Cognitive control, attention, and the other race effect in memory.

Thackery I Brown,Jennifer L Eberhardt,Anthony D Wagner,Tiffany E Chow,Melina R Uncapher,Alessio Avenanti

doi:10.1371/journal.pone.0173579

Thackery I Brown, Jennifer L Eberhardt + Show 4 more

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https://doi.org/10.1371/journal.pone.0173579

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Abstract

People are better at remembering faces from their own race than other races–a phenomenon with significant societal implications. This Other Race Effect (ORE) in memory could arise from different attentional allocation to, and cognitive control over, same- and other-race faces during encoding. Deeper or more differentiated processing of same-race faces could yield more robust representations of same- vs. other-race faces that could support better recognition memory. Conversely, to the extent that other-race faces may be characterized by lower perceptual expertise, attention and cognitive control may be more important for successful encoding of robust, distinct representations of these stimuli. We tested a mechanistic model in which successful encoding of same- and other-race faces, indexed by subsequent memory performance, is differentially predicted by (a) engagement of frontoparietal networks subserving top-down attention and cognitive control, and (b) interactions between frontoparietal networks and fusiform cortex face processing. European American (EA) and African American (AA) participants underwent fMRI while intentionally encoding EA and AA faces, and ~24 hrs later performed an “old/new” recognition memory task. Univariate analyses revealed greater engagement of frontoparietal top-down attention and cognitive control networks during encoding for same- vs. other-race faces, stemming particularly from a failure to engage the cognitive control network during processing of other-race faces that were subsequently forgotten. Psychophysiological interaction (PPI) analyses further revealed that OREs were characterized by greater functional interaction between medial intraparietal sulcus, a component of the top-down attention network, and fusiform cortex during same- than other-race face encoding. Together, these results suggest that group-based face memory biases at least partially stem from differential allocation of cognitive control and top-down attention during encoding, such that same-race memory benefits from elevated top-down attentional engagement with face processing regions; conversely, reduced recruitment of cognitive control circuitry appears more predictive of memory failure when encoding out-group faces.

Highlights

Understanding the neural mechanisms that underlie and influence relations between different social groups is of central importance for society
Research has long suggested that social category information, such as race and gender, is automatically encoded [1,2], and that social categories can influence cognition, with implications for behavior in social and legal settings
There was no evidence for a significant difference in the magnitude of the Other Race Effect (ORE) between European American (EA) and AA participants (indicated by a non-significant interaction between ORE and participant race using linear mixed effects modeling to accommodate unequal sample sizes: t(17) = 0.15, p = 0.88)

Summary

Introduction

Understanding the neural mechanisms that underlie and influence relations between different social groups is of central importance for society. People exhibit a tendency towards more rapid and accurate categorization of other-race faces as being of another race than same-race faces as being of one’s own race [5,6,7,8,9,10,11]. This rapid out-group categorization benefit may, paradoxically, relate to a bias for people to engage in deeper, more computationally expensive, in-group processing [6]. Group categorization effects may contribute “downstream” to a long-established memory phenomenon known as the Other Race Effect (ORE) [12,13,14], characterized by better recognition memory for same-race than other-race faces

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