Fact-checked by Grok 2 weeks ago

Numeracy

Numeracy is the ability to understand, reason with, and apply numerical concepts and basic mathematical operations in practical contexts, enabling individuals to interpret data, assess risks, and make informed decisions. This proficiency extends beyond arithmetic to include quantitative reasoning, such as evaluating probabilities, percentages, and graphical representations, which are essential for navigating everyday quantitative demands like managing finances or understanding health statistics. Empirical studies demonstrate that numeracy levels predict performance in decision-making tasks, with higher numeracy linked to more accurate risk perceptions and better adherence to medical regimens. Conversely, innumeracy—characterized by discomfort or incompetence with numbers—correlates with distorted judgments, including overestimation of rare events and underestimation of prevalent risks, contributing to suboptimal choices in areas like insurance and voting. In societal terms, widespread innumeracy exacerbates vulnerabilities to misleading statistical claims in public discourse, impairs economic productivity, and hinders effective policy evaluation, as evidenced by longitudinal data showing its negative impact on wealth accumulation and civic engagement. Efforts to bolster numeracy through education have shown causal benefits for cognitive development and long-term outcomes, underscoring its foundational role in fostering autonomous, evidence-based reasoning amid data-intensive environments.

Definition and Conceptual Foundations

Historical Origins of the Term

The term "numeracy" was coined in 1959 by the Central Advisory Council for Education () in its report 15 to 18, commonly known as the Crowther Report, chaired by Sir Geoffrey Crowther. This British governmental inquiry examined for students aged 15 to 18, emphasizing the need for practical skills in a post-World War II economy increasingly reliant on technology and quantitative reasoning. The report introduced "numeracy" to denote a basic competence in analogous to in , marking the first documented use of the word in English. In paragraph 398 of the report, numeracy was explicitly defined as "the mirror image of ," contrasting superficial computational skills with a deeper to interpret numerical in everyday contexts. The committee argued that numeracy encompassed not merely proficiency but an intuitive grasp of quantitative relationships, enabling individuals to critically engage with in , , and —skills deemed essential amid rising technological demands. This conceptualization distinguished numeracy from advanced abstract , positioning it as a foundational civic rather than elite scholarly pursuit. Etymologically, "numeracy" derives from the Latin numerus ("number"), suffixed with -acy to parallel "," with the adjective "numerate" coined concurrently. The report's innovation reflected broader mid-20th-century educational reforms prioritizing functional knowledge over , though the term gained limited traction until the 1960s and 1970s when and international assessments amplified its relevance. Prior to 1959, analogous concepts existed under terms like "arithmetical competence" or "quantitative literacy," but lacked a unified designation equivalent to 's cultural status.

Core Definitions and Scope

Numeracy is the ability to use effectively in , encompassing the understanding and application of numerical concepts to interpret , solve practical problems, and make reasoned decisions in contexts such as work, , and . This definition emphasizes functional competence rather than theoretical mastery, distinguishing it as a foundational for navigating quantitative aspects of modern , where individuals must process information like budgets, probabilities, and measurements. Scholarly sources consistently frame numeracy as involving basic operations, , and statistical interpretation, applied sequentially or independently to real-world scenarios. The scope of numeracy extends beyond rote computation to include probabilistic reasoning, estimation, and the critical evaluation of numerical claims, often integrated with verbal or graphical information. For instance, it involves tasks such as comparing costs, interpreting charts, or adapting recipes based on proportions, which rely on internalized knowledge of operations like (e.g., 7 × 8 = 56) and division. In educational research, numeracy is viewed as complementary to , requiring the embedding of mathematical skills within contextual purposes—such as community or occupational demands—rather than isolated exercises. This broader application highlights its role in fostering confidence for independent functioning, with deficiencies linked to vulnerabilities in across domains like data interpretation. Core elements within numeracy's scope include numbers and operations, measurement, geometry basics, data handling, and algebraic thinking at an intuitive level, all oriented toward practical utility rather than advanced abstraction. Research underscores that effective numeracy demands not only procedural fluency but also conceptual understanding to avoid errors in real contexts, such as misjudging risks from percentages or scaling quantities. While universal in its foundational requirements, the scope adapts to societal needs, with 21st-century demands elevating the necessity for statistical numeracy amid increasing data proliferation.

Distinction from Formal Mathematics

Numeracy emphasizes the practical application of basic mathematical skills to interpret, reason with, and communicate numerical information in real-world contexts, whereas formal involves the abstract, rigorous study of mathematical structures through proofs, axioms, and theoretical generalizations. This distinction highlights numeracy's focus on functional competence—such as estimating quantities, understanding proportions in budgeting, or evaluating data in reports—without requiring deep theoretical knowledge. In contrast, formal mathematics prioritizes logical deduction and the exploration of concepts like limits, vector spaces, or , often detached from immediate practical demands. The OECD's Programme for the International Assessment of Adult Competencies (PIAAC) defines numeracy as the ability to access, use, interpret, and critically reason with mathematical content across diverse situations, including those involving shapes, measurements, and statistics, to participate effectively in society. Formal , however, is assessed through standardized exercises emphasizing procedural fluency and conceptual proofs, such as deriving equations or validating hypotheses, which may not translate directly to contextual problem-solving. Empirical studies reveal a measurable gap: children and adults often demonstrate proficiency in formal school but struggle with informal, numeracy-related tasks like intuitive or proportional judgment in everyday scenarios. This separation underscores that numeracy serves as a foundational enabling broader societal engagement, relying on subsets of applied purposively, while formal advances disciplinary expertise and , such as in scientific modeling or . Proficiency in one does not guarantee the other; for instance, advanced formal mathematicians may underperform in rapid, context-bound numeracy tasks without deliberate in application. Educational frameworks thus advocate integrating numeracy alongside formal to bridge this divide, ensuring mathematical learning yields tangible real-life utility.

Biological and Evolutionary Underpinnings

Innate Number Sense in Humans and Animals

Humans possess an innate capacity for approximate numerical estimation, known as the (ANS), which operates independently of language or formal training and adheres to Weber's law, whereby discrimination accuracy depends on the ratio between quantities rather than their . This system supports rough judgments of set sizes, with finer ratios discriminable for smaller magnitudes (e.g., 1:2 for large sets) than larger ones. Evidence from habituation-dishabituation paradigms demonstrates its functionality in preverbal infants, where looking times increase toward novel numerical displays. Newborn infants exhibit numerical discrimination for ratios of 1:3 or greater, matching auditory sequences to visual arrays of abstract dots while controlling for non-numerical cues like and . By six months of age, infants reliably distinguish 8 from 16 elements (1:2 ratio) but not 8 from 12 (1:1.5 ratio), confirming ratio-dependent akin to adult ANS performance. Individual differences in infant ANS acuity, measured via looking-time preferences, longitudinally predict nonsymbolic ratio processing and symbolic math skills up to age 6, independent of IQ or processing speed. For very small sets (1–4 items), infants additionally employ an object-tracking system enabling exact , distinct from but complementary to ANS approximations. Non-human animals display homologous ANS-like abilities, discriminating numerosities under ratio constraints in tasks involving , predator avoidance, and social grouping. Day-old domestic chicks, for example, spontaneously prefer larger groups of conspecifics or food items and perform by tracking displaced objects' numerical changes, succeeding at 1:2 s but failing finer distinctions. Rhesus monkeys approximate and by mentally combining or partitioning sets, selecting outcomes matching expected magnitudes with error patterns mirroring human ANS imprecision. Fish species, including mosquitofish and guppies, join larger shoals for anti-predator benefits, discriminating 1:2 ratios even when surface area or density covaries, with ecological relevance in mate choice and resource allocation. Primates like lemurs and tamarins exhibit flexible numerical estimation in wild contexts, such as predicting group sizes during territorial disputes. These competencies extend to invertebrates; honeybees trained on symbolic delays add small quantities (1+1=2) across modalities, suggesting convergent evolution of basic numerical heuristics under shared ecological pressures like resource tracking. The phylogenetic distribution—from insects and fish to birds and mammals—implies an ancient or repeatedly evolved foundation for quantity representation, conserved via for survival advantages in detecting imbalances (e.g., more prey than predators). Unlike human symbolic arithmetic, animal and infant systems lack precision for exact counts beyond 4 and do not support ordered sequences, underscoring ANS as a foundational, non-propositional rather than full numeracy. Neuroimaging in humans localizes ANS to parietal regions like the , with analogous activations inferred in animals via lesion and behavioral homology.

Genetic Heritability and Individual Differences

Twin studies consistently estimate the of mathematical ability at 40-70%, indicating that genetic factors account for a substantial portion of variance in performance beyond shared environmental influences. A of over 5,000 monozygotic and dizygotic twin pairs reported of 57% for achievement, with genetic influences explaining differences more than non-shared environments. For numeracy-related traits like , is modestly lower at around 32%, largely driven by non-shared environmental factors alongside . These estimates derive from comparisons of identical twins, who share nearly 100% of their DNA, versus fraternal twins sharing about 50%, controlling for family environment. Genome-wide association studies (GWAS) have identified specific genetic variants associated with mathematical achievement, supporting the polygenic architecture of numeracy. Early GWAS pinpointed loci such as chromosome 3q29, linked to traits and learning difficulties, influencing math performance. More recent analyses uncovered 53 loci tied to quantitative reasoning beyond general , enabling polygenic scores that predict student math outcomes in independent samples. Candidate genes like DRD2, involved in , show associations with mathematical ability through single nucleotide polymorphisms and haplotypes. Overlap exists with reading ability, where approximately half of influencing genes are shared, yet math-specific genetic effects persist. Individual differences in numeracy arise primarily from this polygenic foundation, interacting with environmental modulators but not reducible to them. Polygenic scores for math, derived from GWAS, forecast achievement independent of IQ, capturing variance in traits like highest math class completed. High heritability reflects contributions from numerous small-effect variants across development pathways, rather than single "math genes," explaining why siblings differ despite similar upbringings. In children, numeracy exceeds that of general , suggesting domain-specific genetic influences amplify early disparities. These findings underscore causal genetic roles, as evidenced by consistent twin correlations and molecular validations, though environmental interventions can mitigate but not erase inherited baselines.

