2004
DOI: 10.1017/s0952523804215036
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Color vision sensitivity in normally dichromatic species and humans

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Cited by 8 publications
(5 citation statements)
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“…Certain aspects of these issues have been investigated before (Loop et al, 2003;Schwartz, 1994;van Arsdel & Loop, 2004). Intriguingly, dichromatic humans require long-duration spectral increments to be as much as 0.4 log unit above detection intensity to see certain colors, whereas normally dichromatic animals such as chipmunks, 13-lined ground squirrels, and tree shrews are able to discriminate colors within 0.1 log unit of their detection thresholds (Loop et al, 2003;van Arsdel & Loop, 2004). This low color vision sensitivity in human dichromats may be an abnormal condition, indicating a possible defect in their postreceptoral color vision processing.…”
Section: Slow Temporally Modulated Targetsmentioning
confidence: 99%
See 1 more Smart Citation
“…Certain aspects of these issues have been investigated before (Loop et al, 2003;Schwartz, 1994;van Arsdel & Loop, 2004). Intriguingly, dichromatic humans require long-duration spectral increments to be as much as 0.4 log unit above detection intensity to see certain colors, whereas normally dichromatic animals such as chipmunks, 13-lined ground squirrels, and tree shrews are able to discriminate colors within 0.1 log unit of their detection thresholds (Loop et al, 2003;van Arsdel & Loop, 2004). This low color vision sensitivity in human dichromats may be an abnormal condition, indicating a possible defect in their postreceptoral color vision processing.…”
Section: Slow Temporally Modulated Targetsmentioning
confidence: 99%
“…Previously, other researchers have investigated the disadvantages of dichromats in visual detection (e.g., Dain & King-Smith, 1981;Loop, Shows, Mangel, & Kuyk, 2003;Schwartz, 1994;van Arsdel & Loop, 2004). However, they have not used cone-isolating stimuli to examine the influence of both slow and fast temporally modulated stimuli in the same group of observers or species.…”
Section: Introductionmentioning
confidence: 99%
“…In this study, we sought insights into the fundamental features of cortical organization necessary for S-cone mediated color vision by examining the cortical processing of S-cone inputs in the tree shrew, a highly visual dichromatic mammal with a cone-dominated retina, strong color vision capabilities, and a well-characterized V1 functional architecture (Jacobs and Neitz, 1986; Petry and Harosi, 1990; Petry and Kelly, 1991; Muly and Fitzpatrick, 1992; Fitzpatrick, 1996; Bosking et al, 1997; Bosking et al, 2002; van Arsdel and Loop, 2004). Our results indicate that S-cones contribute to both chromatic and achromatic visual functions and suggest that the conjoint representation of color and form is a fundamental property of cortical processing.…”
Section: Introductionmentioning
confidence: 99%
“…On the same recordings, the template-matching method of [9] Fig. 10. Histogram of the differences in degrees between the search coil technique and our algorithm.…”
Section: Experiments and Resultsmentioning
confidence: 96%
“…All studies rely heavily on the texture of the iris, which is clearly visible and directly applicable when daylight or light of particular wavelengths is used. However, in the clinical applications of our setting, to avoid visual fixation, a wavelength to illuminate the eye is required, which cannot be perceived by the human retina, [10]. Therefore, 950 nm IR-LEDs are used, as LEDs centered at lower wavelengths still emit light that after adaptation can be seen by the human eye.…”
Section: Introductionmentioning
confidence: 99%