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Cross-race effect

The cross-race effect (CRE), also designated the other-race effect or own-race bias, constitutes a robust cognitive bias in face recognition wherein individuals exhibit markedly superior accuracy in identifying and remembering faces from their own racial group relative to those from other racial groups.^[1]^[2] This phenomenon manifests in diminished hit rates for correct identifications and heightened false alarm rates for incorrect ones in cross-race scenarios, with meta-analytic syntheses of experimental data revealing effect sizes indicative of consistent, moderate-to-large decrements in performance across laboratory paradigms.^[3]^[4] Extensively documented since initial systematic inquiries in the 1960s and 1970s, the CRE emerges developmentally in infancy and persists into adulthood, transcending cultural boundaries while varying in magnitude based on societal demographics.^[5] Empirical attributions primarily invoke acquired perceptual expertise from protracted, differential exposure to own-race facial configurations, fostering enhanced holistic processing and featural differentiation for ingroup stimuli; supplementary influences such as social categorization or attentional allocation may contribute, yet interracial contact—while mitigable through sustained familiarity—seldom eradicates the disparity entirely.^[6]^[7] In forensic applications, particularly eyewitness testimony, the effect underscores elevated risks of misidentification in heterogeneous racial contexts, prompting procedural reforms like lineup composition guidelines to curb decision errors, as corroborated by archival analyses of wrongful convictions disproportionately involving cross-race attributions.^[8]^[4] The bias's resilience to explicit instructional interventions further accentuates its perceptual-cognitive entrenchment over volitional control.^[9]

Historical Development

Early Observations and Initial Studies

The cross-race effect, characterized by reduced accuracy in recognizing faces of other races relative to one's own, was first documented in 1914 by Gustave A. Feingold in a analysis of factors influencing eyewitness identification. Feingold observed that individuals typically exhibit poorer differentiation of facial features among members of unfamiliar races, such as Jews or African Americans for White observers, compared to their own racial group, and attributed this primarily to limited environmental exposure rather than inherent perceptual deficits.^[10]^[11] The first controlled empirical study of the effect appeared in 1969, conducted by Roy S. Malpass and Julius Kravitz, who examined face recognition memory using photographs of Black and White individuals presented to 20 Black and 20 White undergraduate participants at racially homogeneous colleges. Results showed significantly higher recognition accuracy for own-race faces across both participant groups, with the effect emerging in hit rates and false alarm patterns during subsequent identification tasks, thus establishing a replicable laboratory demonstration of the phenomenon independent of real-world eyewitness contexts.^[12]^[13] Early follow-up studies in the 1970s, including those by John F. Cross and colleagues (1971) and Anthony G. Goldstein (1975), corroborated these findings using similar photo-array paradigms and extended observations to additional racial pairings, such as Asian and Caucasian faces, consistently reporting own-race recognition advantages of approximately 10-20% in accuracy metrics. These initial investigations laid the groundwork for later research by highlighting the effect's presence in basic memory processes rather than solely applied identification scenarios, though sample sizes were small (typically n=20-50 per group) and stimuli limited to static photographs.^[14]

Evolution of Research Methodologies

Initial research on the cross-race effect originated with qualitative observations rather than controlled experiments. In 1914, genetic psychologist Gustave Feingold documented the tendency for individuals to perceive members of other races as more alike, drawing from reports in identification and perceptual contexts, such as law enforcement descriptions. These early assessments lacked standardized stimuli or quantitative measures, relying instead on anecdotal evidence from diverse racial groups to infer perceptual uniformity across out-group faces.^[15] Experimental methodologies emerged in the late 1960s and 1970s, transitioning to laboratory-based face recognition paradigms. Participants were exposed to photographic arrays of own- and other-race faces for brief durations, followed by recognition tests using yes/no judgments or forced-choice selections from distractor sets.^[16] Accuracy was evaluated via hit rates (correct identifications of studied faces) and false alarm rates (incorrect endorsements of novel faces), revealing consistent deficits in other-race recognition, with effect sizes averaging around 10-20% lower accuracy for out-group faces.^[14] These paradigms emphasized memory encoding and retrieval but often overlooked response biases, limiting inferences to raw performance differences. The 1980s and 1990s saw refinements incorporating signal detection theory, which distinguished perceptual sensitivity (d') from decision criteria (c or β), confirming that the effect primarily reflects reduced discriminability rather than conservative biases for other-race faces.^[16] Eyewitness-relevant simulations gained prominence, including simultaneous and sequential lineups or showups with confederate fillers, to assess real-world applicability; for instance, studies manipulated exposure time and retention intervals to mirror forensic scenarios.^[17] Meta-analytic syntheses, such as Meissner and Brigham's 2001 review of 91 samples across 30 years, validated these approaches, reporting a moderate-to-large effect (d = 0.77) robust to variations in stimulus race and participant demographics.^[16] Subsequent decades introduced mechanism-specific tools to dissect perceptual versus social contributions. Configural processing was probed via inverted-face tasks, where upright own-race faces showed greater disruption than other-race equivalents, indicating expertise-driven holistic encoding deficits. Composite-face paradigms and part-whole tasks quantified featural versus holistic reliance, with other-race faces eliciting more piecemeal analysis. Neuroimaging advancements, including fMRI and ERPs from the early 2000s, revealed attenuated activation in the fusiform face area and N170 component for other-race stimuli, linking the effect to neural expertise.^[18] Recent methodologies extend to computational models benchmarking algorithms against human biases and developmental habituation in infants, enhancing causal insights while maintaining parametric control.^[19]

Core Phenomenon and Measurement

Definition and Basic Mechanisms

The cross-race effect (CRE), also known as the other-race effect or own-race bias, denotes the empirically observed decrement in accuracy for recognizing faces belonging to racial or ethnic groups other than one's own, relative to superior performance on own-group faces.^[8] This bias manifests in standard face recognition paradigms, where participants encode briefly presented faces and later attempt identification or discrimination, yielding higher hit rates (correct recognitions) and lower false alarm rates (incorrect recognitions) for own-race stimuli across hit rates typically 10-20% superior to other-race equivalents in meta-analyses aggregating over 90 studies involving diverse participant pools.^[20] The effect holds irrespective of stimulus modality—photographs, videos, or real interactions—and persists even under incidental learning conditions, underscoring its robustness beyond deliberate attention.^[21] Fundamentally, the CRE stems from perceptual expertise acquired through protracted exposure to own-race faces, which fosters specialized processing attuned to the normative feature distributions and configurations (e.g., eye spacing, nose-mouth distance) characteristic of that group.^[22] This expertise enables holistic or configural encoding—integrating relational distances among facial landmarks—yielding finer-grained discriminability, as evidenced by inversion effects (disrupted recognition when faces are upside-down) being more pronounced for own-race than other-race faces, a marker of configural reliance.^[18] Conversely, other-race faces elicit relatively greater featural processing (isolated traits like skin tone or hair texture), which proves less diagnostic for individuation amid within-group variability, paralleling domain-specific expertises like birdwatchers' superior recall of avian species.^[23] Contributing mechanisms also encompass early developmental perceptual narrowing, wherein infants' initially broad face discrimination capacities—evident at 3 months for multiple races—constrict by 9 months to prioritize frequently encountered own-race exemplars, diminishing sensitivity to other-race variations via experience-dependent neural tuning in fusiform face areas.^[24] Social factors modulate this baseline, including outgroup categorization that triggers shallower individuation due to reduced motivational investment in memorizing "generic" other-race exemplars, though expertise accounts for the majority of variance in controlled settings minimizing contact disparities.^[25] Neural imaging corroborates these processes, revealing attenuated fusiform activation and connectivity for other-race faces, indicative of less differentiated representations.^[26]

