Kastak, C. R., Schusterman, R. J., & Kastak, D. (2001).
Equivalence classification by California sea lions using class-specific reinforcers.
Journal of the Experimental Analysis of Behavior,
76, 131-158.
The ability to group dissimilar stimuli into categories on the
basis of common stimulus relations (stimulus equivalence) or
common functional relations (functional equivalence) has been
convincingly demonstrated in verbally competent subjects.
However, there are investigations with verbally limited humans
and with nonhuman animals that suggest that the formation and use
of classification schemes based on equivalence does not depend on
linguistic skills. The present investigation documented the
ability of two California sea lions to classify stimuli into
functional classes using a simple discrimination reversal
procedure. Following the formation of functional classes in this
context, the second experiment showed transfer of the relations
that emerged between class members to a matching-to-sample
procedure. The third experiment demonstrated that the functional
classes could be expanded through traditionally defined
equivalence relations. In these three experiments, appropriate
within-class responding produced class-specific food reinforcers.
Experiment 3 addressed the role of these reinforcers in
equivalence classification and showed that the class-specific
reinforcers were sufficient to relate new stimuli to the
functional classes. These findings show that sea lions can form
equivalence classes in simple and conditional discrimination
procedures, and that class-specific reinforcers can become
equivalence class members.
Key words: stimulus equivalence, functional classes, reversal
procedure, simple discrimination, conditional discrimination,
differential outcome, California sea lions