Detectors for polarized skylight in insects: a survey of ommatidial specializations in the dorsal rim area of the compound eye

Apart from the sun, the polarization pattern of the sky offers insects a reference for visual compass orientation. Using behavioral experiments, it has been shown in a few insect species (field crickets, honey bees, desert ants, and house flies) that the detection of the oscillation plane of polariz...

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Published in:Microscopy research and technique 1999-12, Vol.47 (6), p.368-379
Main Authors: Labhart, Thomas, Meyer, Eric P.
Format: Article
Language:English
Subjects:
Animals
Biological Evolution
Coleoptera - anatomy & histology
Coleoptera - ultrastructure
Diptera - anatomy & histology
Diptera - ultrastructure
e-vector detection
evolution
Eye - anatomy & histology
Eye - innervation
Eye - ultrastructure
Hymenoptera - anatomy & histology
Hymenoptera - ultrastructure
Insecta - anatomy & histology
Insecta - classification
Insecta - ultrastructure
Lepidoptera - anatomy & histology
Lepidoptera - ultrastructure
Orthoptera - anatomy & histology
Orthoptera - ultrastructure
Perception - physiology
polarization vision
review
Sunlight
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Meyer, Eric P.
description Apart from the sun, the polarization pattern of the sky offers insects a reference for visual compass orientation. Using behavioral experiments, it has been shown in a few insect species (field crickets, honey bees, desert ants, and house flies) that the detection of the oscillation plane of polarized skylight is mediated exclusively by a group of specialized ommatidia situated at the dorsal rim of the compound eye (dorsal rim area). The dorsal rim ommatidia of these species share a number physiological properties that make them especially suitable for polarization vision: each ommatidium contains two sets of homochromatic, strongly polarization‐sensitive photoreceptors with orthogonally‐arranged analyzer orientations. The physiological specialization of the dorsal rim area goes along with characteristic changes in ommatidial structure, providing actual anatomical hallmarks of polarized skylight detection, that are readily detectable in histological sections of compound eyes. The presence of anatomically specialized dorsal rim ommatidia in many other insect species belonging to a wide range of different orders indicates that polarized skylight detection is a common visual function in insects. However, fine‐structural disparities in the design of dorsal rim ommatidia of different insect groups indicate that polarization vision arose polyphyletically in the insects. Microsc. Res. Tech. 47:368–379, 1999. © 1999 Wiley‐Liss, Inc.
doi_str_mv 10.1002/(SICI)1097-0029(19991215)47:6<368::AID-JEMT2>3.0.CO;2-Q
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source Wiley-Blackwell Read & Publish Collection
subjects Animals
Biological Evolution
Coleoptera - anatomy & histology
Coleoptera - ultrastructure
Diptera - anatomy & histology
Diptera - ultrastructure
e-vector detection
evolution
Eye - anatomy & histology
Eye - innervation
Eye - ultrastructure
Hymenoptera - anatomy & histology
Hymenoptera - ultrastructure
Insecta - anatomy & histology
Insecta - classification
Insecta - ultrastructure
Lepidoptera - anatomy & histology
Lepidoptera - ultrastructure
Orthoptera - anatomy & histology
Orthoptera - ultrastructure
Perception - physiology
polarization vision
review
Sunlight
title Detectors for polarized skylight in insects: a survey of ommatidial specializations in the dorsal rim area of the compound eye
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