Sex Differences in Numeracy Performance

Males consistently outperform females on measures of mathematical ability, including numeracy tasks involving quantitative reasoning and problem-solving, with effect sizes ranging from small (d ≈ 0.05–0.15) in elementary grades to moderate (d ≈ 0.20–0.30) in advanced or high-stakes assessments. This pattern holds across meta-analyses synthesizing hundreds of studies, where the male advantage is most pronounced in tasks requiring spatial visualization, mechanical reasoning, or complex computation rather than rote . International large-scale assessments reinforce these findings. In the 2023 Trends in International Mathematics and Science Study (TIMSS), boys achieved higher average scores than girls in 40 of 41 participating countries at the fourth-grade level, with the gap averaging 10–15 points on a 0–1000 scale standardized to 500. Similarly, the 2022 (PISA) reported boys outperforming girls by 15 points on average in mathematical literacy across countries, with differences widening at the upper performance quantiles where fewer than 5% of females reached top proficiency levels compared to males. These disparities persist even after controlling for socioeconomic factors and instructional time, and counterintuitively, they enlarge in nations with higher and reduced cultural stereotypes favoring males, as evidenced by cross-national analyses of PISA and TIMSS data from 2000–2011. A key feature of these differences is greater variability among males, resulting in disproportionate male representation at both extremes of the numeracy distribution. Meta-analyses indicate male standard deviations in math scores exceed female ones by 10–20%, leading to 2–4 times more males scoring in the top 1–5% on tests like the SAT-M or . This variability aligns with biological markers, such as sex-linked differences in visuospatial processing and neural efficiency in parietal regions associated with numerical magnitude estimation, which correlate with higher male performance in and algebra-heavy numeracy subtasks. Longitudinal twin studies further attribute 40–60% of variance in mathematical ability to genetic factors, with partial sex moderation suggesting evolutionary pressures for male specialization in quantitative spatial skills. While some research attributes portions of the gap to non-biological factors like math anxiety or —effect sizes for which are small (d < 0.10) and inconsistent across replications—these do not fully account for persistent performance disparities observed from childhood onward. Interventions targeting or have narrowed gaps modestly in controlled settings (e.g., 10–20% reduction in experimental groups), but population-level data from standardized tests show no convergence over decades, underscoring the primacy of innate cognitive architectures over environmental modulation alone.

Developmental Factors

Early Childhood Acquisition

Infants exhibit an innate (ANS), enabling them to discriminate between small sets of objects or events based on numerosity ratios, such as distinguishing 4 from 8 items but not 4 from 5 or 6. This preverbal sensitivity emerges shortly after birth, with newborns spontaneously associating visual arrays of 4 to 18 objects with corresponding auditory sequences of sounds, indicating abstract numerical perception independent of object features like size or duration. paradigms reveal that 6-month-olds detect changes in quantity for ratios of 1:2 or greater, a capacity that correlates with later mathematical abilities in , suggesting foundational continuity from biological to symbolic numeracy. Transitioning to toddlerhood (ages 1-3 years), children begin acquiring verbal and symbolic numeracy through rote of number words and basic one-to-one correspondence, often via interactions and play. By 18-24 months, many toddlers recite number sequences up to 10 while pointing to objects, though initially without grasping —the principle that the last count word denotes the total quantity. Accurate enumeration of small sets (1-3 items) via —rapid, parallel recognition without sequential —develops around this period, supported by longitudinal studies showing that early verbal skills at age 3 predict formal math performance by . Environmental exposures, such as toys or fingers during routines, facilitate this shift from approximate to precise representation, with direct numeracy activities in the home environment positively associated with emergent skills like quantity comparison. In (ages 3-5 years), numeracy acquisition accelerates toward understanding core concepts like ordinality (number order) and basic principles. Most children master the cardinality principle by age 4, reliably determining set sizes up to 5-10 through verbal , and begin informal / via manipulatives, such as combining or removing blocks. and spatial-numerical mapping, like aligning numbers left-to-right, emerge concurrently, with evidence from behavioral tasks indicating that 3- to 4-year-olds in varied socioeconomic contexts demonstrate these via play-based assessments, though individual variability persists due to exposure differences. Experimental interventions confirm that targeted verbal training enhances these milestones, underscoring the causal role of linguistic in bridging innate ANS to conventional numeracy.

Familial and Home Environment Influences

The home numeracy environment, including parent-child interactions involving numbers, shapes early mathematical skills through exposure to , patterns, and quantitative concepts. A aggregating 631 effect sizes from 64 studies across 68 independent samples revealed a small positive (r = .13, p < .001) between home math environment quality—such as the frequency and variety of math-related activities—and children's math , accounting for approximately 2% of variance in outcomes. This association holds across age groups but is stronger in and children compared to older students, suggesting heightened sensitivity during foundational stages. Home activities divide into formal (explicit instruction, e.g., worksheets or direct lessons) and informal (incidental exposure, e.g., board games or calculations) categories, with both contributing to skill development albeit through distinct pathways. Formal activities correlate more strongly with symbolic proficiency (r ≈ .24), while informal ones support non-symbolic and spatial reasoning (r ≈ .20). Longitudinal evidence indicates that frequent formal home numeracy practices predict later skills in elementary school children, independent of initial abilities. However, correlational designs predominate, limiting causal inferences; bidirectional effects—where advanced children elicit more parental engagement—may inflate associations. Socioeconomic status (SES) moderates these influences, with higher-SES families engaging in more number talk and math activities due to greater resources and parental levels. A meta-analysis of 12 studies found a positive (r ≈ .25) between SES indicators, such as parental and , and the frequency of parent number talk during interactions with young children (mean age 2–5 years). Children from low-SES homes receive fewer numeracy opportunities, exacerbating gaps; for instance, parental math anxiety or lower numeracy proficiency in families reduces activity quality. Parental expectations and emotional support amplify benefits (r = .335 for expectations), whereas over-involvement in can hinder (r = -.143). Family structure and dynamics further shape outcomes: both maternal and paternal numeracy engagement interact, with fathers' activities uniquely predicting spatial skills and mothers' linking to core numeracy. Interventions targeting home environments, like providing math games, yield modest gains, but sustained parental buy-in is essential for persistence beyond novelty. Overall, while genetic and innate factors set baselines, familial practices causally contribute via reinforcement of innate , though effects remain modest relative to schooling.

Role of Formal Education and Interventions

Formal education systematically builds numeracy skills by providing structured instruction in arithmetic operations, problem-solving, and abstract reasoning, extending beyond innate acquired in . Longitudinal studies indicate that each additional year of schooling raises mathematical abilities, with causal estimates from natural experiments showing gains equivalent to 0.2 to 0.3 standard deviations in test scores per year attended. formal competence, including subject-specific and , correlates positively with student , explaining up to 10-15% of variance after controlling for student and prior ability. Targeted interventions within formal settings, such as supplemental math programs for , demonstrate efficacy in randomized controlled trials. A of 25 interventions for through third grade yielded a summary of g ≈ 0.40 on outcomes, with stronger impacts from explicit instruction in number facts and procedures compared to exploratory methods. For students with learning disabilities, skill-based interventions produce large effects (g = 0.63), particularly when focusing on fluency in basic operations rather than conceptual acquisition alone. for educators, emphasizing evidence-based practices, further amplifies gains, as synthesized from 46 experimental studies showing moderate improvements in teacher implementation and student performance ( ≈ 0.25). However, intervention success varies by dosage and fidelity; short-term programs (under 20 hours) often yield negligible long-term retention, while sustained school-integrated approaches correlate with persistent numeracy improvements into . In low-resource contexts, game-based interventions like number bingo have shown preliminary gains in basic and among primary students, though rigorous scaling remains limited. Overall, formal education's impact is mediated by instructional quality, with meta-analytic evidence underscoring that domain-specific training outperforms general pedagogical reforms in fostering causal improvements in numeracy.

Assessment Methods

International Large-Scale Surveys

The Programme for International Student Assessment (PISA), administered by the Organisation for Economic Co-operation and Development (OECD) since 2000, assesses the mathematical literacy of 15-year-old students across approximately 80 countries and economies every three years, emphasizing the application of mathematical concepts to real-world problems rather than rote curriculum knowledge. Mathematical literacy in PISA is defined as the ability to identify, formulate, and solve problems using mathematical tools, interpret results, and reflect on their implications in contexts such as personal, occupational, and civic life. In the 2022 cycle, which involved over 690,000 students, the OECD average score in mathematics declined to 472 points from 489 in 2018, reflecting a post-pandemic drop of 17 points attributable to disruptions in education; top performers included Singapore (575 points), Macau-China (552), Taiwan (547), Hong Kong-China (540), and Japan (536), while countries like the United States scored 465, below the OECD average. These results highlight persistent gaps, with gender differences minimal but socioeconomic status strongly correlating with performance, as students from advantaged backgrounds averaged 84 points higher than disadvantaged peers. The Trends in International Mathematics and Science Study (TIMSS), conducted by the International Association for the Evaluation of Educational Achievement (IEA) every four years since 1995, measures mathematics achievement in fourth- and eighth-grade students from over 60 countries, focusing on curriculum-based content knowledge in areas like number, algebra, geometry, and data analysis. Unlike PISA's emphasis on functional skills, TIMSS prioritizes depth of understanding aligned with taught material, providing trend data on proficiency levels from basic operations to advanced problem-solving. In the 2023 assessment, which included 44 countries at the eighth-grade level, scores ranged from 400 to 600 points on a scale where 500 represents the international average; Singapore led with 607 points, followed by Taiwan (583) and South Korea (569), while the U.S. eighth-graders averaged 523, above the center point but showing stagnation or slight declines in some domains post-2019. TIMSS data reveal East Asian systems consistently outperforming others due to factors like instructional time and teacher specialization, with eighth-grade gender gaps favoring boys by 10-15 points in many participants. The Programme for the International Assessment of Adult Competencies (PIAAC), also by the , evaluates numeracy skills among adults aged 16-65 in cycles since 2011-2012, defining numeracy as the ability to access, use, interpret, and communicate mathematical information and ideas in order to engage in and manage life situations. Covering over 40 countries in its first cycle and expanding in the second (with results emerging from 2022 onward), PIAAC uses performance levels from below Level 1 (basic tasks like ) to (complex modeling), with assessments delivered via computer or for inclusivity. Initial findings indicated that in OECD countries, only 10-15% of adults reached Level 4/5 proficiency, with averages around 260-270 points; U.S. adults scored 253 in numeracy, placing them below the OECD mean, and recent Cycle 2 data from select nations show further declines linked to and workforce changes. These surveys collectively enable cross-national comparisons of numeracy trajectories from childhood to adulthood, underscoring causal links between early education quality and lifelong quantitative competence, though methodological differences—such as PISA's contextual focus versus TIMSS's content emphasis—limit direct equivalency.