Methodological Approaches to Detection

The cross-race effect is predominantly detected through controlled laboratory experiments employing face recognition memory paradigms, in which participants encode a series of own-race and other-race faces under incidental or intentional learning conditions, followed by a test phase requiring identification of previously seen ("old") faces amid novel ("new") distractors.^[27] These paradigms typically yield the effect when recognition accuracy—measured via hit rates (correctly identifying old faces), false alarm rates (incorrectly identifying new faces as old), or signal detection metrics like d'—is significantly higher for own-race faces, with meta-analytic evidence confirming effect sizes around d = 0.32 to 0.37 across diverse samples.^[28] Stimulus sets are standardized using databases such as the Chicago Face Database or Malaysian Face Database to minimize confounds like image quality or pose variability, ensuring racial categorization is based on self-reported or perceptual norms rather than arbitrary labels.^[20] Alternative detection methods include perceptual discrimination tasks, where participants judge whether probe faces match a target or differ via subtle morphs (e.g., altering interocular distance or feature spacing by 5-10 pixels), revealing deficits in other-race face individuation due to reduced sensitivity to configural changes.^[29] In such setups, own-race faces elicit finer-grained discrimination, as evidenced by lower error rates in sequential matching compared to other-race counterparts, with paradigms often incorporating eye-tracking to quantify fixation patterns on diagnostic features like eyes and mouth.^[30] These approaches complement recognition memory by isolating encoding-stage processes, though they require careful calibration to avoid ceiling effects in own-race performance. Eyewitness simulation paradigms extend detection to applied contexts, presenting participants with video-recorded events involving perpetrators of varying races, followed by lineup identifications under conditions mimicking forensic constraints (e.g., brief exposure, stress induction).^[31] The effect manifests as elevated chooser errors or lower correct identifications for cross-race targets, quantified via receiver operating characteristic (ROC) analysis, which accounts for bias in decision criteria; studies report consistent own-race advantages persisting even with unbiased instructions.^[32] Critiques of these methods highlight potential over-reliance on static photos versus dynamic videos and the need for diverse participant pools to generalize beyond Western samples, yet replication across paradigms underscores the robustness of behavioral detection.^[27] Advanced variants incorporate computational modeling, such as mixture models of recall precision, to dissect whether the effect stems from reduced memory quality or quantity for other-race faces.^[33]

Explanatory Frameworks

Perceptual and Expertise-Based Theories

Perceptual theories of the cross-race effect emphasize differences in how facial information is encoded and processed, particularly the reliance on configural versus featural cues. Configural processing involves perceiving the spatial relationships among facial features as a holistic gestalt, which is more effective for recognition than isolated featural processing (e.g., focusing on individual eyes, nose, or mouth). Empirical evidence indicates that observers exhibit reduced configural processing for other-race faces, leading to poorer recognition accuracy; for instance, the face inversion effect—a marker of configural processing disruption—is significantly stronger for own-race faces than other-race faces across multiple studies involving Caucasian and Asian participants.^[34]^[35] This perceptual deficit persists even when controlling for low-level visual differences, suggesting it arises from early-stage encoding biases rather than superficial stimulus properties.^[36] Expertise-based theories build on perceptual accounts by attributing the effect to acquired perceptual fluency from differential exposure to own-race faces during development. According to this view, frequent contact with own-race faces fosters domain-specific expertise, akin to how experts in non-face categories (e.g., birdwatchers with bird faces or car enthusiasts with vehicles) outperform novices through enhanced configural sensitivity.^[2] Supporting data from training paradigms show that brief laboratory exposure to other-race faces can improve recognition rates, mirroring expertise gains in other visual domains, though effects are often modest and do not fully eliminate the bias.^[37] Cross-cultural studies further corroborate this, as individuals with high other-race contact (e.g., via immigration or multicultural environments) demonstrate attenuated cross-race effects, with correlations between contact quality/quantity and recognition performance reaching statistical significance in meta-analyses.^[5]^[38] Integration of perceptual and expertise mechanisms posits a developmental trajectory where early-life exposure shapes neural tuning for own-race configurations, potentially via fusiform face area specialization observed in neuroimaging.^[18] However, critiques highlight limitations: some experiments find no reduction in holistic processing for other-race faces despite persistent recognition deficits, challenging strict expertise-perception links, and contact benefits may interact with social factors rather than pure perceptual tuning.^[7]^[39] Despite these nuances, perceptual-expertise frameworks remain influential, as they account for the effect's robustness across age groups and stimuli while emphasizing malleable, experience-driven processes over fixed biological traits.^[22] Social-cognitive theories attribute the cross-race effect to motivational and attentional biases rooted in intergroup dynamics, whereby individuals allocate greater cognitive resources to distinguishing own-race faces as unique exemplars while processing other-race faces more categorically at the group level.^[40] The categorization-individuation model posits that this differential processing stems from a default tendency to categorize out-group members, reducing individuation efforts and resulting in shallower encoding and retrieval of distinctive features for other-race faces.^[41] Experimental manipulations, such as instructing participants to focus on individuating other-race faces, have been shown to eliminate or attenuate the effect, demonstrating that heightened motivation enhances recognition accuracy by overriding categorical tendencies.^[42] Social factors like group labeling further illustrate these mechanisms; assigning other-race faces to an in-group context increases holistic processing and recognition performance comparable to own-race faces, whereas out-group labeling exacerbates the deficit.^[2] Intergroup contact theory complements this by proposing that sustained, high-quality exposure to other-race individuals fosters familiarity and reduces motivational biases, thereby diminishing the effect through improved cognitive differentiation.^[43] A meta-analysis of 27 studies confirmed a modest inverse relationship between self-reported cross-race contact and the recognition deficit (r = -0.14), with stronger effects for contact involving personal interactions rather than mere proximity.^[44] Cognitive processing theories emphasize post-encoding stages, where social motivations influence retrieval and configural analysis; for instance, other-race faces elicit less configural (relational) processing during recognition judgments, leading to reliance on featural cues that are more susceptible to interference.^[45] This aligns with evidence that out-group social orientation impairs same-race recognition in minority-group participants, suggesting bidirectional influences of social context on cognitive effort allocation.^[45] While perceptual expertise accounts focus on experience-driven sensitivity, social-cognitive frameworks highlight top-down modulation, with hybrid models integrating both to explain variability across contexts like prejudice levels or cultural settings.^[37]

