Abstract
Caching and recovery of food by corvids is well-studied, but some ambiguous results remain. To help clarify these, we built a computational cognitive model. It is inspired by similar models built for humans, and it assumes that memory strength depends on frequency and recency of use. We compared our model's behavior to that of real birds in previously published experiments. Our model successfully replicated the outcomes of two experiments on recovery behavior and two experiments on cache site choice. Our "virtual birds" reproduced declines in recovery accuracy across sessions, revisits to previously emptied cache sites, a lack of correlation between caching and recovery order, and a preference for caching in safe locations. The model also produced two new explanations. First, that Clark's nutcrackers may become less accurate as recovery progresses not because of differential memory for different cache sites, as was once assumed, but because of chance effects. And second, that Western scrub jays may choose their cache sites not on the basis of negative recovery experiences only, as was previously thought, but on the basis of positive recovery experiences instead. Alternatively, both "punishment" and "reward" may be playing a role. We conclude with a set of new insights, a testable prediction, and directions for future work.
Original language | English |
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Pages (from-to) | 330-340 |
Number of pages | 11 |
Journal | Journal of Experimental Psychology: Animal Behavior Processes |
Volume | 37 |
Issue number | 3 |
DOIs | |
Publication status | Published - Jul-2011 |
Keywords
- computational model
- Clark's nutcracker
- Western scrub-jay
- caching
- memory
- WESTERN SCRUB-JAYS
- NUTCRACKERS NUCIFRAGA-COLUMBIANA
- BLACK-CAPPED CHICKADEES
- TERM SPATIAL MEMORY
- APHELOCOMA-CALIFORNICA
- CLARKS NUTCRACKERS
- INTEGRATED THEORY
- SITES
- RECOVERY
- BEHAVIOR