Clinical and Diagnostic Tools

Standardized psychometric tests form the core of clinical assessments for numeracy deficits, particularly , a specific learning characterized by significant impairments in acquiring and using numerical information despite adequate and instruction. These tools evaluate domains such as , arithmetic facts retrieval, calculation procedures, and problem-solving, often comparing performance to age-based norms and intellectual ability to establish discrepancies indicative of a . requires a multi-method approach, integrating test results with clinical history, behavioral observations, and exclusion of alternative causes like sensory impairments or inadequate . The Wechsler Individual Achievement Test-Fourth Edition (WIAT-4), normed on over 2,800 individuals across ages 4 to 50, includes subtests like Numerical Operations (assessing written skills) and Math (evaluating word problems and reasoning), which help pinpoint deficits in procedural and conceptual understanding. Similarly, the Woodcock-Johnson IV Tests of Achievement (WJ IV ACH), standardized on a nationally representative sample of 8,800 participants, features subtests such as (untimed operations), Math (rapid ), and Number Matrices (), enabling detailed profiling of numeracy strengths and weaknesses for diagnostic purposes. The Feifer Assessment of Mathematics (FAM), a comprehensive for ages 4 to 21 normed on 1,440 children, adopts a neurodevelopmental framework to assess five key domains—Number Sense, , , Math Reasoning, and Math Anxiety—identifying subtype patterns linked to underlying cognitive processes rather than solely surface-level errors. This tool, which includes 56 subtests and yields index scores for verbal and nonverbal numeracy, facilitates targeted intervention by distinguishing primary deficits from secondary effects like anxiety. Additional instruments, such as the KeyMath-3 Diagnostic Arithmetic Test, provide in-depth analysis of foundational skills like basic concepts and operations through 35 subtests, supporting eligibility determinations under frameworks like the (IDEA). Emerging computerized tools, like the Cognitive Assessment Battery for Dyscalculia Research (CAB-DC), offer rapid screening of cognitive factors such as quantity representation and symbolic mapping in under 30 minutes, though they require validation against traditional batteries for clinical reliability. Overall, these assessments emphasize empirical measurement over subjective judgment, with cutoffs typically set at 1.5 to 2 standard deviations below the mean for diagnosis, adjusted for comorbidity with conditions like ADHD.

Limitations and Validity Concerns

International large-scale assessments such as and TIMSS face challenges in sampling and measurement that can undermine their reliability, including errors from non-representative student selection and inconsistencies in test administration across countries. These issues are compounded by difficulties in establishing , as assessments often correlate with but do not isolate educational policy effects from broader socioeconomic or cultural variables. Country rankings derived from these surveys have been criticized for lacking validity in reflecting true national educational quality, as they may prioritize comparable coverage over diverse numeracy applications. Cultural and socioeconomic biases further limit the validity of numeracy assessments in these frameworks. Items involving real-world contexts, such as or everyday scenarios, disproportionately disadvantage low-socioeconomic (SES) students, who score lower due to unfamiliarity rather than mathematical incompetence, as evidenced in TIMSS data analyses. Broader standardized testing critiques highlight how cultural assumptions embedded in questions—often reflecting middle-class experiences—can skew results for minority or non- populations, inflating gaps without measuring core numeracy skills. SES factors, including and parental , explain substantial portions of performance variances, suggesting assessments capture environmental influences more than isolated cognitive abilities. Clinical and diagnostic tools for numeracy deficiencies, such as those screening for , exhibit variable reliability and validity, with many lacking robust for accurate individual . Existing models often fail to provide sufficient psychometric rigor, leading to unreliable decisions on interventions, as they underperform in differentiating core deficits from comorbid conditions like . Comprehensive requires integrating arithmetical testing with clinical history and observation, yet tools like needs analysis questionnaires show only moderate in language and terminology, potentially overlooking nuanced numerical processing impairments. Early screening instruments for numeracy risks perform better in predictive utility but still confound innate abilities with developmental factors, necessitating longitudinal validation to avoid over- or under-. Overall, these concerns highlight that numeracy assessments may prioritize formal mathematical proficiency over practical, adaptive skills, with validity threatened by unaccounted demographic biases and measurement artifacts. Peer-reviewed evaluations emphasize the need for context-specific adaptations and multifaceted approaches to enhance and equity in interpretation.

Societal and Practical Applications

Links to Employment and Economic

Higher numeracy proficiency correlates with elevated employment probabilities and wages in labor markets across developed economies. Data from the OECD's Programme for the International Assessment of Adult Competencies (PIAAC), which assesses adult skills in over 30 countries, indicate that individuals scoring at the highest numeracy levels are significantly more likely to be employed than those at the lowest levels, even after controlling for education and experience. For example, in the United States, workers with advanced numeracy skills face unemployment rates approximately 50% lower than those with basic skills. Resume audit experiments further support a causal relationship, demonstrating that signaled stronger math abilities lead to higher callback rates for job applications, independent of other qualifications. Wage returns to numeracy skills exhibit substantial premiums, often exceeding those for general credentials. PIAAC analyses across 23 show that a one-standard-deviation increase in numeracy scores—equivalent to advancing from basic to intermediate proficiency—is associated with an 18% higher hourly for prime-age workers (aged 25-54). Similar estimates from broader PIAAC samples report a 20% premium per standard deviation in numeracy, with effects persisting after adjusting for , problem-solving skills, and demographics. These returns are particularly pronounced in knowledge-intensive sectors like and , where quantitative tasks dominate, and they compound over careers, as longitudinal studies link early-grade numeracy to 10-15% higher adult earnings in contexts like . At the macroeconomic level, numeracy underpins economic by enabling workers to perform complex tasks, innovate, and adapt to technological demands. Cross-national ties , including numeracy, to GDP growth, with a one-standard-deviation improvement in average math proficiency predicting 1-2% annual increases in long-term . Firms report that low numeracy among employees—prevalent in up to 20% of workforces in nations—constrains output through errors in data handling and reduced efficiency in automation-era roles, exacerbating drags estimated at 1-3% of GDP in affected sectors. High school-level math gains, for instance, boost in both manual and cognitive occupations by facilitating precise and process optimization.

Implications for Health Decisions and Risk Assessment

Low numeracy impairs the accurate interpretation of probabilistic information in medical contexts, leading to distorted perceptions of risks and benefits. For instance, individuals with limited numerical skills frequently overlook base rates and exhibit denominator neglect, overemphasizing numerators in risk comparisons while ignoring sample sizes, which results in inflated estimates of efficacy. Empirical studies demonstrate that low-numeracy patients make larger errors when estimating probabilities from dosage instructions or data, increasing vulnerability to adverse outcomes. This deficiency extends to screening decisions, where low numeracy correlates with exaggerated perceptions of benefits from tests like , despite modest absolute risk reductions—often on the order of 1-2 percentage points amid higher false positives. Consequently, such misunderstandings contribute to reduced adherence rates, with non-compliant patients facing up to 50% higher risks of hospitalization or progression in conditions like or . Higher numeracy, by contrast, enables better comprehension of health risks, fostering more rational choices in surgical and preventive care, as evidenced by improved postoperative outcomes among numerate patients. In crises, numeracy influences acceptance; longitudinal data from COVID-19 cohorts show that objective numeracy, alongside accurate risk perceptions, predicts higher uptake rates, with low-numeracy individuals more prone to hesitancy due to misjudged versus risks. Overall, pervasive low numeracy—prevalent in approximately one-third of adults in developed nations—constrains and equitable access to evidence-based care, underscoring the need for tailored communication strategies like visual aids to mitigate these effects.