Evolutionary and Biological Perspectives

The cross-race effect may reflect evolutionary adaptations for enhanced processing of phenotypically similar faces, which in ancestral small-scale societies signaled kinship, cooperative alliances, or potential threats within homogeneous groups.^[46] This prioritization likely conferred survival advantages by facilitating accurate identification of ingroup members for resource sharing and mate selection, while de-emphasizing differentiation among outgroup individuals encountered infrequently.^[46] Empirical support includes findings that own-race recognition accuracy improves with decreasing interracial contact, mirroring patterns of ancestral isolation where phenotypic familiarity indicated genetic relatedness.^[47] Biologically, the effect aligns with perceptual narrowing mechanisms, wherein neural systems specialize early in life for dominant environmental stimuli, such as own-race faces, reducing sensitivity to other-race variations.^[48] Infants exhibit no cross-race bias at 3 months but develop it by 9 months through exposure-driven tuning, indicating an evolved plasticity that optimizes recognition for prevalent face types rather than a rigid genetic template for all races.^[48] Face recognition ability itself shows substantial heritability (estimated at 0.62), suggesting genetic factors amplify the effect's expression, particularly when combined with limited cross-race experience.^[49] Alternative evolutionary frameworks invoke coalitional psychology, proposing the effect as a byproduct of adaptations for rapid categorization of allies versus competitors using salient cues like appearance similarity, without requiring race-specific modules given rare ancestral intergroup encounters.^[48] Critiques note scant evidence for dedicated neural hardware for racial differentiation, attributing the phenomenon instead to domain-general unfamiliarity effects that manifest across categories beyond race.^[48] Nonetheless, the persistence of own-race advantages in youth, independent of contact levels, underscores underlying biological constraints shaped by evolutionary history.^[50]

Empirical Evidence

Consistency Across Racial and Ethnic Groups

The cross-race effect manifests reliably across a broad spectrum of racial and ethnic perceiver groups, with empirical studies documenting diminished recognition accuracy for other-race faces relative to own-race faces in Caucasian, African American, Asian, Hispanic/Latino, and multiracial populations. A meta-analytic review of 91 research articles encompassing over 7,000 participants, published in 2001, analyzed recognition memory tasks and found the effect size for own-race advantage to be moderate (d = 0.47) and consistent irrespective of whether the participants were predominantly White (analyzing Black faces) or Black (analyzing White faces), with similar patterns emerging in smaller samples of Asian and Hispanic participants evaluating Caucasian targets.^[51] This universality holds in controlled laboratory settings using standardized face stimuli and delayed recognition paradigms, where hit rates for own-race faces typically exceed those for other-race faces by 10-15 percentage points across groups.^[1] Subsequent investigations have extended these findings to non-Western and indigenous ethnicities, reinforcing the effect's cross-cultural robustness. For instance, Chinese participants exhibited poorer recognition of Caucasian faces compared to Asian faces in a 1995 study involving 120 undergraduates, with accuracy rates dropping by approximately 20% for other-race stimuli. Similarly, Hispanic/Latino perceivers in the United States demonstrate the effect when identifying non-Latino White or Black faces, as evidenced by a 2016 priming experiment where monoracial Latino participants showed a significant own-race recognition advantage (p < 0.05) after ethnic identity cues, mirroring patterns in monoracial White and Black groups. A 2022 three-level meta-analysis synthesizing 159 journal articles on facial identification biases, including diverse ethnic pairings (e.g., Asian-Caucasian, Black-Hispanic), confirmed a significant other-race deficit (effect size g = 0.36), with no substantial moderation by perceiver ethnicity, indicating the phenomenon's prevalence beyond majority-minority dynamics in Western samples. Developmental evidence further supports consistency, as the effect emerges in infancy across ethnicities, suggesting an innate perceptual narrowing rather than solely learned cultural variance. Caucasian, African, and Asian infants aged 6-9 months displayed preferential processing of own-race faces, with habituation times and novelty preferences differing by 15-20% for other-race stimuli, patterns replicated in cross-ethnic comparisons. Adult studies in multiracial societies, such as Singapore (with Chinese, Malay, and Indian majorities), yield comparable results, where each ethnic group shows an own-race bias in recognition tasks, with error rates for other-ethnic faces elevated by 12-18%. While interracial contact can attenuate the magnitude (reducing effect sizes by up to 0.20 in high-contact subgroups), the core deficit persists across groups, as quantified in a 2021 meta-analysis of 28 studies linking contact frequency to modest improvements but not elimination of the bias. These findings derive from peer-reviewed psychological experiments prioritizing replicable behavioral measures, though some variability arises from stimulus quality and exposure duration, underscoring the effect's empirical stability over methodological artifacts. The other-race effect emerges early in infancy through perceptual narrowing, where sensitivity to other-race facial distinctions diminishes due to limited exposure. Newborns exhibit no preference for own-race faces over other-race faces in visual preference tasks, showing equivalent looking times across ethnic groups.^[52] By three months of age, Caucasian infants demonstrate a significant preference for own-race (Caucasian) faces, allocating more visual attention to them compared to African, Asian, or Middle Eastern faces (58.80% vs. 41.20% looking time).^[52] In recognition tasks using visual paired-comparison, three-month-olds successfully discriminate novel from familiar faces across all tested races (Caucasian, African, Chinese, Middle Eastern), with novelty preferences around 60-64%.^[24] However, by six months, recognition declines for other-race faces, with successful discrimination limited to own-race (Caucasian) and Chinese faces (novelty preferences 58% and 56%, respectively), while failing for African and Middle Eastern faces.^[24] At nine months, discrimination is restricted to own-race faces only (59% novelty preference), indicating the full other-race effect is established by this age.^[24] This early developmental trajectory persists into childhood, with the effect evident in face recognition memory tasks. Among White and Black children in kindergarten (ages 5-6) and third grade (ages 8-9), own-race faces are recognized more accurately than other-race faces in lineup identification after a one-day delay, mirroring patterns in young adults.^[53] The magnitude of the cross-race effect remains consistent across these child age groups and into adulthood, despite overall lower recognition accuracy in younger children due to immature memory processes.^[54] Studies in diverse cultural contexts, such as German and Cameroonian three-year-olds, confirm the effect's presence, with better recognition of own-ethnic group faces regardless of group differences in contact.^[55] In adulthood, the effect remains robust but shows age-related attenuation in older individuals. Among Han Chinese participants, the other-race effect weakens with advancing age, as older adults (over 60) exhibit reduced disadvantage in recognizing Caucasian faces compared to younger adults, potentially due to cumulative cross-racial exposure or cognitive changes.^[56] Signal detection analyses indicate that older adults (around 70) display smaller discrimination advantages for own-race over other-race faces relative to younger adults (around 20), suggesting diminished bias strength in late life.^[57] Overall, while the effect is stable from infancy through mid-adulthood, its developmental pattern reflects initial strengthening via experience-driven narrowing followed by potential weakening in senescence.^[56]^[57]

