The nature of rise in threshold produced by contrast-flashes

Abstract

The rod threshold for seeing a flash on a 2 1/2[degree] square is raised by a nearly simultaneous flash that falls on the surround. When this [overhead single dot]contrast-flash[overhead single dot] is held fixed in intensity, it raises the log test threshold by a fixed amount no matter how far that threshold has already been raised by light adaptation owing to background or bleaching. This is surprising since fixed backgrounds and bleachings raise the log test threshold much more when the eye is dark than when light adapted. When the test flash is held at some fixed supra-threshold value, the contrast flash exhibits a critical level[overhead single dot], above which the test will no longer been seen. If the surround region upon which the contrast-flash falls is adapted by background or bleaching, its efficacy is reduced so that the [overhead single dot]critical level[overhead single dot] is raised. Surround adaptation raises the log [overhead single dot]critical level[overhead single dot] by the same amount that it raises the log threshold for seeing the contrast-flash itself. The way that contrast flashes raise the test threshold is thus entirely different from the way that adaptations by bleachings or backgrounds do. Contrast-flash signals appear to inhibit test-flash signals by interaction at some point central to the site where adaptation occurs. This permits the effect of adaptation on signals to be measured. A given state of adaptation attenuates all flash signals in the same proportion. And in any state of adpatation a single flash will reach threshold when the attenuated signal has a fixed size.