The density of distribution and topographical features of small and large ganglion cells were investigated in total silver-impregnated preparations of the retina from two species of frogs (Rana ridibunda andR. temporaria). A horizontal band of increased density of ganglion cells was located in both species above the nasotemporal axis passing through the blind spot. Outside this band the density of the small cell population was maximal in the central zone of the retina, decreasing toward the periphery. In the upper halves of the retina the density of small cells was on average 26% greater than in the lower halves. Large ganglion cells, on the other hand, were more densely distributed in the lower half of the retina than in the upper half; this difference was particularly marked inR. temporaria (by 116%). The large cells were asymmetrically distributed relative to the dorsoventral axis also: In the nasal quadrants their density was 40–55% greater than in the temporal. Large cells were more densely distributed in the middle zone of the retina. Signs of asymmetry in the organization of the retinal output raster may be of adaptive ecologic importance and may determine the characteristics of formation of visually controlled food and avoidance behavioral reflexes.