RECOVERY FROM MOTION ADAPTATION IS DELAYED BY SUCCESSIVELY PRESENTED ORTHOGONAL MOTION

Following a period of adaptation to a pattern moving in a particular d irection, a subsequently viewed stationary pattern appears to move in the opposite direction for some time: the movement after effect (MAE). The MAE lasts longer when the test pattern is not immediately or not continuously presented after adaptation. This phenomenon is called sto rage. So far research indicates that storage only occurs when textured visual stimulation is absent during part of the test phase or if the processing of a stationary test stimulus is prevented (e.g. by binocul ar rivalry). We present evidence that storage-like phenomena can occur even while a textured and moving visual stimulus is phenomenally pres ent. We adapted binocularly to uni-directional motion of a random-pixe l array M1 for 60 sec. This stimulus was immediately followed by anoth er moving pattern M2. Its motion direction was orthogonal to that of M 1. The presentation time of M2 was the independent variable. A station ary pattern was presented immediately after presentation of M2. The di rection of the resulting integrated uni-directional MAE ,vas measured. For short presentation times of M2 there is an integrated uni-directi onal MAE, which shows an interaction of the output of units stimulated by both moving patterns. However, it appeared that the effect of M1 o n the direction of this combined uni-directional MAE is much longer pr esent than would be expected from the MAE duration of M1, when tested in isolation.