Picture novelty attenuates semantic interference and modulates concomitant neural activity in the anterior cingulate cortex and the locus coeruleus

Abstract

Goal-directed behavior requires the ability to focus on information that is relevant to a given task and to ignore information that might interfere with it. In the Stroop task, for example, the influence of an irrelevant word needs to be overcome, which is believed to be difficult because it arises in a fast and automatic fashion, which effectively renders it very salient. Here we address the question of whether this can be counteracted by increasing the saliency of the task-relevant input, for example by modulating its relative novelty, which increases saliency in a fairly implicit and controlled fashion. To test the influence of novelty on interference processing, we employed a picture-word interference task in the fMRI scanner, in which we manipulated the novelty of the task-relevant picture. We found that picture novelty indeed reduced typical behavioral interference from incongruent words. Moreover, familiar incongruent trials were associated with activity increases in the anterior cingulate cortex (ACC), a prime conflict-processing region, as well as in the noradrenergic locus coeruleus (LC), which entertains connections both to and from the ACC. The lack of analogous activations in novel incongruent trials suggests that the reduction of behavioral interference was not related to enhanced conflict-resolution processes, but rather to the automatic prioritization of novel pictures which appears to avert the influence of irrelevant words at the front end. Interestingly, activity in the ACC and LC was slightly stronger in novel congruent trials compared to incongruent ones, which may reflect increased relevance of novel stimuli when encoded in a congruent context. In summary, the present data demonstrate that stimulus novelty clearly reduces semantic interference, and highlights a complex interaction of interference and novelty processing on the neural level, including an involvement of the noradrenergic system in the processing of cognitively and perceptually salient events.