@article{2461, keywords = {Animals, Kinetics, Calibration, Reaction Time, Visual Perception, Discrimination Learning, Retina, Motion Perception, Retinal Ganglion Cells, Optic Nerve, Eye Movements, Perciformes, Size Perception}, author = {Ronen Segev and Elad Schneidman and Joe Goodhouse and Michael Berry}, title = {Role of eye movements in the retinal code for a size discrimination task.}, abstract = {
The concerted action of saccades and fixational eye movements are crucial for seeing stationary objects in the visual world. We studied how these eye movements contribute to retinal coding of visual information using the archer fish as a model system. We quantified the animal{\textquoteright}s ability to distinguish among objects of different sizes and measured its eye movements. We recorded from populations of retinal ganglion cells with a multielectrode array, while presenting visual stimuli matched to the behavioral task. We found that the beginning of fixation, namely the time immediately after the saccade, provided the most visual information about object size, with fixational eye movements, which consist of tremor and drift in the archer fish, yielding only a minor contribution. A simple decoder that combined information from