Broader Civic and Policy Ramifications

Low numeracy impairs citizens' capacity to critically assess quantitative elements in political discourse, such as statistics on economic indicators or outcomes, fostering reliance on anecdotal or emotionally driven evaluations over data-driven ones. Surveys reveal widespread misperceptions of politically relevant numbers, including rates (often overestimated at around 20% when actual figures hovered near 10% in 2010) and levels, which correlate with but do not causally alter support for related spending programs even when corrected. This persistence of innumeracy suggests that on fiscal or redistributive may resist factual updates, complicating efforts to build on evidence-based reforms. In electoral contexts, individuals with higher objective numeracy demonstrate greater resistance to framing of policy information, prioritizing numeric details over party cues; for example, experimental show numerate respondents adjusting views on issues like costs based on provided figures rather than ideological signals. Conversely, low numeracy heightens susceptibility to equivalency framing in policy debates, where the same presented as ratios versus absolute numbers sways attitudes toward interventions like restrictions or expansions. Such effects extend to civic duties, including deliberations, where poor numeracy undermines accurate probabilistic reasoning in evaluation and sentencing , as evidenced by studies linking it to biased assessments in legal decisions. Policy ramifications include heightened vulnerability to unsustainable fiscal trajectories, as innumerate publics undervalue long-term numerical trade-offs in budgets or accumulation; analyses attribute misinterpretations of to flawed support for short-term spending hikes without corresponding revenue projections. Governments in low-numeracy jurisdictions, per PIAAC benchmarks (e.g., U.S. average numeracy score of 253 in 2017, below mean of 263), face challenges in enacting reforms requiring public buy-in for quantitative justifications, such as adjustments or investments. This underscores the need for policies elevating adult numeracy, though corrections alone yield limited attitudinal shifts, implying structural educational mandates over mere informational campaigns.

Deficiencies and Interventions

Prevalence and Impacts of Innumeracy

Innumeracy, defined as proficiency below functional levels in mathematical skills necessary for everyday tasks such as interpreting data, managing finances, or understanding probabilities, affects a substantial portion of adult populations worldwide. According to the Programme for the International Assessment of Adult Competencies (PIAAC) Cycle 2 results released in 2024, covering data collected from 2017 to 2023 across countries, numeracy skills have declined or stagnated in most participating economies, with the proportion of adults scoring at the lowest proficiency levels (Level 1 or below, indicating inability to perform basic operations like simple addition or recognizing numbers) increasing in several nations. In the United States specifically, 34% of adults aged 16-65 scored at these lowest numeracy levels in 2023, up from 29% in 2017, reflecting a 7-point score decline over the . Internationally, similar trends appear in , where PIAAC data indicate widening skill gaps and higher shares of low performers, particularly among older adults and those with lower . These prevalence rates translate to profound individual and societal impacts, primarily through reduced economic productivity and personal decision-making capacity. Adults with low numeracy face elevated unemployment risks and lower wages; for instance, in the UK, individuals with poor numeracy skills earn approximately £1,600 less annually on average and experience unemployment rates up to 59% higher than their numerate peers. Even modest improvements to basic numeracy levels yield wage premiums across countries, as higher proficiency correlates with better job access and financial management, mitigating poverty cycles. On a macroeconomic scale, widespread innumeracy hampers workforce efficiency, with businesses reporting losses from errors in tasks like document processing and calculations, affecting up to 88% of Australian employers surveyed in 2025. Health outcomes are similarly compromised, as innumeracy impairs and adherence to medical advice. Studies link low numeracy to a 2.5-fold increased likelihood of illness or disclosure among adults, alongside higher hospitalization rates and poorer self-reported health. This stems from difficulties in interpreting dosage instructions, statistical , or probabilistic treatment risks, exacerbating vulnerabilities in aging populations where numeracy declines with age independently of . Broader civic ramifications include diminished engagement, as innumerate individuals struggle with quantitative arguments in or public discourse, perpetuating inequality; analyses confirm that higher numeracy proficiency underpins greater and adaptive problem-solving in dynamic economies.

Dyscalculia as a Specific Disorder

, classified in the as a specific learning disorder with impairment in , involves persistent difficulties in acquiring and using numerical and mathematical skills, including , memorization of arithmetic facts, accurate and fluent , and accurate mathematical reasoning, despite adequate instruction and opportunity for learning. These deficits must manifest during formal schooling years, persist for at least six months, and cause significant interference in academic or daily functioning, while not being better explained by intellectual disabilities, neurological conditions, sensory impairments, or inadequate education. requires evidence of deficits below age-expected performance on standardized tests, often showing scores at or below the 10th in mathematical domains. Core symptoms include challenges in recognizing and understanding numerical quantities, estimating magnitudes, sequencing numbers, performing basic arithmetic operations, and grasping spatial-numerical associations, such as left-to-right progression on a number line. Children with may count inefficiently by rote without grasping , confuse similar-looking numbers, or struggle with word problems involving quantities, even as verbal abilities remain intact. In adults, manifestations persist as difficulties managing finances, time estimation, or data interpretation, often leading to avoidance of numerical tasks. Prevalence estimates indicate affects approximately 5-7% of school-aged children, with similar rates persisting into adulthood, though underdiagnosis is common due to less awareness compared to . It shows high , with siblings of affected individuals facing a 5-10 times elevated , pointing to genetic underpinnings alongside environmental influences like prenatal factors. Neurobiologically, correlates with atypical development in regions critical for numerical processing, including reduced gray and volume in the and surrounding parietal areas, which underpin approximate quantity representation and symbolic number mapping. reveals hypoactivation in these networks during tasks, distinguishing dyscalculia from general low math achievement. Unlike broader innumeracy or math difficulties stemming from poor instruction, motivation deficits, or transient skill gaps—which often resolve with targeted practice—dyscalculia reflects a foundational impairment in innate number sense that resists conventional remediation and manifests independently of overall intelligence or effort. This specificity underscores its status as a neurodevelopmental disorder rather than a mere performance issue, with affected individuals exhibiting deficits in non-symbolic quantity processing (e.g., subitizing small sets) that precede formal education.

Evidence-Based Remediation Strategies

Evidence-based remediation strategies for numeracy deficiencies emphasize targeted, skill-specific interventions supported by randomized controlled trials and meta-analyses, prioritizing math content over general cognitive training. For young children, early numeracy programs focusing on counting, number recognition, and basic operations yield moderate effect sizes, with a 2023 meta-analysis of 25 preschool to third-grade interventions reporting a summary effect of g = 0.52 for mathematics achievement. These approaches often incorporate concrete manipulatives and structured repetition to build foundational number sense, outperforming broader cognitive exercises in longitudinal outcomes. In cases of developmental dyscalculia, individualized interventions addressing core deficits such as quantity representation and arithmetic fact retrieval demonstrate efficacy, with a review of trials indicating an average effect size of 0.52 across targeted mathematical domains. Digital-based programs, including adaptive software for practice in estimation and computation, have shown improvements in mathematical performance with a mean effect size of 0.55 in meta-analytic synthesis of studies on children with dyscalculia. Remediation protocols recommend error analysis to eliminate misconceptions, development of visual models for abstract concepts, and repeated application of accurate strategies, as validated in neuroscience-informed approaches stimulating multiple brain systems underlying numerical cognition. For adults with low numeracy, interactive and participatory programs tailored to real-world applications, such as modules integrated with basic , foster skill gains through contextualized practice, as evidenced in a 2024 scoping review of empirical studies highlighting the role of learner-centered methods over rote instruction. Recent evaluations affirm that adult numeracy courses emphasizing active engagement and diverse improve quantitative literacy, with qualitative data from program scans underscoring the value of technology-supported personalization for sustained retention. Across age groups, retrieval practice and immediate mechanisms consistently enhance retention, though long-term to untaught problems requires ongoing , per findings from computational remediation trials.

Theoretical Frameworks and Future Research

Cognitive and Neuroscientific Models

Cognitive models of numeracy emphasize the mental representations and processes underlying number processing and arithmetic. A foundational framework is the triple-code model, which posits three distinct codes for numerical information: a verbal code for spoken number words linked to linguistic areas, a visual Arabic code for written digits processed in visual word form areas, and an analog magnitude code for approximate quantity representations that supports intuitive sense of numeracy. This model integrates symbolic and non-symbolic processing, explaining how exact calculations rely on verbal and visual codes while approximate judgments depend on magnitude comparisons. Empirical support comes from functional MRI studies showing dissociable activation patterns for these codes during tasks like mental arithmetic. Neuroscientific evidence highlights the () as a core region for numeracy, particularly in encoding numerical magnitude and supporting non-symbolic quantity discrimination. The , especially its horizontal segment, activates during tasks involving approximate and number comparison, with structural variations in sulcation correlating to symbolic number skills but not non-symbolic ones. studies and meta-analyses confirm IPS involvement in basic quantity representation, independent of format (e.g., dots vs. numerals), suggesting an innate that scaffolds learned mathematical abilities. The left complements this by handling verbal components, such as rote memorization of math facts. Recent advances integrate computational modeling with to refine these models. For instance, simulations demonstrate how in the influences cognitive biases in number estimation, bridging low-level sensory inputs to higher-order decisions. Transcriptomic and molecular analyses of high math ability reveal enriched expression of genes related to in parietal regions, including IPS, underscoring genetic-neural interplay in numeracy variance. Personalized deep neural networks trained on fMRI data from math tasks further elucidate individual differences, showing that IPS connectivity predicts problem-solving efficiency beyond general . These findings challenge purely modular views, favoring distributed networks where numeracy emerges from dynamic interactions between and .

