A simple spatial alternation task for assessing memory function in zebrafish.

A series of studies was initiated to examine learning and memory function in the zebrafish (Danio rerio) by using a simple spatial alternation paradigm for a food reward. Fish were fed on alternating sides of a divided fish tank, with a red card displayed on one side serving as a visual means of orientation. Although responses were recorded at cue (light tap on the tank), 5 s after cue (as food was delivered), and 5 s after food delivery, the learning test was choice of a correct side of the tank to receive food. Therefore, an accurate level of an animal's achievement of the spatial task was represented by responses at food delivery. Data collected from 11 separate experiments indicated that zebrafish learned to alternate for a food reward. Further, statistical analysis showed that the zebrafish learned the task in the first half of the experiment as exhibited by a calculated t1/2 of 13.9 trials. Zebrafish could recall the task after a short period of 10 days with no testing. The alternating behavior was extinguished by withholding the food reward. Thus, the spatial alternation task can be learned easily by zebrafish, and may be useful in addressing learning and memory functions in vertebrate animals using zebrafish as a model organism.