Examination of long-term visual memorization capacity in the Clark’s nutcracker (Nucifraga columbiana)

• Main Authors: Cook, R.G (Author), Kelly, D.M (Author), Leonard, K. (Author), Qadri, M.A.J (Author)
• Format: Article
• Language: English
• Published: Springer New York LLC 2018
• Subjects: animal; Animals; Animals, Wild; appetitive behavior; Appetitive Behavior; Choice Behavior; Clark’s nutcrackers; Comparative cognition; Conditioning, Operant; decision making; feeding behavior; Feeding Behavior; instrumental conditioning; long term memory; male; Male; Memory; Memory, Long-Term; Passeriformes; pattern recognition; Pattern Recognition, Visual; spatial memory; Spatial Memory; Specialization; wild animal
• Online Access: View Fulltext in Publisher

 Clark’s nutcrackers exhibit remarkable cache recovery behavior, remembering thousands of seed locations over the winter. No direct laboratory test of their visual memory capacity, however, has yet been performed. Here, two nutcrackers were tested in an operant procedure used to measure different species’ visual memory capacities. The nutcrackers were incrementally tested with an ever-expanding pool of pictorial stimuli in a two-alternative discrimination task. Each picture was randomly assigned to either a right or a left choice response, forcing the nutcrackers to memorize each picture–response association. The nutcrackers’ visual memorization capacity was estimated at a little over 500 pictures, and the testing suggested effects of primacy, recency, and memory decay over time. The size of this long-term visual memory was less than the approximately 800-picture capacity established for pigeons. These results support the hypothesis that nutcrackers’ spatial memory is a specialized adaptation tied to their natural history of food-caching and recovery, and not to a larger long-term, general memory capacity. Furthermore, despite millennia of separate and divergent evolution, the mechanisms of visual information retention seem to reflect common memory systems of differing capacities across the different species tested in this design. © 2018, Psychonomic Society, Inc.