Neural and Physiological Correlates

Functional magnetic resonance imaging (fMRI) studies have identified differences in brain activation patterns during the processing of own-race versus other-race faces, particularly in the fusiform face area (FFA). In one study, repetition suppression—a marker of neural adaptation to repeated stimuli—was observed in the FFA for own-race faces when the same identity was presented, indicating efficient individuation, but this effect was absent for other-race faces, suggesting reduced sensitivity to identity-specific features.^[58] Similar findings show that own-race faces elicit stronger and more differentiated responses in the FFA and occipital face area compared to other-race faces, correlating with better recognition memory.^[59] Event-related potential (ERP) analyses reveal temporal differences in neural processing. Other-race faces produce reduced amplitudes in early visual components like N170, associated with configural face processing, compared to own-race faces, with these differences emerging around 170 ms post-stimulus.^[60] In contrast, later components such as P2 and N250 show heightened activity for other-race faces in some contexts, potentially reflecting increased categorization or novelty detection rather than individuation.^[61] Functional near-infrared spectroscopy (fNIRS) in preschool children demonstrates higher prefrontal activation for other-race faces, suggesting early developmental divergence in executive processing demands.^[62] Eye-tracking studies provide physiological evidence of altered perceptual strategies. Observers exhibit less holistic scanning—fewer fixations on internal facial features like eyes and mouth—for other-race faces, instead allocating more gaze to external contours and hair, which aligns with poorer configural encoding and contributes to recognition deficits.^[63] This pattern persists even when learning cross-race faces, with reduced eye movement efficiency predicting memory performance.^[64] Such findings indicate that the cross-race effect involves not only neural but also oculomotor correlates, reflecting domain-specific expertise differences.

Real-World Consequences

Implications for Eyewitness Identification

The cross-race effect diminishes the accuracy of eyewitness identifications when the witness and suspect belong to different racial groups, leading to higher rates of both false positives and misses in recognition tasks.^[65] Meta-analyses of laboratory experiments simulating eyewitness conditions confirm a robust own-race bias, with effect sizes indicating that same-race identifications yield hit rates approximately 10-15% higher and false alarm rates 10-20% lower than cross-race ones. This pattern persists across diverse populations, including Caucasian, African American, Hispanic, and Asian participants, underscoring the effect's generalizability beyond majority-minority dynamics.^[66] In forensic contexts, cross-race identifications contribute disproportionately to erroneous convictions, as evidenced by DNA exoneration data from the Innocence Project, where over one-third of misidentification cases from 1989 to 2008 involved a racial mismatch between witness and perpetrator.^[67] A prominent example is the 1984 rape of Jennifer Thompson-Cannino by an African American assailant; her cross-race identification of innocent Ronald Cotton, a Black man, resulted in his wrongful conviction and 11-year imprisonment until DNA evidence exonerated him in 1995.^[68] Experimental research further quantifies the risk, showing eyewitnesses are over 50% more likely to misidentify a cross-race stranger in lineup procedures compared to same-race targets.^[69] These findings necessitate caution in legal reliance on cross-race testimony, including jury instructions highlighting the effect's empirical basis, as adopted in some U.S. jurisdictions following meta-analytic evidence. However, the effect's magnitude varies with factors like exposure duration and lineup fairness, and it does not imply universal unreliability of cross-race identifications, only a statistically elevated error rate supported by aggregated data.^[65]^[3] The cross-race effect contributes to social challenges in diverse environments by impairing accurate recognition of other-race individuals, which can lead to repeated misidentifications and perceptions of interchangeability among outgroup members.^[70] This perceptual limitation fosters feelings of alienation, particularly for racial minorities in majority-white settings, where frequent mix-ups by colleagues or acquaintances heighten experiences of marginalization and reduce interpersonal trust.^[71] In professional contexts, such errors have been documented to erode workplace cohesion, as minority employees report diminished visibility and respect, potentially exacerbating turnover and conflict in racially mixed teams.^[72] On the economic front, the effect indirectly influences labor market dynamics through biased evaluations in manager-subordinate relationships, where own-race perceptual advantages may contribute to disparities in promotions and dismissals for other-race employees.^[73] For instance, analyses of large retail firms reveal that Black, Hispanic, and Asian workers face higher relative dismissal risks under non-matching-race managers, a pattern consistent with perceptual biases hindering nuanced assessments of performance or behavior.^[74] These dynamics can perpetuate wage gaps and underrepresentation in leadership roles, as evidenced by persistent racial inequalities in U.S. employment outcomes from 1989 to 2015, where own-group preferences amplify opportunity disparities.^[75] However, direct causal links to the cross-race effect remain understudied, with much evidence pointing to intertwined statistical and affinity biases rather than isolated recognition failures.^[76] Broader societal ramifications include diminished intergroup cooperation, as poorer other-race face memory limits familiarity-building essential for cross-racial networking and community integration.^[77] In economically diverse societies, this can hinder collaborative ventures, such as multicultural business partnerships or neighborhood initiatives, by sustaining ingroup preferences that slow social capital accumulation across racial lines. Empirical patterns from multiracial studies indicate that without sufficient contact, the effect reinforces segregated social structures, indirectly constraining economic mobility for minorities reliant on broad relational networks.^[20] Mitigation through deliberate exposure remains key, though systemic segregation often perpetuates the bias's reach.^[1]

