# The effects of contextual diversity on lexical processing: A scoping review

**Authors:** Rebecca Norman, J. S. H. Taylor, Jennifer M. Rodd

PMC · DOI: 10.3758/s13423-025-02761-y · 2025-10-08

## TL;DR

This review explores how the diversity of contexts in which words appear affects how people process and learn words, finding that high contextual diversity often helps word processing.

## Contribution

The paper introduces a standardized classification of diversity metrics and identifies gaps in current theories of lexical processing.

## Key findings

- High-diversity words show consistent advantages in word-form processing, possibly due to their future relevance.
- Diversity effects on word-meaning processing are mixed, influenced by task demands and context variability.
- Diversity metrics that capture context distinctiveness better predict behavior than simple counts.

## Abstract

Research into the effects of contextual diversity on lexical processing has flourished in the past 20 years, encompassing different tasks, populations, and languages, and informing influential theories of word learning. This review provides a comprehensive synthesis of the field. Eighty-six articles (145 experiments) composed of three distinct study types (behavioural [N = 111], computational modelling [N = 20], and corpus validations [N = 14]) met preregistered inclusion criteria. Across experiments, the terminology used for different diversity metrics has been inconsistently applied. We classify all metrics into four categories (count-based, computational, composite, unspecified) to standardise comparisons. Four key findings emerge from this review: Experiments that assessed the impact of diversity on word-form processing (N = 85) show a consistent high-diversity advantage, possibly because high-diversity words are more likely to be ‘needed’ in the future. Effects of diversity on word-meaning processing (N = 13) were more mixed, showing both low- and high-diversity benefits. We attribute these inconsistencies to varying task demands. Specifically, we conclude that selecting highly precise semantic information can be challenging for words that occur in variable contexts. Computational modelling studies indicate that diversity metrics that quantify the distinctiveness of contexts in which words occur better predict behaviour than simple context counts. Corpus validations show that diversity effects are consistent across languages. This review confirms that diversity in linguistic experience is a key organizational principle of the lexicon but indicates that current theories lack specificity when describing the underlying mechanisms. We make specific recommendations for future research within a structured research cycle.

## Full-text entities

- **Genes:** H1-3 (H1.3 linker histone, cluster member) [NCBI Gene 3007] {aka H1.3, H1D, H1F3, H1s-2, HIST1H1D}
- **Diseases:** neurological impairments (MESH:D009422), semantic dementia (MESH:D057180), aphasia (MESH:D001037), CHILDES (MESH:C562515)
- **Chemicals:** da (MESH:C025953)
- **Species:** Homo sapiens (human, species) [taxon 9606], Mus musculus (house mouse, species) [taxon 10090]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12627139/full.md

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Source: https://tomesphere.com/paper/PMC12627139