Emerging Trends from Recent Studies (2020-2025)

Studies from 2020 to 2025 document substantial declines in numeracy skills among school-aged children, primarily attributed to disruptions from school closures and remote learning. The (PISA) 2022 reported a global average drop of 15 points in scores compared to 2018, marking the largest decline in the program's history, with effects persisting into foundational numeracy abilities like and basic operations. In the United States, PISA math scores fell by 13 points from pre-pandemic levels, correlating with widened achievement gaps for low-income and minority students. Similarly, the (NAEP) long-term trend data indicated a 7-point decline in scores for 9-year-olds from 2020 to 2022, equivalent to about three-quarters of a year's typical . A of 30 studies estimated an average learning loss of 0.21 standard deviations in achievement due to pandemic-related interruptions. Recovery efforts have emphasized early numeracy interventions, with longitudinal underscoring their predictive value for long-term mathematical development. A 2025 meta-analysis of 54 studies involving over 58,000 students from through 12th grade found that early numeracy skills, such as counting and , strongly predict later performance, with effect sizes indicating sustained benefits from targeted and programs. Momentum has built for scalable early math initiatives, including teacher training in domain-specific interactions, as evidenced by a 2025 study showing improved toddlers' numeracy and mathematical language after a 9-week in settings. Integration of technology, particularly (AI), emerges as a trend in numeracy enhancement, though empirical outcomes remain mixed. Bibliometric analyses of applications in from 2020 to 2025 highlight increased research on tools and personalized feedback systems, with potential to address individual skill gaps in numeracy tasks like data interpretation and probabilistic reasoning. However, post-pandemic evaluations reveal challenges, including heightened math anxiety from online formats, as reported in a 2022 study linking distance learning to reduced engagement in numeracy exercises. Adult numeracy trends indicate stagnation or slight declines amid broader skill erosion. OECD's 2025 Survey of Adult Skills reported persistent deficiencies, with only 70% of U.S. adults demonstrating sufficient numeracy for everyday calculations involving and percentages, down from prior cycles when adjusted for demographic shifts. A 2025 analysis attributed this to limited uptake of remedial programs, advocating for integrated literacy-numeracy training in to counter economic productivity losses. These findings align with causal links between low numeracy and poorer health risk assessments during , where deficient quantitative understanding hindered compliance with numerical guidelines.