Controversies in Legal and Policy Applications

The cross-race effect has fueled significant debates in legal contexts, particularly concerning the reliability of eyewitness identifications in criminal trials and the admissibility of related expert testimony. Courts in various jurisdictions have grappled with whether to allow psychologists to testify about the phenomenon, with many excluding it on grounds that it lies within the common knowledge of jurors or can be adequately addressed through cross-examination.^[78] For instance, a 1994 Cornell Law Review analysis argued that while the effect is empirically robust, judicial reluctance stems from concerns over invading the jury's fact-finding role and the perceived sufficiency of traditional safeguards like corroborative evidence.^[78] A landmark illustration of these issues is the 1984 conviction of Ronald Cotton, a Black man misidentified by white victim Jennifer Thompson-Cannino as her rapist; Cotton served 11 years before DNA exoneration in 1995 revealed the true perpetrator.^[68] This case, among others, has prompted calls for policy reforms, yet controversies persist over mandating special jury instructions. In New York, following People v. Boone (2018), trial judges must deliver a cross-racial identification charge when the witness and defendant differ in race, emphasizing potential accuracy deficits supported by meta-analytic evidence of 1.56 times higher false alarm rates for other-race faces.^[79] ^[80] Critics contend such instructions risk biasing juries against prosecutions involving minority defendants, potentially exacerbating acquittals in corroborated cases, while proponents highlight the effect's role in over 40% of DNA-exonerated wrongful convictions involving cross-racial misidentifications.^[69] Broader policy applications extend to lineup procedures and training mandates for law enforcement. Experimental data indicate eyewitnesses are over 50% more prone to misidentifying strangers of another race, informing recommendations for blind administration and sequential lineups to reduce bias.^[69] However, implementation faces resistance due to resource constraints and debates over the effect's real-world magnitude, with some studies questioning juror awareness and the need for systemic overhauls versus case-specific scrutiny.^[81] Jurisdictional variability—such as New Jersey's emphasis on cross-racial frailties without uniform expert admissibility—underscores ongoing tensions between empirical caution and prosecutorial efficiency.^[82]

Mitigation Strategies and Limitations

Effects of Intergroup Contact

A meta-analysis of 207 tests from 65 studies spanning 38 years found that greater cross-race contact is associated with a reduction in the cross-race recognition deficit, with a small but significant effect size of r = -.15, accounting for approximately 2.25% of the variance in recognition accuracy.^[43] This effect holds across participant races and stimulus races, indicating consistency in how intergroup exposure improves other-race face processing regardless of the specific groups involved.^[6] The association is moderated by the timing and nature of contact, with stronger reductions observed when contact occurs during childhood (before age 18) compared to adulthood (r_diff = -.132).^[43] Experimental manipulations of contact, such as structured interracial interactions, yield larger effects (r = -.382), suggesting that deliberate exposure can enhance recognition more than mere self-reported quantity of contact.^[6] Quality of contact also appears influential, as positive, individuating interactions promote holistic processing of other-race faces, aligning visual attention strategies more closely with those used for own-race faces.^[83] Neural evidence supports these behavioral findings; for instance, increased positive intergroup contact correlates with reduced differentiation in fusiform gyrus activation between own-race and other-race faces, implying diminished perceptual expertise gaps at a brain level.^[84] However, the effect sizes remain modest overall, and contact does not eliminate the cross-race effect, particularly in low-exposure adults or when contact is superficial rather than meaningful.^[43] These patterns align with the contact hypothesis, extended from prejudice reduction to perceptual learning, but underscore that sustained, high-quality intergroup engagement is necessary for meaningful mitigation.^[85]

Training and Intervention Approaches

Various laboratory-based training protocols have been developed to mitigate the cross-race effect by enhancing perceptual expertise with other-race faces, often drawing on analogies to expertise in non-face categories like birds or cars. These interventions typically involve repeated exposure to other-race faces coupled with tasks that promote individuation, such as assigning unique labels or names to specific individuals rather than categorizing them by race. For instance, short-term individuation training, consisting of three sessions totaling 90 minutes where participants named African American or Hispanic faces, improved perceptual discrimination accuracy for the trained race by a moderate effect (η² = 0.23), though it did not enhance recognition memory or transfer benefits to an untrained race.^[86] Similar protocols in adults with developmental prosopagnosia have shown that practice with own-race faces can indirectly boost holistic processing of other-race faces, suggesting potential generalization through strengthened configural processing skills, but such gains are not observed in typical populations.^[87] In young children, perceptual individuation training has demonstrated more consistent reductions in related implicit racial biases, which correlate with improved other-race face recognition. Preschoolers (aged 3-5) trained to individuate Caucasian faces through labeling tasks exhibited significant decreases in implicit bias as measured by response time differences in categorization tasks (Cohen's d = 0.60-0.65 across studies), with effects persisting immediately post-training but untested for longevity.^[88] Mere exposure without individuation, however, yielded no such benefits, underscoring the importance of active discrimination over passive familiarization.^[89] These child-focused interventions link perceptual gains to reduced social categorization of other-race faces, but explicit bias measures remained unaffected, indicating domain-specific impacts.^[88] Despite these targeted improvements in perceptual tasks, training interventions often fail to reliably reduce the cross-race effect in eyewitness-like recognition memory paradigms among adults. Meta-analytic reviews and experimental critiques highlight that while discrimination training may enhance featural processing temporarily, it rarely translates to better hit rates or reduced false alarms in face identification tasks, with effects dissipating without sustained practice.^[90] Moreover, simple instructional warnings about the cross-race effect do not attenuate it, as biases persist even when participants are explicitly informed of their susceptibility.^[91] Broader perceptual expertise models propose cultural immersion-like training—intensive, prolonged exposure mimicking expert categorization—but empirical support remains preliminary, with mixed outcomes across studies due to variability in training intensity, participant demographics, and outcome measures.^[92] Overall, while promising for perceptual narrowing in developmental contexts, adult interventions require further validation for real-world applicability, particularly in high-stakes scenarios like eyewitness testimony.

Challenges and Empirical Critiques of Mitigation

Efforts to mitigate the cross-race effect through perceptual training, such as instructing participants to focus on critical facial features like eyes or mouth, have demonstrated limited efficacy, with recognition accuracy for other-race faces remaining impaired compared to own-race faces even after such interventions. Similarly, warnings about the existence of the cross-race effect or explicit instructions to encode other-race faces more carefully fail to reduce identification errors in controlled experiments simulating eyewitness tasks.^[91] These findings indicate that superficial attentional shifts or awareness-raising do not overcome the perceptual expertise deficit underlying the effect, as deeper holistic processing for other-race faces requires extensive, targeted practice beyond brief training sessions. Intergroup contact, while robustly linked to reduced explicit prejudice in meta-analyses encompassing over 500 studies, shows weaker and more variable impacts on face recognition specifically, with many high-contact individuals still displaying the effect due to insufficient individuation or suboptimal contact quality.^[93]^[20] Mere exposure to other-race faces without active differentiation fails to improve recognition, as evidenced by studies contrasting passive viewing with individuating tasks, where only the latter yields modest, short-term gains confined to lab settings.^[88] Negative or anxiety-provoking intergroup interactions can exacerbate biases, counteracting potential benefits and highlighting the conditional nature of contact theory, which demands equal status and cooperation—conditions often absent in real-world diverse environments.^[94] Broader critiques emphasize the failure of interventions to generalize beyond controlled paradigms to ecologically valid scenarios, such as delayed eyewitness identifications under stress, where the effect persists despite prior training or contact. Efforts to reduce implicit racial bias via other-race individuation have achieved only limited success overall, with effect sizes typically small and non-durable, failing to eliminate the recognition deficit even when targeting multiple faces rather than isolated exemplars. In multiracial societies with routine intergroup exposure, the own-race bias endures, suggesting that correlational links between contact and reduced bias overestimate causal mitigation and underscore the need for longitudinal, causal designs to validate interventions.^[20] These limitations imply that policy applications, like diversity training in law enforcement, risk overpromising on bias reduction without addressing entrenched perceptual mechanisms.^[95] [Related Biases and Phenomena - no content]

