Abstract
Saccades are so called ballistic movements which are executed without online visual feedback. After each saccade the saccadic motor plan is modified in response to post-saccadic feedback with the mechanism of saccadic adaptation. The post-saccadic feedback is provided by the retinal position of the target after the saccade. If the target moves after the saccade, gaze may follow the moving target. In that case, the eyes are controlled by the pursuit system, a system that controls smooth eye movements. Although these two systems have in the past been considered as mostly independent, recent lines of research point towards many interactions between them. We were interested in the question if saccade amplitude adaptation is induced when the target moves smoothly after the saccade. Prior studies of saccadic adaptation have considered intra-saccadic target steps as learning signals. In the present study, the intra-saccadic target step of the McLaughlin paradigm of saccadic adaptation was replaced by target movement, and a post-saccadic pursuit of the target. We found that saccadic adaptation occurred in this situation, a further indication of an interaction of the saccadic system and the pursuit system with the aim of optimized eye movements.
Highlights
Saccadic eye movements bring objects of interest on the high resolution fovea
The post-saccadic target movement induces a secondary saccade in the direction of the target movement
Saccadic adaptation is reflected in the amplitude of the primary saccade, on which we focus the further analysis
Summary
Saccadic eye movements bring objects of interest on the high resolution fovea. They are too fast to take into account visual information online, and, have to be programmed accurately before saccade onset. The post-saccadic visual location of the target is used to adapt saccadic amplitude. Such adaptation can be induced by an intra-saccadic target step, which induces a position error after the saccade [1]. Repetitions of this manipulation lead to an adaptation of saccadic amplitude in the direction of the target step
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