Abstract
The assimilation of instructions consists of two stages. First, a task model is formed on the basis of instructions. Second, this model is implemented, resulting in highly accessible representations, which enable reflexive behavior that guides the application of instructions. Research frequently demonstrated that instructions can lead to automatic response activation, which indicates that stimulus-response associations can be implemented on the basis of a task model. However, instructions not only indicate how to respond (stimulus-response mappings) but also when (i.e., the conditions under which mappings apply). Accordingly, we tested whether instruction implementation leads both to the activation of stimulus-response associations and of associations between stimuli and the context or task in which the instructed stimulus-response mappings are relevant (i.e., stimulus-task associations). In four experiments, we measured if implementing newly instructed stimulus-response mappings also leads to bivalence costs (i.e., shorter latencies when a stimulus can only occur in one task compared to when it can occur in two tasks), which indicate the presence of stimulus-task associations. We consistently observed automatic response activation on the basis of instructions, but no bivalence costs. A discrepancy thus exists between information conveyed in an instructed task model and the elements of that task model that are implemented. We propose that future research on automatic effects of instructions should broaden its scope and focus both on the formation of an instructed task model and its subsequent implementation.
Highlights
Humans have the ability to assimilate new tasks on the mere basis of instructions
First evidence suggesting that stimulus-task associations can be implemented on the basis of instructions was offered by studies investigating the extent by which instructions can lead to response-congruency effects and bivalence costs in task switching (Brass, Wenke, Spengler, & Waszak, 2009; Waszak, Wenke, & Brass, 2008)
The present study further investigated, which elements of instructed task models are implemented into highly-accessible representations, which guide behavior
Summary
Humans have the ability to assimilate new tasks on the mere basis of instructions. Such assimilation presumably starts with an instruction phase (Brass, Liefooghe, Braem, & De Houwer, 2017), during which linguistic information is translated into a task model. The implemented representations lead to “reflexive” behavior (Meiran, Liefooghe & De Houwer, 2017; Meiran, Cole & Braver, 2012) The latter hypothesis is supported by the observation that responses can be automatically triggered on the basis of newly instructed stimulus-response (S-R) mappings, which results in response-congruency effects. Besides a response-congruency effect (i.e., congruent vs incongruent bivalent stimuli), indicating S-R associations, a bivalence cost is present (i.e., univalent vs bivalent stimuli): For bivalent stimuli, different stimulus-task associations compete, inducing an additional performance cost (i.e., the bivalence cost) compared to univalent stimuli, which are only related to one task (see Monsell, Taylor, & Murphy, 2001; Rubin & Koch, 2006; Waszak, Hommel, & Allport, 2003, 2004; Woodward, Meier, & Tipper, 2003 for similar considerations)
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