References

[1]
[PDF] Cross-race effect - ScholarWorks@UTEP
The cross-race effect (also referred to as the own-race bias or other-race effect) is a facial recognition phenomenon in which.
[2]
Same Faces, Different Labels: Generating the Cross-Race Effect in ...
The Cross-Race Effect (CRE) in memory (also referred to as the Other Race Effect or Own Race Bias) refers to the well-replicated finding that humans are ...
[3]
Three‐level meta‐analysis of the other‐race bias in facial identification
Sep 4, 2022 · ... other race” effect. Behavioral Neuroscience, 129(5), 666–672. https ... Confidence and eyewitness identifications: The cross-race effect, decision ...
[4]
(PDF) Cross-race effect in eyewitness identification - ResearchGate
Research participants are more likely to positively identify own-race faces (by 1.40 times) and more likely to falsely identify other-race faces (by 1.56 times ...
[5]
Developmental Origins of the Other-Race Effect - PubMed Central
The other-race effect (ORE) in face recognition refers to better ... Children's face recognition memory: More evidence for the cross-race effect.
[6]
[PDF] Does Cross-Race Contact Improve Cross-Race Face Perception? A ...
the other-race effect: Experience and the other-race effect. ... critical review of theories of the cross-race effect. Personality and Social ...
[7]
The other-race effect and holistic processing across racial groups
Apr 19, 2021 · The other-race effect (ORE; also known as the own-race bias) is a well-documented phenomenon showing that people are generally better at ...Apparatus, Stimuli And... · Results · Composite Face Effect (cfe)<|control11|><|separator|>
[8]
A cross-race effect in metamemory: Predictions of face recognition ...
The CRE reveals systematic limitations on eyewitness identification accuracy and suggests that some caution is warranted in evaluating cross-race identification ...
[9]
The Cross‐Race Effect: Resistant to Instructions - Bornstein - 2013
Jan 31, 2013 · The cross-race effect (CRE) is the tendency for eyewitnesses to be better at recognizing members of their own race/ethnicity than members of ...1. Introduction · 2. Experiment 1 · 3. Experiment 2
[10]
Face recognition algorithms and the other-race effect: computational ...
They found that the youngest participants, 6 years olds, recognized faces of both races equally well. By 10 years of age, however, there was a recognition ...
[11]
[PDF] 3.3 Cross-Racial Impairment - Defender Manuals
Several studies have evaluated the difficulty of cross-racial identification and concluded that eyewitnesses are less likely to misidentify a person of their ...
[12]
Recognition for faces of own and other race - PubMed
Recognition for faces of own and other race. J Pers Soc Psychol. 1969 Dec;13(4):330-4. doi: 10.1037/h0028434. Authors. R S Malpass, J Kravitz.Missing: cross- | Show results with:cross-
[13]
https://psycnet.apa.org/doiLanding?doi=10.1037%2Fh0028434
[14]
Thirty Years of Investigating the Own-Race Bias in Memory for Faces
Jun 1, 2015 · The current article reviews the own-race bias (ORB) phenomenon in memory for human faces, the finding that own-race faces are better remembered.
[15]
Misidentifying Black People - Headway Training
Dec 21, 2022 · Genetic psychologist Gustave Feingold first coined the term “cross-race effect” more than a hundred years ago. He wrote in 1914 that “to the ...
[16]
Thirty years of investigating the own-race bias in memory for faces
The current article reviews the own-race bias (ORB) phenomenon in memory for human faces, the finding that own-race faces are better remembered.<|separator|>
[17]
https://doi.org/10.1111/j.2044-8333.2012.02057.x
[18]
The other face of the other-race effect: An fMRI investigation of ... - NIH
This effect refers to the fact that individuals recognize own-race faces more accurately and faster than other-race faces. Extensive research has been devoted ...Missing: evolution | Show results with:evolution
[19]
[PDF] An Other-Race Effect for Face Recognition Algorithms
Psychological research indicates that humans recognize faces of their own race more accurately than faces of other races. This “other-race effect” occurs ...
[20]
The Own-Race Bias for Face Recognition in a Multiracial Society
One early explanation for ORB was based on the hypothesis that there may be inherent physical differences in facial features between races that make ...
[21]
Two faces of the other-race effect: recognition and categorisation of ...
The other-race effect is a collection of phenomena whereby faces of one's own race are processed differently from those of other races.
[22]
Understanding the mechanisms underlying the other-'race' effect
Dec 30, 2022 · Understanding the mechanisms underlying the other-'race' effect: An attempt at integrating different perspectives · Abstract · Publication types.
[23]
Perception and Motivation in Face Recognition - Sage Journals
Perhaps the best known of these biases is the Cross-Race Effect—the tendency to have more accurate recognition for same-race than cross-race faces. The current ...
[24]
The Other-Race Effect Develops During Infancy - PubMed Central
The pattern of preferences indicates that the other-race effect is emerging by 6 months of age and is present at 9 months of age.
[25]
The effect of implicit racial bias on recognition of other-race faces
Oct 30, 2021 · Previous research has established a possible link between recognition performance, individuation experience, and implicit racial bias of other-race faces.
[26]
Distinct patterns of neural response to faces from different races in ...
Differences in race can influence our ability to recognize faces—a phenomenon known as the other race effect—ORE (Malpass and Kravitz, 1969; Meissner and ...
[27]
The cross-race effect: Beyond recognition of faces in the laboratory.
The majority of research on the cross-race effect has been conducted with standard facial recognition paradigms. A critical analysis of this paradigm is ...<|separator|>
[28]
Power, individuation, and the cross-race recognition deficit
This cross-race effect (CRE) is a robust phenomenon replicating across experimental paradigms and across cultures (Meissner & Brigham, 2001).
[29]
[PDF] Race Perceptual Bias for Faces
They found that participants had an own-race advantage when they were asked to distinguish between a target face and a morphed face, which is further evidence ...
[30]
Covariation in the recognition of own-race and other-race faces ...
Jul 29, 2022 · A dominant theory of the other race effect (ORE) is that group-bias causes us to process own-race and other-race faces using different cognitive processes.
[31]
[PDF] “CURING” OWN RACE BIAS: WHAT COGNITIVE SCIENCE AND ...
This article examines the role eyewitness identifications tainted by the own race bias may play in jury deliberations. It discusses the causes of own.
[32]
Subtle Changes in Lineup Backgrounds Increase the Own Race Bias