References

  1. [1]
    How Numeracy Influences Risk Comprehension and Medical ...
    Broadly defined, as we have noted, numeracy is the ability to understand and use numbers. Within this broad definition, however, numeracy is a complex concept, ...
  2. [2]
    [PDF] The Components of Numeracy - ERIC
    There are various definitions of the term “numeracy” (see, for example: Coben, 2000; Cockcroft, 1982; Crowther, 1959; Gal, van Groenestijn, Manly, Schmitt, & ...
  3. [3]
    Innumeracy in the Wild - Ellen Peters - Oxford University Press
    Free delivery 25-day returnsNumeric ability equips individuals with vital tools that allow them to take charge of various aspects of their life. The more numerate enjoy superior health, ...<|control11|><|separator|>
  4. [4]
    Revisiting the Links Between Numeracy and Decision Making
    Jun 15, 2023 · Research by Peters (2012) demonstrated that numeracy is a predictor of behavior in judgment and decision-making tasks.
  5. [5]
    Challenges for numeracy awareness in the 21st century - Frontiers
    Numerous empirical investigations on numeracy consistently affirm its pivotal role in enabling individuals to engage autonomously across diverse contexts ...
  6. [6]
    Crowther Report (1959) Volume I - Education in the UK
    Jun 4, 2010 · Crowther Report '15 to 18' (1959) Volume I. ... mirror image of literacy. What is achieved is far nearer a ...
  7. [7]
    NUMERACY Definition & Meaning - Merriam-Webster
    Oct 18, 2025 · The meaning of NUMERACY is ability to understand and work with numbers : the quality or state of being numerate. How to use numeracy in a ...
  8. [8]
    [PDF] Numeracy - ERIC
    According to the OED, the word numeracy first appeared in the Crowther Report, written to address the mathematics education of British boys and girls ...
  9. [9]
    What is Numeracy? – Numeracy - UEN Digital Press with Pressbooks
    The term numeracy was first used in 1959 in the UK Crowther Report( p. 268), where it was characterised as “the mirror image of literacy”. Since then, numeracy ...
  10. [10]
    View of STATISTICAL LITERACY: A COMPLEX HIERARCHICAL ...
    The term numeracy was introduced in the Crowther Report in the United Kingdom in 1959:A word to represent the mirror image of literacy... On the one hand an ...
  11. [11]
    https://www.centreforliteracy.qc.ca/sites/default/files/Numeracy_thoughts_SI-02.pdf
  12. [12]
    Numeracy - Etymology, Origin & Meaning
    From Latin numerus "a number," ability means knowledge or skill with numbers, reflecting its origin and core meaning related to numerical understanding.
  13. [13]
    [PDF] Numeracy - Digital Commons @ USF - University of South Florida
    The formative phase began when the term numeracy was first used in the 1959 “Crowther Report” on the ... This report described numeracy as “the mirror image of ...
  14. [14]
    Numeracy - an overview | ScienceDirect Topics
    Numeracy is defined as mathematical literacy essential for interpreting numerical data, understanding statistics, and recognizing the appropriate uses of ...Missing: reliable | Show results with:reliable
  15. [15]
    What is numeracy | Basic Numeracy Skills for Adults
    Numeracy is having the confidence to use basic maths at work and in everyday life. So, numeracy means two things: having basic maths skills AND feeling ...National Numeracy Challenge · The UK Numeracy Index · Improve your maths<|separator|>
  16. [16]
    Overview of Numeracy - Health Literacy and Numeracy - NCBI - NIH
    It began with a presentation defining the concept of numeracy by Lynda Ginsburg, an educational researcher at Rutgers University. This was followed by the ...
  17. [17]
    (PDF) The Essentials of Numeracy - ResearchGate
    numeracy involves using some mathematics to achieve some purpose in a particular context. ... Numeracy is both distinct from literacy and complementary to it.Missing: sources | Show results with:sources
  18. [18]
    Numeracy, logical reasoning and real-world decision making
    For instance, Peters et al. (Citation2006, p. 407) defined “numeracy” as “the ability to process basic probability and numerical concepts”. In ...Missing: sources | Show results with:sources
  19. [19]
    The changing nature of basic skills in numeracy - Frontiers
    It encompasses basic concepts like number names, internalized, ready to use, small operations (e.g., 7 × 8 = 56, 4 × 25 = 100, 14 + 8 = 22, 12: 3 = 4 and 2 × 14 ...
  20. [20]
    [PDF] Numeracy
    We rely on our numeracy skills to compare costs, get to a destination, judge distances, fit objects into a limited space, interpret a chart or adapt a recipe.
  21. [21]
    The Components of Numeracy | Adult Education and Literacy - LINCS
    Basically numeracy means math in real context with real purposes or uses, woven into the context of work, community, and personal life. Their analysis ...Missing: sources | Show results with:sources
  22. [22]
    Numeracy | Health Literacy - CDC
    Jan 31, 2025 · Numeracy describes a person's ability to understand clinical and public health data. We use numeracy to make decisions about screening and treatment options.
  23. [23]
    Numeracy, adult education, and vulnerable adults: a critical view of ...
    Apr 6, 2020 · This survey paper examines selected issues related to the intersection of three broad scholarly areas: numeracy, adult education, and vulnerability.About Numeracy Of Adults And... · Numeracy As A (social)... · Numeracy Within Adult...
  24. [24]
    [PDF] Critical Connections Between Numeracy and Mathematics
    The meaning of numeracy used here encompasses the need for individuals to be able to understand, use and apply mathematical (and statistical) skills and ...Missing: sources | Show results with:sources
  25. [25]
    [PDF] Critical Connections Between Numeracy and Mathematics | Education
    Increasingly research is showing that life and work in the 21st century is requiring higher levels of mathematics and numeracy of its citizens.
  26. [26]
    [PDF] PIAAC Numeracy: A Conceptual Framework - OECD
    Nov 24, 2009 · PIAAC numeracy is a conceptual framework for assessing adult numeracy, building on ALL, defining 'numerate behavior' with four facets.
  27. [27]
    Formal vs. informal mathematics: Assessing numeracy with school ...
    We provide evidence of a considerable skill gap between formal mathematics and informal mathematics in a large sample of school-aged children in North-West ...
  28. [28]
    Adult numeracy skills - OECD
    The 2023 Survey of Adult Skills (PIAAC Cycle 2) defines numeracy as accessing, using, and reasoning critically with mathematical content, information and ideas ...
  29. [29]
    Links Between the Intuitive Sense of Number and Formal ...
    Jan 18, 2013 · More confidence in numerical meanings might in turn lead to deeper engagement in formal mathematics. This idea predicts that individual ...
  30. [30]
    The Approximate Number System and its Relation to Early Math ...
    Humans rely on two main systems of quantification - one is non-symbolic and involves approximate number representations (known as the approximate number ...
  31. [31]
    Large number discrimination in 6-month-old infants - ScienceDirect
    Experiment 2 investigated whether 6-month-old infants discriminate between large numerosities when the discrimination ratio is reduced to 1:3: a ...
  32. [32]
    Large number discrimination in 6-month-old infants - PubMed
    Large number discrimination in 6-month-old infants. Cognition. 2000 Jan 10;74(1):B1-B11. doi: 10.1016/s0010-0277(99)00066-9. Authors. F Xu , E S Spelke ...
  33. [33]
    Newborn infants perceive abstract numbers - PNAS
    Although the participants in the present study discriminated numbers robustly only when they differed by a ratio of 3:1, infants show reliable discrimination at ...
  34. [34]
    [PDF] Large number discrimination in 6-month-old infants
    Large number discrimination in 6-month-old infants. Fei Xua,*, Elizabeth S. Spelkeb a125 NI, Department of Psychology, Northeastern University, Boston, MA ...
  35. [35]
    Number sense in infancy predicts mathematical abilities in childhood
    This longitudinal study provides evidence that preverbal number sense in infancy is predictive of both nonsymbolic number sense and symbolic mathematical ...
  36. [36]
    Infants Show Ratio-dependent Number Discrimination Regardless ...
    Jan 7, 2013 · Infants' successful discrimination of 2 versus 4 supports the conclusion that infants recruit ANS representations throughout the range of small ...
  37. [37]
    Understanding the origin of number sense: a review of fish studies
    Jan 1, 2018 · Here, we review the current state of the art in this field. In the first part, we highlight some potential ecological functions of numerical abilities in fish.
  38. [38]
    Towards numerical cognition's origin: insights from day-old domestic ...
    Jan 1, 2018 · In this paper, I report the ongoing work to investigate numerical cognition in the day-old domestic chick (Gallus gallus). Unlike previous ...
  39. [39]
    Does the approximate number system serve as a foundation for ...
    A powerful aspect of the ANS is that despite its imprecision, it supports arithmetic calculations. For example, rhesus monkeys are capable of performing ...
  40. [40]
    [PDF] True Numerical Cognition in the Wild - colala
    Taken together, the results provide strong evidence that numeri- cal reasoning has a natural function in wild primates, and provide new insights into the ...
  41. [41]
    The Evolutionary History of Brains for Numbers - ScienceDirect.com
    Number representations seem to have evolved by convergent evolution as a result of common selection pressures in different vertebrate taxa.
  42. [42]
    Animals do count: Research sheds light on the evolution of ...
    Jun 13, 2022 · “One option is that a 'sense of number' is evolutionarily conserved, originally appearing in a common ancestor which had evolved it from ...
  43. [43]
    Meta-analysis of twin studies highlights the importance of genetic ...
    The meta-analysis estimated heritability, based on up to 5330 MZ and 7084 DZ twin pairs, at 73% for reading, 49% for reading comprehension, 57% for mathematics ...
  44. [44]
    Neuroanatomical, transcriptomic, and molecular correlates of math ...
    May 31, 2024 · ... mathematical abilities. Our findings are consistent with 60 to 70% heritability of mathematical abilities reported in twin studies (25, 26).
  45. [45]
    Why do we differ in number sense? Evidence from a genetically ...
    Univariate genetic analysis of the twin data revealed that number sense is modestly heritable (32%), with individual differences being largely explained by non- ...
  46. [46]
    Mathematical Ability of 10-Year-Old Boys and Girls: Genetic and ...
    The present study provides the first analysis of these issues using a sample of twins large enough to investigate the origins of low mathematics performance ( ...Results · Genetic Analysis · Extremes Analyses
  47. [47]
    A genome wide association study of mathematical ability reveals an ...
    (2014). A genome wide association study of mathematical ability reveals an association at chromosome 3q29, a locus associated with autism and learning ...
  48. [48]
    Scientists uncover 53 genetic clues that shape math ability beyond IQ
    Sep 22, 2025 · Researchers uncovered 53 genetic loci linked to quantitative ability, distinguishing it from general intelligence and non-cognitive skills.
  49. [49]
    A genetic common factor underlying self-reported math ability and ...
    Sep 20, 2025 · Twin studies suggest that at least some of the genetic influences on tests of quantitative reasoning or mathematical achievement are not ...Results · Genomic Factor Analysis · Multivariate Gwas Of The...
  50. [50]
    Exploring the influence of the DRD2 gene on mathematical ability
    Oct 18, 2024 · This study focused on the effect of DRD2, a candidate gene for working memory, on mathematical ability.Results · Single Snp Analysis · Haplotype Analysis<|separator|>
  51. [51]
    Same genes drive maths and reading ability | University of Oxford
    Jul 9, 2014 · Around half of the genes that influence how well a child can read also play a role in their mathematics ability, say scientists at the University of Oxford.
  52. [52]
    The correlation between reading and mathematics ability at age ...
    Jul 8, 2014 · Here we show, using twin and genome-wide analysis, that there is a substantial genetic component to children's ability in reading and mathematics.Twins Early Development... · Gwas Genotyping And... · Author Information
  53. [53]
    Multi-polygenic score prediction of mathematics, reading ... - Nature
    Jul 31, 2024 · Here, we investigated the heritability of mathematics, reading, and language ability independent of g (SCA.g) using twins and DNA.
  54. [54]
    The high heritability of educational achievement reflects many ...
    We conclude that the high heritability of educational achievement reflects many genetically influenced traits, not just intelligence.<|separator|>
  55. [55]
    Literacy and numeracy are more heritable than intelligence in ...
    We show that differences between children are significantly and substantially more heritable for literacy and numeracy than for g at ages 7 and 9, but not 12.
  56. [56]
    'Generalist genes' and mathematics in 7-year-old twins - PMC - NIH
    The few twin and adoption studies of mathematics performance have reported a wide range of heritabilities from 0.20 to 0.90 (reviewed in Oliver et al., 2004).2. Method · 2.4. 2. Genetic Analysis · 3. Results
  57. [57]
    New Trends in Gender and Mathematics Performance: A Meta ...
    In this paper, we use meta-analysis to analyze gender differences in recent studies of mathematics performance.
  58. [58]
    Gender differences in mathematics performance: A meta-analysis.
