In the world of midwater, mesopelagic animals, downwelling sunlight is filtered by the overlying water to a limited waveband centered near 475 nm. Consequently, the visual pigments of most of these species absorb maximally between 450 and 500 nm. The only exceptions occur in some fishes, which have additional visual pigments absorbing at long wavelengths (550-580 nm) matched to their red bioluminescence. We now find that the mesopelagic decapod shrimp Systellaspis debilis has two visual pigments. One of these absorbs maximally in the expected range ($\lambda _{\max}$ = 498 nm). but the other is maximally sensitive at very short wavelengths, approaching the near-ultraviolet ($\lambda _{\max}$ = 410 nm). The discovery of a visual receptor class absorbing at such short wavelengths in a mesopelagic animal suggests that visual systems in the deep sea may be far more diverse, and potentially more complex, than previously suspected.
Member of
Contributors
Publisher
The Royal Society
Date Issued
1996
Note
Language
Type
Genre
Form
Extent
6 p.
Subject (Topical)
Identifier
FA00007342
Additional Information
In the world of midwater, mesopelagic animals, downwelling sunlight is filtered by the overlying water to a limited waveband centered near 475 nm. Consequently, the visual pigments of most of these species absorb maximally between 450 and 500 nm. The only exceptions occur in some fishes, which have additional visual pigments absorbing at long wavelengths (550-580 nm) matched to their red bioluminescence. We now find that the mesopelagic decapod shrimp Systellaspis debilis has two visual pigments. One of these absorbs maximally in the expected range ($\lambda _{\max}$ = 498 nm). but the other is maximally sensitive at very short wavelengths, approaching the near-ultraviolet ($\lambda _{\max}$ = 410 nm). The discovery of a visual receptor class absorbing at such short wavelengths in a mesopelagic animal suggests that visual systems in the deep sea may be far more diverse, and potentially more complex, than previously suspected.
Florida Atlantic University. Harbor Branch Oceanographic Institute contribution 1134
This manuscript is an author version with the final publication
available and may be cited as: Cronin, T. W. & Frank, T. M. (1996). A short-wavelength photoreceptor
class in a deep-sea shrimp. Proceedings of the Royal Society B: Biological Sciences, 263(1372), 861-865.
available and may be cited as: Cronin, T. W. & Frank, T. M. (1996). A short-wavelength photoreceptor
class in a deep-sea shrimp. Proceedings of the Royal Society B: Biological Sciences, 263(1372), 861-865.
Date Backup
1996
Date Text
1996
DOI
10.1098/rspb.1996.0127
Date Issued (EDTF)
1996
Extension
FAU
IID
FA00007342
Organizations
Attributed name: Harbor Branch Oceanographic Institute
Person Preferred Name
Cronin, Thomas W.
Physical Description
6 p.
Title Plain
A short-wavelength photoreceptorclass in a deep-sea shrimp
Origin Information
1996
The Royal Society
London
Place
London
Title
A short-wavelength photoreceptorclass in a deep-sea shrimp
Other Title Info
A short-wavelength photoreceptorclass in a deep-sea shrimp