Mar 8, 2023 · In this paper, we investigated the influence of small colour variations in backgrounds for the recognition of Black and White faces.A Background Of Bias: Subtle... · Introduction · General Discussion<|separator|>
[33]
Encoding differences affect the number and precision of own-race ...
Here, we used this methodological combination of continuous recall and mixture modeling to provide a more refined examination of the nature of own-race and ...
[34]
The role of features and configural processing in face-race ...
We explored perceptual factors that might account for the other-race classification advantage (ORCA) in classifying faces by race.
[35]
Holistic processing, contact, and the other-race effect in face ...
Face race and other-race contact affect face recognition and configural processing. Face race and other-race contact do not affect featural or holistic ...
[36]
Perceived Race Affects Configural Processing but Not Holistic ...
The research aimed to evaluate whether the perceived race of a face affects the degree of holistic processing employed while keeping the features being assessed ...Introduction · Experiment 1 · Experiment 2 · General Discussion
[37]
a critical review of theories of the Cross-Race Effect - PubMed
Perhaps the best known of these biases is the Cross-Race Effect--the tendency to have more accurate recognition for same-race than cross-race faces. The current ...
[38]
Does Cross-Race Contact Improve Cross-Race Face Perception? A ...
Jun 26, 2021 · We find no evidence that the relationship differs for measures of holistic/configural processing compared with normal processing. Finally, we ...<|control11|><|separator|>
[39]
Socio‐cognitive, expertise‐based and appearance‐based accounts ...
Sep 16, 2022 · Two competing theories explain the other-'race' effect (ORE) either by greater perceptual expertise to same-'race' (SR) faces or by social ...<|separator|>
[40]
an integrative account of the other-race recognition deficit - PubMed
This categorization-individuation model offers not only a parsimonious account of both classic and recent evidence for category-based biases in face recognition ...Missing: cross- | Show results with:cross-
[41]
The categorization-individuation model: An integrative account of ...
The other-race effect (ORE), or the finding that same-race faces are better recognized than other-race faces, is one of the best replicated phenomena in ...
[42]
Do individuation instructions reduce the cross-race effect? A ...
The results of both experiments found no evidence that instructing participants to individuate CR faces eliminates or even attenuates the CRE.
[43]
Does Cross-Race Contact Improve Cross-Race Face Perception? A ...
Jun 26, 2021 · Contact with racial outgroups is thought to reduce the cross-race recognition deficit (CRD), the tendency for people to recognize same-race ...Missing: interracial hypothesis
[44]
Does Cross-Race Contact Improve Cross-Race Face Perception? A ...
Two separate meta-analyses of substantial bodies of work on the topic suggest that interracial contact, in some contexts, decreases the cross-race recognition ...
[45]
Postencoding cognitive processes in the cross-race effect
Sep 21, 2015 · The cross-race effect (CRE) describes the finding that same-race faces are recognized more accurately than cross-race faces.<|separator|>
[46]
Race effects in facial recognition: the evolution - PMC
May 28, 2019 · In the 80's, it was believed there was no bias in facial recognition when it came to race [3], thus it was pointed out that own-race effect is ...Missing: history | Show results with:history
[47]
https://doi.org/10.1080/00207599008247880
[48]
Cultural neuroscience and the category of race: the case of the other ...
May 9, 2016 · 2.2 What is Other-race effect? The other-race effect, also known as the cross-race effect ... evolutionary explanations. Typically they ...
[49]
Human face recognition ability is specific and highly heritable - PMC
... genetic basis are largely attributable to face-specific mechanisms. ... Development of the other-race effect during infancy: Evidence toward universality?
[50]
https://doi.org/10.1080/1068316X.2014.989173
[51]
https://doi.org/10.1037/1076-8971.7.1.3
[52]
Three-month-olds, but not newborns, prefer own-race faces - PMC
However, the age at which we become sensitive to ethnic differences is currently unclear. ... Thirty years of investigating the own-race bias memory for faces: a ...
[53]
Children's face recognition memory: more evidence for the cross ...
For children, as well as adults, own-race faces are recognized more accurately than cross-race faces.Missing: infants elderly
[54]
https://psycnet.apa.org/doiLanding?doi=10.1037/0021-9010.88.4.760
[55]
The other-race effect in 3-year-old German and Cameroonian children
In both cultures the other-race effect was present; children were better at recognizing individual faces from their own ethnic group. In addition, German ...
[56]
Age Weakens the Other-Race Effect among Han Subjects in ...
Aug 11, 2023 · This indicates that as age increases, the ORE of older people in recognizing faces of those from different ethnic groups becomes weaker, and ...
[57]
[PDF] Age and Lineup Type Differences in the Own-Race Bias
Dec 23, 2014 · Signal detection estimates suggest younger adults compared to older adults have better discrimination accuracy for own-race over other-race ...
[58]
Neural repetition suppression to identity is abolished by other-race ...
Human beings are remarkably skilled at recognizing faces, with the marked exception of other-race faces: the so-called “other-race effect.Abstract · Sign Up For Pnas Alerts · Methods
[59]
The neural correlates of memory encoding and recognition for own ...
People are generally better at recognizing faces from their own race than from a different race, as has been shown in numerous behavioral studies.
[60]
(PDF) Neural correlates of own- and other-race face perception
Aug 9, 2025 · Humans show an "other-race effect" for face recognition, with more accurate recognition of own- versus other-race faces. We compared the neural ...
[61]
Revealing the neural representations underlying other-race face ...
Sep 14, 2024 · Inequality between biases in face memory: Event-related potentials reveal dissociable neural correlates of own-race and own-gender biases.
[62]
Neural correlates of own- and other-race face recognition in ...
Aug 9, 2025 · The authors found higher activation for other-than ownrace faces in the right middle frontal gyrus, inferior frontal gyrus, and the left cuneus ...<|separator|>
[63]
Deficits in Cross-Race Face Learning: Insights From Eye ...
The own-race bias (ORB) is a well-known finding wherein people are better able to recognize and discriminate own-race faces, relative to cross-race faces.
[64]
Perceptual Processes in the Cross-Race Effect - ResearchGate
Oct 6, 2014 · PDF | The cross-race effect (CRE) is the tendency to have better recognition accuracy for same-race than for other-race faces due to ...Missing: physiological skin conductance
[65]
The influence of race on eyewitness memory. - APA PsycNet
