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Invertebrate Vision

Warrant, Eric LU orcid and Nilsson, Dan-E LU (2006)
Abstract
Ten distinct eye designs have been identified in the animal kingdom. Whereas vertebrates possess only one, invertebrates possess all ten, from simple assemblies of photoreceptors to advanced compound and camera eyes, which support a sophisticated range of visual behaviours. Many invertebrates have exquisite sensitivity to light, can distinguish a broad spectrum of colours, detect subtle polarised light cues, and negotiate obstacles at high speed. The basic principles used to acquire and process such visual information are remarkably similar across the animal kingdom. In invertebrates, these principles frequently involve neural tricks and short cuts, some of which have been successfully exploited to create artificial visual systems for... (More)
Ten distinct eye designs have been identified in the animal kingdom. Whereas vertebrates possess only one, invertebrates possess all ten, from simple assemblies of photoreceptors to advanced compound and camera eyes, which support a sophisticated range of visual behaviours. Many invertebrates have exquisite sensitivity to light, can distinguish a broad spectrum of colours, detect subtle polarised light cues, and negotiate obstacles at high speed. The basic principles used to acquire and process such visual information are remarkably similar across the animal kingdom. In invertebrates, these principles frequently involve neural tricks and short cuts, some of which have been successfully exploited to create artificial visual systems for robots. Invertebrate Vision is a complete synthesis of our current knowledge concerning how invertebrates see, the principles used to process visual information and how vision is used in the daily struggle for survival. It will appeal to anyone interested in the vision sciences. (Less)
Please use this url to cite or link to this publication:
editor
LU orcid and LU
organization
publishing date
type
Book/Report
publication status
published
subject
keywords
skylight polarisation, quantal sensitivity, mantis shrimp species, fly visual interneurons, short visual fibres, anterior optic tubercle, generated optic flow, natural optic flow, rhabdomere boundary, polarised skylight, local orientation detectors, screening pigment cells, long visual fibres, fly motion vision, retinotopic mosaic, tuning axes, ommatidial types, polarisation vision, polarisation compass, visual motion pathway, sensitising pigment, main rhabdom, tangential neurons, dorsal rim area, lobula plate
pages
570 pages
publisher
Cambridge University Press
ISBN
9780521830881
0521830885
language
English
LU publication?
yes
id
00d96d4e-e496-4a05-bbda-d7b3c11b8d60 (old id 761363)
date added to LUP
2016-04-04 12:18:20
date last changed
2020-10-13 13:46:48
@book{00d96d4e-e496-4a05-bbda-d7b3c11b8d60,
  abstract     = {{Ten distinct eye designs have been identified in the animal kingdom. Whereas vertebrates possess only one, invertebrates possess all ten, from simple assemblies of photoreceptors to advanced compound and camera eyes, which support a sophisticated range of visual behaviours. Many invertebrates have exquisite sensitivity to light, can distinguish a broad spectrum of colours, detect subtle polarised light cues, and negotiate obstacles at high speed. The basic principles used to acquire and process such visual information are remarkably similar across the animal kingdom. In invertebrates, these principles frequently involve neural tricks and short cuts, some of which have been successfully exploited to create artificial visual systems for robots. Invertebrate Vision is a complete synthesis of our current knowledge concerning how invertebrates see, the principles used to process visual information and how vision is used in the daily struggle for survival. It will appeal to anyone interested in the vision sciences.}},
  editor       = {{Warrant, Eric and Nilsson, Dan-E}},
  isbn         = {{9780521830881}},
  keywords     = {{skylight polarisation; quantal sensitivity; mantis shrimp species; fly visual interneurons; short visual fibres; anterior optic tubercle; generated optic flow; natural optic flow; rhabdomere boundary; polarised skylight; local orientation detectors; screening pigment cells; long visual fibres; fly motion vision; retinotopic mosaic; tuning axes; ommatidial types; polarisation vision; polarisation compass; visual motion pathway; sensitising pigment; main rhabdom; tangential neurons; dorsal rim area; lobula plate}},
  language     = {{eng}},
  note         = {{Book Editor}},
  publisher    = {{Cambridge University Press}},
  title        = {{Invertebrate Vision}},
  year         = {{2006}},
}