Contrast sensitivity and increment-threshold functions were studied for three rhesus monkeys with stimulus deprivation amblyopia. The monkeys' right eyelids were sutured closed before the age of 1 month for periods of two weeks, 19 months and 23 months. Contrast sensitivity measurements for all three monkeys showed greatly reduced visual function in the deprived eye with a high spatial frequency cut-off 6 octaves lower in the deprived than the nondeprived eyes. The increment-threshold data collected for the two long-term lid-sutured monkeys showed both photopic and scotopic abnormalities in the deprived eyes. For example, with complete dark adaptation although the spectral sensitivity data for both the deprived and nondeprived eyes were well fit by the scotopic luminosity function, the sensitivity for the deprived eye was approximately 4 log units lower than the nondeprived eye. In addition, the spectral sensitivity data for the deprived eyes showed scotopic luminosity functions for achromatic adapting field luminances of 188, 750 and 3000 td whereas the nondeprived eye showed normal photopic function for all light adapted conditions. Even when the spectral sensitivity measurements were made in the presence of intense blue backgrounds, the data obtained for the deprived eyes were best described as showing scotopic function over the short wavelengths and photopic function only at the longer wavelengths. The increment-threshold functions for achromatic stimuli showed normal rod-cone interactions in the nondeprived eyes, but the functions were monotonic for the deprived eyes over a 9 log unit range of background luminances. Therefore, the results of these experiments show that stimulus deprivation causes profound defects for visual resolution, rod saturation and the rate of change of sensitivity with light adaptation.