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Threshold setting by the surround of cat retinal ganglion cells.
| Content Provider | Semantic Scholar |
|---|---|
| Author | Barlow, H. B. Levick, William R. |
| Copyright Year | 1976 |
| Abstract | 1. The slope of curves relating the log increment threshold to log background luminance in cat retinal ganglion cells is affected by the area and duration of the test stimulus, as it is in human pyschophysical experiments. 2. Using large area, long duration stimuli the slopes average 0-82 and approach close to 1 (Weber's Law) in the steepest cases. Small stimuli gave an average of 0-53 for on-centre units using brief stimuli, and 0-56 for off-centre units, using long stimuli. Slopes under 0-5 (square root law) were not found over an extended range of luminances. 3. On individual units the slope was generally greater for larger and longer test stimulus, but no unit showed the full extent of change from slope of 0-5 to slope of 1. 4. The above differences hold for objective measures of quantum/spike ratio, as well as for thresholds either judged by ear or assessed by calculation. 5. The steeper slope of the curves for large area, long duration test stimuli compared with small, long duration stimuli, is associated with the increased effectiveness of antagonism from the surround at high backgrounds. This change may be less pronounced in off-centre units, one of which (probably transient Y-type) showed no difference of slope, and gave parallel area-threshold curves at widely separated background luminances, confirming the importance of differential surround effectiveness in changing the slope of the curves. 6. In on-centre units, the increased relative effectiveness of the surround is associated with the part of the raised background light that falls on the receptive field centre. 7. It is suggested that the variable surround functions as a zero-offset control that sets the threshold excitation required for generating impulses, and that this is separate from gain-setting adaptive mechanisms. This may be how ganglion cells maintain high incremental sensitivity in spite of a strong maintained excitatory drive that would otherwise cause compressive response non-linearities. |
| Starting Page | 56 |
| Ending Page | 56 |
| Page Count | 1 |
| File Format | PDF HTM / HTML |
| Alternate Webpage(s) | http://www.neuroscience.cam.ac.uk/publications/download.php?id=23821 |
| PubMed reference number | 957261v1 |
| Volume Number | 259 |
| Issue Number | 3 |
| Journal | The Journal of physiology |
| Language | English |
| Access Restriction | Open |
| Subject Keyword | Accidental Falls Arabic numeral 0 Excitation Ganglion cell Increment Large Retina Retinal Ganglion Cells Unit slope |
| Content Type | Text |
| Resource Type | Article |
