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Craig W. Hawryshyn
Craig W. Hawryshyn
Professor, Queen’s University, retired
Verified email at queensu.ca
Title
Cited by
Cited by
Year
Behavioural studies of fish vision: an analysis of visual capabilities
RH Douglas, CW Hawryshyn
The visual system of fish, 373-418, 1990
3011990
Ultraviolet photoreception contributes to prey search behaviour in two species of zooplanktivorous fishes
HI Browman, I Novales-Flamarique, CW Hawryshyn
Journal of Experimental Biology 186 (1), 187-198, 1994
2051994
Mechanisms of ultraviolet polarization vision in fishes
CW Hawryshyn
Sensory processing in aquatic environments, 252-265, 2003
1872003
The ontogeny of ultraviolet photosensitivity in rainbow trout (Salmo gairdneri)
CW Hawryshyn, MG Arnold, DJ Chaisson, PC Martin
Visual neuroscience 2 (3), 247-254, 1989
1301989
Spatial orientation of rainbow trout to plane-polarized light: the ontogeny of E-vector discrimination and spectral sensitivity characteristics
CW Hawryshyn, MG Arnold, E Bowering, RL Cole
Journal of Comparative Physiology A 166, 565-574, 1990
1231990
Cone photoreceptor mechanisms and the detection of polarized light in fish
CW Hawryshyn, WN McFarland
Journal of Comparative Physiology A 160 (4), 459-465, 1987
1211987
Thyroxine induces a precocial loss of ultraviolet photo sensitivity in rainbow trout (Oncorhynchus mykiss, teleostei)
HI Browman, CW Hawryshyn
Vision research 32 (12), 2303-2312, 1992
1141992
Cone photoreceptor topography in the retina of sexually mature Pacific salmonid fishes
L Beaudet, IN Flamarique, CW Hawryshyn
Journal of Comparative Neurology 383 (1), 49-59, 1997
1131997
Ultraviolet photosensitivity in goldfish: an independent UV retinal mechanism
CW Hawryshyn, R Beauchamp
Vision Research 25 (1), 11-20, 1985
1111985
The developmental trajectory of ultraviolet photosensitivity in rainbow trout is altered by thyroxine
HI Browman, CW Hawryshyn
Vision research 34 (11), 1397-1406, 1994
1091994
Is the use of underwater polarized light by fish restricted to crepuscular time periods?
IN FLAMARIQUE, CW HAWRYSHYN
Vision Research 37 (8), 975-989, 1997
1011997
Visual pigment composition in zebrafish: evidence for a rhodopsin–porphyropsin interchange system
WT Allison, TJ Haimberger, CW Hawryshyn, SE Temple
Visual neuroscience 21 (6), 945-952, 2004
962004
Functional diversity in the color vision of cichlid fishes
S Sabbah, RL Laria, SM Gray, CW Hawryshyn
BMC biology 8, 1-16, 2010
912010
Spectral characteristics of visual pigments in rainbow trout (Oncorhynchus mykiss)
CW Hawryshyn, FI Hárosi
Vision research 34 (11), 1385-1392, 1994
911994
Optic nerve response and retinal structure in rainbow trout of different sizes
L Beaudet, HI Browman, CW Hawryshyn
Vision research 33 (13), 1739-1746, 1993
901993
Degeneration and regeneration of ultraviolet cone photoreceptors during development in rainbow trout
WT Allison, SG Dann, KM Veldhoen, CW Hawryshyn
Journal of Comparative Neurology 499 (5), 702-715, 2006
842006
Ontogeny of ultraviolet‐sensitive cones in the retina of rainbow trout (Oncorhynchus mykiss)
WT Allison, SG Dann, J Vidar Helvik, C Bradley, HD Moyer, ...
Journal of Comparative Neurology 461 (3), 294-306, 2003
842003
Seasonal cycle in vitamin A1/A2-based visual pigment composition during the life history of coho salmon (Oncorhynchus kisutch)
SE Temple, EM Plate, S Ramsden, TJ Haimberger, WM Roth, ...
Journal of Comparative Physiology A 192, 301-313, 2006
782006
Intraspecific variation of spectral sensitivity in threespine stickleback (Gasterosteus aculeatus) from different photic regimes
CG McDonald, CW Hawryshyn
Journal of Comparative Physiology A 176, 255-260, 1995
781995
Double-cone internal reflection as a basis for polarization detection in fish
IN Flamarique, CW Hawryshyn, FI Hárosi
JOSA A 15 (2), 349-358, 1998
761998
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