Abstract
Performance on traditional selective attention tasks, like the Stroop and flanker protocols, is subject to modulation by trial history, whereby the magnitude of congruency (or conflict) effects is often found to decrease following an incongruent trial compared to a congruent one. These “congruency sequence effects” (CSEs) typically appear to reflect a mesh of memory- and attention-based processes. The current study aimed to shed new light on the nature of the attention-based contribution to CSEs, by characterizing the shape of the CSE time-course while controlling for mnemonic influences. Existing attention-based accounts of CSEs are either ambiguous in their predictions of CSE time-courses, or predict CSEs to persist or grow over the post-stimulus/response interval in anticipation of an upcoming stimulus. We gauged CSE time-courses by systematically varying inter-stimulus (Experiment 1) and response-to-stimulus (Experiment 2) intervals across a wide temporal range, in a face–word Stroop task. In spite of an exponential increase in the likelihood of stimulus appearance with increasing interval duration (i.e., an exponential hazard function), results from both experiments showed CSEs to be most pronounced at the shortest intervals, to quickly decay in magnitude with increasing interval length, and to be absent at longer intervals. These data refute the idea that attentional contributions to CSEs remain static over post-stimulus/response intervals and are incompatible with the notion that CSEs reflect expectation-guided preparatory biasing in anticipation of a forthcoming stimulus. The data are compatible, however, with the notion that attentional contributions to CSEs reflect a short-lived, phasic enhancement of attentional set in reaction to processing conflict.
Highlights
The efficiency of attention and response selection processes is strongly affected by our recent interactions with the environment
The ANOVA detected an unexpected interaction between previous trial congruency and inter-stimulus interval (ISI) (F[4, 36] = 4.1, p < 0.01), which appeared to be attributable to generally faster response time (RT) following incongruent trials in time bin 1 (t[9] = 5.4, p < 0.001), accompanied by an absence of such effects in all of the later time intervals
The RT data from Experiment 1 show that the congruency sequence effects (CSEs) steadily diminishes with increasing ISI
Summary
The efficiency of attention and response selection processes is strongly affected by our recent interactions with the environment. Performance is reliably slower in the incongruent condition (the Stroop congruency effect), because the necessary disambiguation of the conflicting relevant and irrelevant stimulus features, and their respective response associations, imposes additional attentional processing demands (Cohen et al, 1990; MacLeod, 1991). This congruency (or conflict) effect is modulated by trial history, whereby the degree of conflict is often found to be reduced following an incongruent as compared to a congruent stimulus trial (Gratton et al, 1992; for reviews, see Egner, 2007, 2008). We were interested in delineating the typical time-course of CSEs, and relating it to current attention-based models of CSEs
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