The cross-race effect (CRE), also known as the own-race bias or other-race effect, refers to the consistent finding that adults are able to recognize ...Missing: causes | Show results with:causes
[66]
[PDF] The influence of race on eyewitness memory - ScholarWorks@UTEP
For example, an eyewitness field study conducted by Brigham and colleagues (1982) indicated that self-reported interracial experience was significantly related ...<|control11|><|separator|>
[67]
The role of race in misidentification - Innocence Project
Aug 11, 2008 · More than one-third of these wrongful convictions were caused by a cross-racial identification. Jennifer Thompson-Cannino (above) knows ...
[68]
Ronald Cotton - Innocence Project
In July 1984, an assailant broke into Jennifer Thompson-Cannino's apartment and sexually assaulted her. ... Race of Exoneree: African American. Race of ...Missing: cross- | Show results with:cross-
[69]
"Cross-Racial Misidentification" by Taki V, Flevaris and Ellie F ...
Experimental research suggests that an eyewitness trying to identify a stranger is over 50% more likely to make a misidentification when the stranger and ...
[70]
7.2 The Cross-Race Effect – Hidden Voices in Gen Psych
In racially segregated societies, the other-race effect can continue into adulthood and lead to the cross-race effect, a memory error in which outgroup ...
[71]
It 'makes you feel invisible' - The Washington Post
May 2, 2019 · White people also can be subjected to the cross-race effect in workplaces where they are in the minority. That happened to Bill Watkins, a ...
[72]
Avoiding “The Other Race Effect!” - Unisys
Jan 2, 2020 · This is actually a form of unconscious bias and has many names including “the other race effect”, “cross-race effect, “cross-race bias ...
[73]
[PDF] Racial Bias in the Manager-Employee Relationship: An Analysis of ...
Mar 9, 2009 · Using the same data employed in the present study, Giuliano, Leonard and Levine (2008) find evidence of own-race bias in hiring for whites and ...
[74]
Racial Bias in the Manager-Employee Relationship
Jan 1, 2011 · The evidence of own-race bias is particularly strong for blacks; the relative dismissal rate of blacks is 19 percent lower under black managers ...
[75]
[PDF] Race and Economic Opportunity in the United States
Abstract. We study the sources of racial disparities in income using anonymized longitudinal data covering nearly the entire U.S. population from 1989-2015.Missing: "peer | Show results with:"peer
[76]
[PDF] Racial Inequality in Labor Market Experiences in the United States
Sep 5, 2024 · own-race bias.59 Using data from a large retail chain, they find that Asian, Hispanic, and Black employees are less likely to be dismissed ...
[77]
The impact of social motivation on the other-race effect under high ...
Nov 27, 2022 · This study explored the effect of motivation on the other-race effect by manipulating the social status of faces.
[78]
[PDF] Cross-Racial Indentification Errors in Criminal Cases
The cross-racial identification problem is both more compelling and more readily ame- liorated than other types of misidentification. Thus, the courts should ...
[79]
Cross-Racial Identification Jury Charge Must be Granted when ...
Expert testimony can help jurors clarify beliefs they might already have on the cross-race effect by explaining the studies on a technical and scientific level, ...<|control11|><|separator|>
[80]
[PDF] 7.17. Expert Testimony on Reliability of Identifications
In coming to that conclusion, the Boone Court explained that “[t]he cross- race effect is 'generally accepted' by experts in the fields of cognitive and social.
[81]
[PDF] Juror Sensitivity to the Cross-Race Effect - UNL Digital Commons
In the majority of cases, it is obviously desirable for jurors not to be influenced by an eyewitness's race—unless it has implications for that witness's ...
[82]
More Than Meets the Eye in Cross-Racial IDs - New Jersey State ...
May 7, 2021 · “In studying this issue, we have learned that people tend to be less accurate when making cross-race identifications,” Alexis Agathocleous, a ...
[83]
Social contact, own‐group recognition bias and visual attention to ...
Oct 27, 2022 · We tested the proposition that social interaction would improve the face recognition performance of another group by modulating visual strategies for different ...<|separator|>
[84]
Positive intergroup contact modulates fusiform gyrus activity to black ...
Feb 14, 2020 · Early behavioural studies found that people are better at recognising faces of own- compared to other-race targets (the own-race bias). Levin ...
[85]
The Role of Experience and Contact in the Recognition of Faces Of ...
The significance of own-race bias in the criminal justice system and intergroup contact situations is reviewed, and cognitive and motivational correlates of own ...
[86]
Race-specific perceptual discrimination improvement following short ...
A re-examination of the cross race effect: The role of race, inversion and basketball trivia. ... Reversibility of the other-race effect in face recognition ...
[87]
Training with own-race faces can improve processing of other-race ...
Faces of one's own race are discriminated and recognized more accurately than faces of an other race (other-race effect – ORE).
[88]
Perceptual Individuation Training (but not Mere Exposure) Reduces ...
To fill this significant gap in the literature, we investigated the effects of a novel intervention ... Two faces of the other-race effect: Recognition and ...
[89]
https://doi.org/10.1111/desc.12241
[90]
REDUCING AND MEASURING THE CROSS-RACE EFFECT
This project included two studies. The first aimed to reduce the CRE using targeted interventions and to evaluate how individual differences, confidence, and ...Missing: methodology | Show results with:methodology
[91]
The Cross-Race Effect: Resistant to Instructions - ResearchGate
Aug 8, 2025 · The cross-race effect (CRE) is the tendency for eyewitnesses to be better at recognizing members of their own race/ethnicity than members of ...Missing: methodologies | Show results with:methodologies
[92]
The culture of perceptual expertise and the other‐race effect - Lall
Apr 8, 2023 · The culture of perceptual expertise and the other-race effect ... Neural timing of the other-race effect across the lifespan: A review.Missing: hypothesis | Show results with:hypothesis
[93]
[PDF] A Meta-Analytic Test of Intergroup Contact Theory
The present article presents a meta-analytic test of intergroup contact theory. With 713 independent samples from 515 studies, the meta-analysis finds that ...
[94]
How Can Intergroup Interaction Be Bad If Intergroup Contact Is Good ...
Intergroup interaction is typically found to have negative effects tied to intergroup bias, producing heightened stress, intergroup anxiety, or outgroup ...
[95]
What if Diversity Training Is Doing More Harm Than Good?
Jan 17, 2023 · Kalev warn that diversity training that is mandatory or that threatens dominant groups' sense of belonging or makes them feel blamed may elicit ...