Conditional discriminations, symmetry, and semantic priming

•We asked asked whether laboratory-generated stimulus–stimulus relations established between arbitrary geometrical shapes would show the semantic priming effect.•Subjects learned six conditional relations and demonstrated derived symmetry.•Subjects also demonstrated a priming effect – faster reactio...

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Bibliographic Details
Published in:Behavioural processes 2015-09, Vol.118, p.90-97
Main Authors: Vaidya, Manish, Hudgins, Caleb D., Ortu, Daniele
Format: Article
Language:English
Subjects:
Adult
Adult humans
Arbitrary geometric forms
Choice Behavior
Conditional discriminations
Conditioning, Classical
Decision Making
Discrimination (Psychology)
Female
Humans
Learning
Male
Pattern Recognition, Visual
Reaction Time
Semantic priming
Semantics
Symmetry
Young Adult
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Summary:•We asked asked whether laboratory-generated stimulus–stimulus relations established between arbitrary geometrical shapes would show the semantic priming effect.•Subjects learned six conditional relations and demonstrated derived symmetry.•Subjects also demonstrated a priming effect – faster reaction times to target stimuli when the prime and target came from the same trained or derived conditional relations.•Data suggest that laboratory-generated equivalence relations may serve as useful analogues of symbolic behavior.•An alternative interpretation in terms of simpler behavioral processes also works, however. Psychologists interested in the study of symbolic behavior have found that people are faster at reporting that two words are related to one another than they are in reporting that two words are not related – an effect called semantic priming. This phenomenon has largely been documented in the context of natural languages using real words as stimuli. The current study asked whether laboratory-generated stimulus–stimulus relations established between arbitrary geometrical shapes would also show the semantic priming effect. Participants learned six conditional relations using a one-to-many training structure (A1-B1, A1-C1, A1-D1, A2-B2, A2-C2, A2-D2) and demonstrated, via accurate performance on tests of derived symmetry, that the trained stimulus functions had become reversible. In a lexical decision task, subjects also demonstrated a priming effect as they displayed faster reaction times to target stimuli when the prime and target came from the same trained or derived conditional relations, compared to the condition in which the prime and target came from different trained or derived conditional relations. These data suggest that laboratory-generated equivalence relations may serve as useful analogues of symbolic behavior. However, the fact that conditional relations training and symmetry alone were sufficient to produce the effect suggests that semantic priming like effects may be the byproduct of simpler stimulus–stimulus relations.
ISSN:0376-6357
1872-8308
DOI:10.1016/j.beproc.2015.05.012