    Performed a meta-analysis of 100 studies (published 1963–1988) of gender differences in mathematics performance. They yielded 254 independent effect sizes, ...Missing: numeracy | Show results with:numeracy
  59. [59]
    Gender differences in mathematics performance: a meta-analysis
    Reviewers have consistently concluded that males perform better on mathematics tests than females do. To make a refined assessment of the magnitude of ...
  60. [60]
    The Science of Sex Differences in Science and Mathematics - PMC
    Males outperform females on most measures of visuospatial abilities, which have been implicated as contributing to sex differences on standardized exams in ...
  61. [61]
    Average Achievement for Girls and Boys (Grade 4) - TIMSS 2023
    In most countries (40), boys showed higher average achievement than girls, with only one country exhibiting an advantage for girls.
  62. [62]
    PISA 2022 Results (Volume I) - OECD
    Dec 5, 2023 · Volume I, The State of Learning and Equity in Education, describes students' performance in mathematics ... gender differences in performance; and ...Full Report · Indonesia · Country Notes: Brazil · PhilippinesMissing: TIMSS | Show results with:TIMSS
  63. [63]
    Gender, culture, and mathematics performance - PNAS
    This article reviews and synthesizes the current evidence on gender differences in abilities, focusing on mathematical skills.
  64. [64]
    Predicting cross-national sex differences in large-scale assessments ...
    Specifically, results based on the 2003 PISA cohort indicate, that sex differences in mathematics are substantially lower in more gender-egalitarian countries, ...2. Methods · 2.2. Timss (trends In... · 3. Results
  65. [65]
    Gender differences in young adults' mathematical performance
    Gender differences in math performance were mediated by math anxiety. •. Math anxiety plays a key role in the relation between gender and math performance.
  66. [66]
    Tackling the gender gap in mathematics with active learning ...
    An active learning methodology improved girls' math performance, reducing the gender gap by about 40%, with no impact on boys.
  67. [67]
    Early numeracy skills in preschool-aged children: A review of ...
    Studies on the development of typical and atypical early numeracy are reviewed with a particular focus on longitudinal findings including those from our work on ...
  68. [68]
    Early Numeracy: The Transition from Infancy to Early Childhood
    Dec 22, 2023 · Research has documented how children acquire several distinct verbal enumeration skills (e.g., counting, cardinality, ordinality), as well as ...
  69. [69]
    Direct numeracy activities and early math skills - ScienceDirect.com
    The purpose of this study was to investigate the relation between the home numeracy environment (engagement in direct numeracy activities) and numeracy skills ...
  70. [70]
    Early Numeracy in 3- to 4-Year-Old Children: The Role of Family ...
    Oct 11, 2025 · ABSTRACT. Research on early numeracy has largely focused on 5- and 6-year-olds and studies in younger children, often collapsed samples across ...
  71. [71]
    The Home Math Environment and Math Achievement: A Meta-Analysis
    Within the microsystem, which captures the direct environmental interaction with the child, parents directly influence their children's math skill development ...
  72. [72]
    The relation between home numeracy practices and a variety of ...
    Sep 20, 2021 · Our study shows that home numeracy experiences predict arithmetic skills in elementary school children, but only when those activities are formal and ...
  73. [73]
    Socioeconomic Variations in the Frequency of Parent Number Talk
    Apr 29, 2022 · Using data from 12 studies, we meta-analyze correlations between parent number talk during interactions with their young children (mean sample ...Missing: numeracy | Show results with:numeracy
  74. [74]
    Socioeconomic variations in the frequency of parent number talk
    Using data from 12 studies, we meta-analyze correlations between parent number talk during interactions with their young children (mean sample age ranging from ...
  75. [75]
    The influence of parental involvement on students' math performance
    This meta-analysis investigates the influence of parental involvement on students' math performance, along with their moderators.
  76. [76]
    The interplay between father–child and mother–child numeracy ...
    The present study investigated the interplay between children's mathematical skills and their mothers' and fathers' engagement in numeracy activities.
  77. [77]
    [PDF] Reviewing the Family Math Literature - Education First
    We reviewed research from multi‑year longitudinal studies, meta‑analyses, and literature reviews to identify the strongest predictors of children's mathematics.
  78. [78]
    What Is the Long‐Run Impact of Learning Mathematics During ...
    Jan 20, 2017 · Other studies show strong associations between early gains in mathematical ability and later success in school. For example, using longitudinal ...<|control11|><|separator|>
  79. [79]
    Does formal teacher competence matter for students' mathematics ...
    Jul 2, 2024 · Results reveal a positive relationship between formal teacher competence and students' mathematics achievement, even after controlling for students' socio- ...
  80. [80]
    A Meta-Analysis and Quality Review of Mathematics Interventions ...
    Mar 19, 2023 · This meta-analysis included 25 preschool to third-grade math interventions with 83 effect sizes that yielded a statistically significant summary effect.
  81. [81]
    A Meta-Analysis of the Experimental Evidence Linking Mathematics ...
    May 20, 2025 · The current meta-analysis synthesizes 46 experimental studies of PK–12 mathematics and science professional development interventions to investigate how these ...
  82. [82]
    Why do early mathematics skills predict later ... - ScienceDirect.com
    A meta-analytic study using six longitudinal datasets demonstrated that early math skills have the strongest predictive power for later academic achievement and ...
  83. [83]
    Best Practices in K-12 Math Interventions - Hanover Research
    Additionally, a meta-analysis targeting pre-K through third grade students found that certain digital apps had significant positive effects on math skills.
  84. [84]
    Early numeracy and mathematics development: A longitudinal meta ...
    In this meta-analysis of 54 longitudinal studies with over 58000 students in kindergarten through 12th grade, we examined the predictive nature of early ...
  85. [85]
    PISA 2022: Mathematics Framework - OECD
    The PISA 2022 framework defines mathematical literacy, relating reasoning and problem-solving, and organizes content into four categories and contexts.
  86. [86]
    PISA 2022 U.S. Results, Mathematics Literacy, Achievement by ...
    The PISA 2022 results represent outcomes from the 8th cycle of PISA since its inception in 2000 and provide a global view of US students' performance.
  87. [87]
    TIMSS | IEA.nl
    TIMSS is an international assessment of student achievement in mathematics and science at fourth and eighth grades.
  88. [88]
    TIMSS Trends in International Mathematics and Science Study
    TIMSS has monitored trends in mathematics and science achievement every four years, at the fourth and eighth grades.
  89. [89]
    Mathematics Achievement - TIMSS 2023
    44 countries and 3 benchmarking entities participated in TIMSS 2023 at the eighth grade. Most countries' scores fall within the range of 400 to 600 points.
  90. [90]
    International Results - TIMSS 2023
    TIMSS 2023 International Results in Mathematics and Science is presented in a web-based format that provides users with an engaging and interactive experience.Mathematics Achievement · Science Achievement · Context Questionnaires
  91. [91]
    PIAAC - OECD
    The Survey of Adult Skills, a product of the PIAAC, measures adults' proficiency in literacy, numeracy and problem solving.PIAAC data and methodology · Do Adults Have the Skills They...
  92. [92]
    PIAAC Numeracy: A Conceptual Framework - OECD
    The current paper provides an overview of the conceptual framework for the assessment of numeracy developed for the OECD's Programme for the International ...
  93. [93]
    PIAAC Highlights of U.S. National Results
    PIAAC provides relevant data about the US adult population's competencies and skills in literacy, numeracy, and adaptive problem solving.
  94. [94]
    Trends in international assessments and outcomes in adulthood
    PIAAC scores. To assess the numeracy skills of adults, I use test results from PIAAC. Similar to PISA and TIMSS, PIAAC is an international survey of skills.
  95. [95]
    The Diagnosis and Treatment of Dyscalculia - PMC - PubMed Central
    The diagnosis of dyscalculia involves not only obligatory psychometric (arithmetical) testing, but also a clinical examination, thorough history-taking, and ...
  96. [96]
    Dyscalculia: What It Is, Causes, Symptoms & Treatment
    There are no lab, imaging or diagnostic tests that can confirm dyscalculia. Instead, the focus will be on testing a child's specific math-related skills and ...
  97. [97]
    Assessment Plan: A Guide to Evaluating for Dyscalculia with the WJ V
    Sep 17, 2025 · The Woodcock-Johnson V (WJ V) provides powerful, updated tools for evaluating dyscalculia. Examiners can investigate mathematical skills, ...
  98. [98]
    challenges for the design of international assessments: sampling ...
    This paper examines critical design factors that influence data quality in educational research, using international large-scale educational assessments as an ...
  99. [99]
    International Large-Scale Assessments: Challenges in Reporting ...
    1 de jan. de 2013 · However, there are also challenges, in particular with the validity of using country rankings to estimate educational achievement of students ...
  100. [100]
    Math items about real-world content lower test-scores of students ...
    Mar 15, 2024 · This study demonstrates that low-SES students perform worse on items with money content using both TIMSS and other datasets. Moreover, this ...Results · Discussion · Methods
  101. [101]
    The Impact of Cultural Bias in Standardized Testing and Its ...
    Aug 28, 2024 · Cultural bias in tests leads to lower scores for minority students, as questions reflect a white middle-class experience, and inconsistent ...Missing: criticisms numeracy
  102. [102]
    Explaining Achievement Gaps: The Role of Socioeconomic Factors
    Aug 21, 2024 · Results show that a broad set of family SES factors explains a substantial portion of racial achievement gaps.Missing: criticisms | Show results with:criticisms
  103. [103]
    [PDF] An Examination of the Diagnostic Utility of Three Dyscalculia ...
    Oct 4, 2015 · in this review, the existing models of dyscalculia lack the validity and reliability necessary to make sound decisions regarding a student's ...Missing: numeracy | Show results with:numeracy
  104. [104]
    (PDF) Validity and Reliability of Needs Analysis Questionnaire for ...
    Jun 6, 2022 · The result shows that the language and terminology used in Dyscalculia Module achieved a good face validity measurement, with a face validity ...Missing: numeracy | Show results with:numeracy
  105. [105]
    Identifying Children with Persistent Developmental Dyscalculia from ...
    Nov 26, 2020 · Screening tools that assess early numeracy skills may be promising for identifying children at risk for developing severe mathematical ...
  106. [106]
    [PDF] The Limits and Possibilities of International Large-Scale Assessments
    In the United States, these assessments are often cited by policymakers and media commentators as indicators of how the American educational system is falling.
  107. [107]
    The Impact of Literacy, Numeracy and Computer Skills on Earnings ...
    In the case of literacy and numeracy proficiencies, improved literacy and numeracy skills narrow the labour market outcomes gap between individuals with ...
  108. [108]
    The Surprising Impact of High School Math on Job Market Outcomes
    Nov 1, 2013 · Even among workers with the same level of education, those with more math have higher wages on average and are less likely to be unemployed.
  109. [109]
    Math skills and labor-market outcomes: Evidence from a resume ...
    Our findings add to the body of evidence showing that stronger math skills positively affect labor-market outcomes.
  110. [110]
    Returns to skills around the world: Evidence from PIAAC
    Across the 23 countries, a one-standard-deviation increase in numeracy skills is associated with an average 18 percent wage increase among prime-age workers.Abstract · Introduction · The Piaac DataMissing: premium | Show results with:premium
  111. [111]
    What is the economic value of literacy and numeracy?
    For example, across the countries in the PIAAC data, on average a one standard deviation increase in numeracy skills is associated with a 20% wage premium for ...
  112. [112]
    The Economic Returns to Foundational Literacy and Numeracy
    Jul 16, 2025 · In this paper, we estimate the relationship between early-grade skills and adult earnings, using longitudinal data from the Indonesia Family Life Survey.
  113. [113]
    [PDF] The Role of Cognitive Skills in Economic Development
    The simple answer in the discussion of economic implications of education is that cognitive skills have a strong impact on indi- vidual earnings. More than that ...
  114. [114]
    Addressing the impact of low levels of literacy and numeracy in the ...
    Low levels of literacy and numeracy are having a more pronounced effect on productivity in the workplace than reported in the Centre's survey in 2022. The ...
  115. [115]
    [PDF] Education's Impact on Economic Growth and Productivity.
    The literacy and numeracy skills gained by students in high school were crucial to improve their productivity in both “white-collar” office jobs and “blue- ...
