The Unseen Color Aftereffect of an Unseen Stimulus: Insight from Blindsight into Mechanisms of Color Afterimages
We show here that, in the absence of a direct geniculostriate input in human subjects, causing loss of sight in the visual half-field contralateral to the damage, the pupil responds selectively to chromatic modulation toward the long-wavelength (red) region of the spectrum locus even when the stimul...
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| Published in | Proceedings of the National Academy of Sciences - PNAS Vol. 96; no. 20; pp. 11637 - 11641 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
National Academy of Sciences of the United States of America
28.09.1999
National Acad Sciences The National Academy of Sciences |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0027-8424 1091-6490 |
| DOI | 10.1073/pnas.96.20.11637 |
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| Abstract | We show here that, in the absence of a direct geniculostriate input in human subjects, causing loss of sight in the visual half-field contralateral to the damage, the pupil responds selectively to chromatic modulation toward the long-wavelength (red) region of the spectrum locus even when the stimulus is isoluminant for both rods and cones and entirely restricted to the subjects' "blind" hemifields. We also show that other colors are less or wholly ineffective. Nevertheless, red afterimages, generated by chromatic modulation toward the green region of the spectrum locus, also cause constrictions of the pupil even when green stimuli are themselves completely ineffective in the blind hemifield. Moreover, human subjects with damage to or loss of V1 are typically completely unaware of the stimulus that generates the aftereffect or of the aftereffect itself, both of which can be seen clearly in normal vision. The results show that pupillary responses can reveal the processing of color afterimages in the absence of primary visual cortex and in the absence of acknowledged awareness. This phenomenon is therefore a striking example of "blindsight" and makes possible the formulation of a model that predicts well the observed properties of color afterimages. |
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| AbstractList | We show here that, in the absence of a direct geniculostriate input in human subjects, causing loss of sight in the visual half-field contralateral to the damage, the pupil responds selectively to chromatic modulation toward the long-wavelength (red) region of the spectrum locus even when the stimulus is isoluminant for both rods and cones and entirely restricted to the subjects' "blind" hemifields. We also show that other colors are less or wholly ineffective. Nevertheless, red afterimages, generated by chromatic modulation toward the green region of the spectrum locus, also cause constrictions of the pupil even when green stimuli are themselves completely ineffective in the blind hemifield. Moreover, human subjects with damage to or loss of V1 are typically completely unaware of the stimulus that generates the aftereffect or of the aftereffect itself, both of which can be seen clearly in normal vision. The results show that pupillary responses can reveal the processing of color afterimages in the absence of primary visual cortex and in the absence of acknowledged awareness. This phenomenon is therefore a striking example of "blindsight" and makes possible the formulation of a model that predicts well the observed properties of color afterimages. We show here that, in the absence of a direct geniculostriate input in human subjects, causing loss of sight in the visual half-field contralateral to the damage, the pupil responds selectively to chromatic modulation toward the long-wavelength (red) region of the spectrum locus even when the stimulus is isoluminant for both rods and cones and entirely restricted to the subjects' "blind" hemifields. We also show that other colors are less or wholly ineffective. Nevertheless, red afterimages, generated by chromatic modulation toward the green region of the spectrum locus, also cause constrictions of the pupil even when green stimuli are themselves completely ineffective in the blind hemifield. Moreover, human subjects with damage to or loss of V1 are typically completely unaware of the stimulus that generates the aftereffect or of the aftereffect itself, both of which can be seen clearly in normal vision. The results show that pupillary responses can reveal the processing of color afterimages in the absence of primary visual cortex and in the absence of acknowledged awareness. This phenomenon is therefore a striking example of "blindsight" and makes possible the formulation of a model that predicts well the observed properties of color afterimages.We show here that, in the absence of a direct geniculostriate input in human subjects, causing loss of sight in the visual half-field contralateral to the damage, the pupil responds selectively to chromatic modulation toward the long-wavelength (red) region of the spectrum locus even when the stimulus is isoluminant for both rods and cones and entirely restricted to the subjects' "blind" hemifields. We also show that other colors are less or wholly ineffective. Nevertheless, red afterimages, generated by chromatic modulation toward the green region of the spectrum locus, also cause constrictions of the pupil even when green stimuli are themselves completely ineffective in the blind hemifield. Moreover, human subjects with damage to or loss of V1 are typically completely unaware of the stimulus that generates the aftereffect or of the aftereffect itself, both of which can be seen clearly in normal vision. The results show that pupillary responses can reveal the processing of color afterimages in the absence of primary visual cortex and in the absence of acknowledged awareness. This phenomenon is therefore a striking example of "blindsight" and makes possible the formulation of a model that predicts well the observed properties of color afterimages. |
| Author | J. Alister Harlow John L. Barbur Lawrence Weiskrantz |
| AuthorAffiliation | City University, Applied Vision Research Centre, Northampton Square, London EC1V 0HB, England; and ‡ University of Oxford, Department of Experimental Psychology, South Parks Road, Oxford OX1 3UD, England |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/10500229$$D View this record in MEDLINE/PubMed |
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| Notes | ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23 ObjectType-Article-1 ObjectType-Feature-2 Contributed by Lawrence Weiskrantz To whom reprint requests should be addressed. E-mail: johnb@city.ac.uk. |
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| References | Barbur J L (e_1_3_2_1_2) 1986; 1 e_1_3_2_26_2 e_1_3_2_27_2 e_1_3_2_20_2 e_1_3_2_21_2 e_1_3_2_22_2 Alexandridis E (e_1_3_2_15_2) 1991; 5 e_1_3_2_23_2 e_1_3_2_24_2 e_1_3_2_25_2 e_1_3_2_9_2 Zeki S (e_1_3_2_3_2) 1993 e_1_3_2_8_2 e_1_3_2_16_2 e_1_3_2_7_2 e_1_3_2_17_2 e_1_3_2_6_2 e_1_3_2_18_2 e_1_3_2_19_2 Barbur J L (e_1_3_2_4_2) 1991; 5 e_1_3_2_10_2 e_1_3_2_5_2 e_1_3_2_11_2 e_1_3_2_12_2 e_1_3_2_13_2 e_1_3_2_2_2 e_1_3_2_14_2 |
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| SubjectTerms | Adult Afterimages Biological Sciences blindsight Color Colors Hemianopia Humans Luminance Male Mental stimulation Midbrain Middle Aged Modeling Modulated signal processing Neurobiology Pupil - physiology Receptors Vision, Ocular |
| Title | The Unseen Color Aftereffect of an Unseen Stimulus: Insight from Blindsight into Mechanisms of Color Afterimages |
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