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Birds multiplex spectral and temporal visual information via retinal On- and Off-channels

Marvin Seifert (), Paul A. Roberts, George Kafetzis, Daniel Osorio () and Tom Baden ()
Additional contact information
Marvin Seifert: University of Sussex
Paul A. Roberts: University of Sussex
George Kafetzis: University of Sussex
Daniel Osorio: University of Sussex
Tom Baden: University of Sussex

Nature Communications, 2023, vol. 14, issue 1, 1-19

Abstract: Abstract In vertebrate vision, early retinal circuits divide incoming visual information into functionally opposite elementary signals: On and Off, transient and sustained, chromatic and achromatic. Together these signals can yield an efficient representation of the scene for transmission to the brain via the optic nerve. However, this long-standing interpretation of retinal function is based on mammals, and it is unclear whether this functional arrangement is common to all vertebrates. Here we show that male poultry chicks use a fundamentally different strategy to communicate information from the eye to the brain. Rather than using functionally opposite pairs of retinal output channels, chicks encode the polarity, timing, and spectral composition of visual stimuli in a highly correlated manner: fast achromatic information is encoded by Off-circuits, and slow chromatic information overwhelmingly by On-circuits. Moreover, most retinal output channels combine On- and Off-circuits to simultaneously encode, or multiplex, both achromatic and chromatic information. Our results from birds conform to evidence from fish, amphibians, and reptiles which retain the full ancestral complement of four spectral types of cone photoreceptors.

Date: 2023
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DOI: 10.1038/s41467-023-41032-z

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