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1. Investigating associations between parent engagement and toddlers' mathematics performance

   https://doi.org/10.1111/bjdp.12459  

   Silver, Alex_M; Swirbul, Mackenzie; Tamis‐LeMonda, Catherine_S; Cabrera, Natasha; Libertus, Melissa_E (July 2023, British Journal of Developmental Psychology)

   Abstract Early mathematics skills relate to later mathematics achievement and educational attainment, which in turn predict career choice, income, health and financial decision‐making. Critically, large differences exist among children in early mathematics performance, with parental mathematics engagement being a key predictor. However, most prior work has examined mothers' mathematics engagement with their preschool‐ and school‐aged children. In this Registered Report, we tested concurrent associations between mothers' and fathers' engagement in mathematics activities with their 2‐ to 3‐year‐old toddlers and children's mathematics performance. Mothers and fathers did not differ in their engagement in mathematics activities, and both parents' mathematics engagement related to toddlers' mathematics skills. Fathers' mathematics engagement was associated with toddlers' number and mathematics language skills, but not their spatial skills. Mothers' mathematics engagement was only associated with toddlers' mathematics language skills. Critically, associations may be domain‐specific, as parents' literacy engagement did not relate to measures of mathematics performance above their mathematics engagement. Mothers' and fathers' mathematics activities uniquely relate to toddlers' developing mathematics skills, and future work on the nuances of these associations is needed. 

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2. Linking parents’ play strategies with their preschoolers’ STEM skills: The mediating roles of child STEM talk and self-regulated learning

   https://doi.org/10.1016/j.jecp.2024.106095  

   Mannweiler, Morgan D; Bierman, Karen L; Liben, Lynn S (January 2025, Journal of Experimental Child Psychology)

   Previous studies document associations between parents’ use of guided play strategies and children’s STEM skills. We extended existing research by exploring mediating mechanisms that may account for these links. Parents played with their preschool children (N=75; 49% girls, 51% boys; 94% White, 3% Black, 1% Biracial, 1% Asian, 1% Native American; Mage = 4.82 years), undertaking a building challenge. Videotaped play was coded for parents’ guiding STEM talk (density of math, spatial, and scientific inquiry language) and management strategy (high- vs. low-directiveness). Mediators included children’s STEM talk during play and self-regulated learning (assessed by executive function tests and examiner’s ratings of children’s task orientation). Structural equation models confirmed hypothesized mediated paths from parent STEM talk to child math (but not spatial) skills via child STEM talk, and from parent STEM talk and directiveness to child math and spatial skills via child self-regulated learning. We discuss implications for future research and intervention design. 

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3. Developing a novel measure of non-rigid, ductile spatial skill

   https://doi.org/10.1186/s41235-025-00621-w  

   Bennett-Pierre, Grace; Shipley, Thomas_F; Newcombe, Nora_S; Gunderson, Elizabeth_A (March 2025, Cognitive Research: Principles and Implications)

   Abstract Non-rigid spatial thinking, or mental transformations where the distance between two points in an object changes (e.g., folding, breaking, bending), is required for many STEM fields but remains critically understudied. We developed and tested a non-rigid, ductile spatial skill measure based on reasoning about knots with 279 US adults (M = 30.90, SD 5.47 years; 76% White; 48% women). The resultant 54-item measure had good reliability (α = .88). Next, 147 US adults (M = 20.65, SD 2.80 years; 48% White; 56% women) completed existing spatial skills measures, the knot reasoning measure, a verbal skill measure, and surveys of current and childhood spatial activities. Knot reasoning performance was significantly, positively correlated with existing measures of spatial skill. Mental rotation and paper folding, but not bending, predicted knot reasoning task performance. We replicated work showing that men performed better than women on mental rotation and unexpectedly found that men also outperformed women on paper folding and knot reasoning, but not bending, tasks. Using structural equation modeling, we found several significant mediation effects. Men who reported less masculine-stereotyped spatial activity engagement had higher performance on the mental rotation and knot reasoning tasks. Women who reported greater engagement in feminine-stereotyped spatial activities had higher paper folding and backwards knot reasoning performance. Spatial skills did not differ among math-intensive STEM, non-math-intensive STEM, and non-STEM majors. The studies introduce a reliable measure of non-rigid, ductile string transformations and provide initial evidence of the role of gender and gendered spatial activities on non-rigid spatial skills. 

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4. Mothers’ and fathers’ engagement in math activities with their toddler sons and daughters: The moderating role of parental math beliefs

   https://doi.org/10.3389/fpsyg.2023.1124056  

   Silver, Alex M.; Chen, Yu; Smith, Darcy K.; Tamis-LeMonda, Catherine S.; Cabrera, Natasha; Libertus, Melissa E. (March 2023, Frontiers in Psychology)

   Parents’ beliefs about the importance of math predicts their math engagement with their children. However, most work focuses on mothers’ math engagement with preschool- and school-aged children, leaving gaps in knowledge about fathers and the experiences of toddlers. We examined differences in mothers’ and fathers’ ( N = 94) engagement in math- and non-math activities with their two-year-old girls and boys. Parents reported their beliefs about the importance of math and literacy for young children and their frequency of home learning activities. Parents of sons did not differ in their engagement in math activities from parents of daughters. Mothers reported engaging more frequently in math activities with their toddlers than fathers did, but the difference reduced when parents endorsed stronger beliefs about the importance of math for children. Even at very early ages, children experience vastly different opportunities to learn math in the home, with math-related experiences being shaped by both parent gender and parents’ beliefs. 

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5. The temporal structure of parent talk to toddlers about objects

   https://doi.org/10.1016/j.cognition.2022.105266  

   Slone, Lauren K; Abney, Drew H; Smith, Linda B; Yu, Chen (January 2023, Cognition)

   Toddlers learn words in the context of speech from adult social partners. The present studies quantitatively describe the temporal context of parent speech to toddlers about objects in individual real-world interactions. We show that at the temporal scale of a single play episode, parent talk to toddlers about individual objects is predominantly, but not always, clustered. Clustered speech is characterized by repeated references to the same object close in time, interspersed with lulls in speech about the object. Clustered temporal speech patterns mirror temporal patterns observed at longer timescales, and persisted regardless of play context. Moreover, clustered speech about individual novel objects predicted toddlers’ learning of those objects’ novel names. Clustered talk may be optimal for toddlers’ word learning because it exploits domain-general principles of human memory and attention, principles that may have evolved precisely because of the clustered structure of natural events important to humans, including human behavior. 

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