- L A Hyde: Biobehavioral Sciences Graduate Degree Program, University of Connecticut, Storrs, CT 06269-4154, USA.
The conventional land radial-arm maze has several disadvantages, including requiring a complicated automated apparatus, the elimination of odors as cues, and the use of food deprivation. We have created a water version of the maze, based on the principles of the land version, which maintains the advantages and excludes some of the disadvantages. In our maze, BXSB and C57BL/6 mice significantly reduced the number of working and reference memory errors committed over sessions, while NZB mice did not. For each strain, as the working memory 'load' increased during a session, the number of errors increased. However, with practice the BXSB and C57BL/6 strains were able to handle this memory load more effectively. Mice were able to learn the maze without extensive adaptation, training, or testing and they did not exhibit 'chaining'. This maze can also be considered to be an example of a water win-shift task that mice can easily learn. Therefore, the water version of the radial-arm maze can be a simple and useful tool for studying rodent learning and memory.