocturnal species will have relatively smaller optic foramina than diurnal species, across all species that we measured that have a discrete optic foramen. Regression analyses using species as independent data points and using comparative methods yielded significant differences in optic foramen size between nocturnal and diurnal species relative to three variables: head length, orbit depth, and sclerotic ring inner diameter. Nocturnal species consistently exhibit significantly smaller relative optic foramen diameters than diurnal species. Our results indicate that optic foramen diameter, in combination with either the sclerotic ring or the orbit diameter, can be used to predict activity pattern. Anat Rec, 2009. © 2009 Wiley‐Liss, Inc.
Bibliography:Fax: (623) 572‐3449
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ISSN:1932-8486
1932-8494
DOI:10.1002/ar.21007