  116. [116]
    Communicating Treatment Risk Reduction to People With Low ...
    Sep 20, 2011 · Results. Participants—particularly those with low numeracy skills—showed denominator neglect in treatment risk reduction perceptions. Icon ...
  117. [117]
    The effect of numeracy on the comprehension of information about ...
    People with a lower numeracy level make larger errors in interpreting medicines side effect risk information.
  118. [118]
    Clinical Implications of Numeracy: Theory and Practice - PMC
    Low numeracy is pervasive and constrains informed patient choice, reduces medication compliance, limits access to treatments, impairs risk communication, and ...
  119. [119]
    Numeracy levels influence shared decision-making and surgical ...
    Low numeracy influences risk assessment and surgical outcomes, while adequate numeracy is linked to improved outcomes. Patient numeracy is generally poor.
  120. [120]
    Understanding Health Risk Comprehension: The Role of Math ... - NIH
    Higher objective and subjective numeracy are associated with better health risk comprehension. Higher math anxiety is linked to lower comprehension, especially ...
  121. [121]
    Predictors of COVID-19 vaccine uptake: an online three-wave ...
    Mar 12, 2024 · The combination of numeracy, risk perceptions, and attitudes towards COVID-19 vaccines as predictors of early vaccine uptake supports prior ...
  122. [122]
    https://oxfordre.com/communication/display/10.1093/acrefore/9780190228613.001.0001/acrefore-9780190228613-e-354
  123. [123]
    The consequences of political innumeracy - Sage Journals
    Aug 13, 2014 · We find that correcting examples of a particular type of misinformation – political innumeracy – has little effect on political attitudes. These ...Innumeracy And Its... · Experiment #1: Correcting... · ConclusionMissing: decisions | Show results with:decisions
  124. [124]
    Numeracy and the Persuasive Effect of Policy Information and Party ...
    Dec 31, 2015 · The results indicate that highly numerate individuals appear to value numeric information, to the point that party cues lose their persuasive ...Missing: innumeracy polls
  125. [125]
    Objective numeracy exacerbates framing effects from decision ...
    May 7, 2024 · Our findings demonstrate that those who can understand and use objective information may remain subjectively persuaded by certain policy frames.
  126. [126]
    Numeracy, gist, literal thinking and the value of nothing in decision ...
    May 18, 2023 · In law, low numeracy compromises the ability of a judge or jury in criminal cases to make reliable sentencing decisions or to appreciate ...Precision And Gist In... · Risk, Numeracy And Decision... · Improving Numeracy
  127. [127]
    America's Innumeracy Problem and Its Impact on Public Policy
    Aug 25, 2021 · It argues that this innumeracy has significant implications for public policy, leading to misinterpretations of data and flawed decision-making.
  128. [128]
    Do Adults Have the Skills They Need to Thrive in a Changing World?
    Dec 10, 2024 · Most of the countries and economies that experienced skill declines saw literacy and numeracy proficiency decrease across different age groups.Missing: innumeracy | Show results with:innumeracy
  129. [129]
    Highlights From the U.S. PIAAC Cycle 2 Results
    Dec 10, 2024 · The literacy and numeracy scores of U.S. adults were lower in 2023 than in previous years, according to the report Highlights of the 2023 ...
  130. [130]
    U.S. Adults Face Alarming Declines in Literacy and Numeracy
    Dec 16, 2024 · 28% of U.S. adults scored at the lowest levels of literacy in 2023, up from 19% in 2017​. · 34% scored at the lowest levels of numeracy, a rise ...
  131. [131]
    PIAAC 2023 report reveals a shocking decline in U.S. adults' literacy ...
    Jan 16, 2025 · The report states that, in the US, 16- to 65-year-olds' literacy scores declined by 12 points from 2017 to 2023, while their numeracy scores fell by 7 points ...
  132. [132]
    New PIAAC results show declining literacy and increasing inequality ...
    Dec 11, 2024 · The OECD's latest PIAAC results reveal declining literacy and widening inequality across Europe, highlighting the urgent need for lifelong and inclusive ...
  133. [133]
    Counting on the recovery | PBE - Pro Bono Economics
    Jun 7, 2021 · Low numeracy skills in the UK lead to lower earnings, higher unemployment, and worse health. 16 million workers earn £1,600 less, and 59% of  ...
  134. [134]
    (PDF) Numeracy and employment - ResearchGate
    Aug 9, 2025 · Poor math skills are associated with negative outcomes such as reduced employment prospects post-graduation (Durrani and Tariq, 2012) ...
  135. [135]
    The impact of literacy and numeracy gaps in the workplace
    Jun 10, 2025 · Low literacy and numeracy impacts businesses, with 88% reporting being affected. This leads to poor document completion, wasted time, and lack ...
  136. [136]
    Surprising ways poor numeracy skills affect our everyday life - News24
    May 24, 2021 · Studies have shown that adults with poor numeracy are 2.5 times more likely to disclose having a long-standing illness or disability. Chronic ...
  137. [137]
    Life impacts of low literacy, numeracy - AUT News
    Jul 20, 2023 · Low literacy and numeracy lead to poorer education, employment, income, health, and justice outcomes, including higher hospitalization and ...
  138. [138]
    Low Numeracy Is Associated with Older Adult Age around the World
    Studies in high-income countries suggest that low numeracy is associated with older age—perhaps especially among individuals with lower education ...
  139. [139]
    Adult skills in literacy and numeracy declining or stagnating ... - OECD
    Dec 10, 2024 · “Adults with higher numeracy skills are more likely to be employed, earn a higher wage, and report better health and life satisfaction than ...
  140. [140]
    Low numeracy is associated with poor financial well-being around ...
    Nov 22, 2021 · There is ample evidence that low numeracy is associated with low income. Adults with low numeracy often have fewer employment opportunities and ...
  141. [141]
    What Are Specific Learning Disorders? - Psychiatry.org
    The term “dyscalculia” is used to describe difficulties with learning number number-related concepts, with processing numerical information, with learning ...
  142. [142]
    How to Spot Dyscalculia - Child Mind Institute
    Aug 7, 2025 · In the DSM-5, dyscalculia is called “specific learning disability with impairment in mathematics,” but “dyscalculia” is still an accepted ...
  143. [143]
    https://www.additudemag.com/dyscalculia-in-adults-symptoms-signs-and-statistics/
  144. [144]
    Dyscalculia Statistics and Prevalence: How Common Is It?
    Most research agrees that between 2 and 8 percent of children have dyscalculia, with a best estimate around 6%. Exact numbers depend on how strictly the ...Reported Prevalence Rates · Co-Occurrence With Other... · Why Prevalence Matters
  145. [145]
    Dyscalculia: neuroscience and education - PMC - NIH
    It is widely agreed that dyscalculia is a highly familial disorder (the risk for siblings of children suffering from dyscalculia is five to ten times higher ...
  146. [146]
    Persistent Differences in Brain Structure in Developmental Dyscalculia
    Jul 16, 2020 · The present findings reveal for the first time that DD children show persistently reduced gray and white matter volumes over development.
  147. [147]
    [PDF] Cognitive neuroscience of dyscalculia and math learning disabilities.
    Oct 21, 2021 · Note: This manuscript was peer-reviewed in 2019 and is to appear soon as a book chapter in the. Oxford Handbook of Developmental Cognitive ...
  148. [148]
    How is dyscalculia different from other maths learning difficulties?
    Dyscalculia, on the other hand, is a more specific and lasting difficulty. It mainly affects how someone understands numbers, quantities, and estimating.
  149. [149]
    Mathematical learning difficulties subtypes classification - PMC
    In general, the term Mathematical Learning Difficulty (MLD) is used broadly to describe a wide variety of deficits in math skills, typically pertaining the ...
  150. [150]
    [PDF] The Effects of Early Numeracy Interventions for Students in ...
    The results of this meta-analysis add to the research base on the importance of developing counting skills and the significance of including counting skills in ...
  151. [151]
    Effectiveness of digital-based interventions for children with ...
    A random effects meta-analysis indicated that digital-based interventions generally improved mathematical performance (mean ES = 0.55), though there was a ...
  152. [152]
    Intervention approaches to remediate developmental dyscalculia ...
    The studies reviewed here suggest that cognitive training designed to “stimulate” multiple aspects of math knowledge (and the brain systems supporting them) ...
  153. [153]
    Adult education in mathematics and numeracy: a scoping review of ...
    Feb 5, 2024 · This paper presents the results of a scoping review of recent empirical research related to adult education in mathematics and numeracy, ...
  154. [154]
    Numeracy Education for Adult Learners: A Scan of the Field and ...
    Apr 13, 2024 · “The research affirmed the critical value of adult numeracy courses fostering interactive and participatory learning to meet learners' diverse ...
  155. [155]
    Remediating Computational Deficits at Third Grade: A Randomized ...
    The major purposes of this study were to assess the efficacy of tutoring to remediate 3rd-grade computational deficits and to explore whether ...
  156. [156]
    Examining the Triple Code Model in numerical cognition: An fMRI ...
    Jun 28, 2018 · The Triple Code Model (TCM) of numerical cognition argues for the existence of three representational codes for number: Arabic digits, verbal number words,
  157. [157]
    [PDF] Towards an Anatomical and Functional Model of Number Processing
    The model elaborates on. Dehacne's (1992) triple-code model and assumes that arabic and magnitude representations of numbers are available to both hemispheres, ...
  158. [158]
    Sulcation of the intraparietal sulcus is related to symbolic but not non ...
    Aug 6, 2021 · The horizontal segment of intraparietal sulcus (HIPS) is one of the key functional regions for processing numbers.
  159. [159]
    The role of the intraparietal sulcus in numeracy: A review of parietal ...
    Mar 28, 2025 · The left angular gyrus was identified as a region associated with verbal processing of numeracy, particularly math facts achieved through rote ...
  160. [160]
    Connecting neural coding to number cognition: a computational ...
    The current study presents a series of computational simulations that demonstrate how the neural coding of numerical magnitude may influence number cognition ...
  161. [161]
    [PDF] Personalized deep neural networks reveal mechanisms of math ...
    Jun 24, 2025 · This work reveals the power of digital twins integrating artificial intel- ligence and neuroscience to uncover mechanisms underlying ...
  162. [162]
    Neurodevelopmental commonalities in cognitive control networks for ...
    Sep 25, 2025 · Mathematics and reading abilities are foundational academic skills that are robustly correlated across development, suggesting shared cognitive
  163. [163]
    Long-term trends in reading and mathematics achievement (38)
    Average scores for age 9 students in 2022 declined 5 points in reading and 7 points in mathematics compared to 2020.
  164. [164]
    A meta-analysis of the impact of COVID-19 on student achievement
    An analysis of 30 studies determined that on average, students lost 0.21 standard deviations of learning overall.<|control11|><|separator|>
  165. [165]
    Fostering toddlers' numeracy and mathematical language skills ...
    This study examines the impact of a 9-week domain-specific mathematical interaction training for early childhood education and care (ECEC) teachersResearch Paper · 3. Methods · 5. DiscussionMissing: emerging | Show results with:emerging<|separator|>
  166. [166]
    Early Math Intervention Builds Momentum in 2025 - New America
    Sep 15, 2025 · Better math proficiency early in a student's education often means better reading and math skills later on.Missing: 2020-2025 | Show results with:2020-2025
  167. [167]
    Bibliometric analysis for the period 2020-2025
    Oct 1, 2025 · The findings of this study provide valuable insights into the current state of AI research in mathematics education and highlight the potential ...Missing: numeracy | Show results with:numeracy
  168. [168]
    [PDF] The Impact of COVID-19 Distance Learning on Students' Math Anxiety
    Aug 27, 2022 · The shift from face-to-face to online classes had a great impact on teaching and learning among all school levels (Sahu, 2020; Lathabhavan & ...
  169. [169]
    Adult Numeracy in the United States
    Over two in three (70 percent) U.S. adults have sufficient numeracy skills to make calculations with whole numbers and percentages, estimate numbers or quantity ...Missing: innumeracy | Show results with:innumeracy
  170. [170]
    [PDF] Trends in Adult Learning (EN) - OECD
    Jul 4, 2025 · The Survey of Adult Skills assesses adults' proficiency in key information processing skills – literacy, numeracy and adaptive problem solving – ...
  171. [171]
    49 Adult Literacy Statistics and Facts for 2025 | National University
    Jun 24, 2025 · A recent study from OECD showed literacy and numeracy scores in decline for adults in the United States. In this article, we'll review ...
  172. [172]
    Numeracy and COVID-19: examining interrelationships between ...
    Mar 16, 2022 · Previous studies have shown that individuals' mathematical understanding of health-related information affects their attitudes and behaviours.