Research Byte: Development of #Arithmetic Across the #Lifespan: A Registered Report. - #Gq #CHC #Gwm #EF #Gs #schoolpsychology #SPED #SLD

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Development of Arithmetic Across the Lifespan: A Registered Report.  

Open access paper available at Developmental Psychology journal.  Click here to access

Abstract

 

Arithmetic skills are needed at any age. In everyday life, children to older adults calculate and deal with numbers. The processes underlying arithmetic seem to change with age. From childhood to younger adulthood, children get better in domain-specific numerical skills such as place-value processing. From younger to older adulthood, domain-general cognitive skills such as working memory decline. These skills are needed for complex arithmetic such as addition with carrying and subtraction with borrowing. This study investigates how the domain-specific (number magnitude, place-value processing) and domain-general (working memory, processing speed, inhibition) processes of arithmetic change across the lifespan. Thereby, arithmetic effects (carry and borrow effects), numerical effects (distance and compatibility effects), and cognitive skills were assessed in children, younger and older adolescents, and younger, middle-aged and older adults. The results showed that numerical and arithmetic skills improve from childhood to young adulthood and remain relatively stable throughout adulthood, even though domain-general pro-cesses, particularly working memory and processing speed, decline with age. While number magnitude and place-value processing both develop until adulthood, number magnitude processing shows deficits during aging, whereas place-value processing remains intact even in old age. The carry effect shifts from a categorical all-or-none decision (whether or not a carry operation is needed) to a more continuous magnitude process in adulthood, reflecting increasing reliance on domain-specific skills. In contrast, the borrow effect remains largely categorical across all age groups, depending on general cognitive processes. These results provide critical insights into how arithmetic skills change over the lifespan, relying on both domain-specific and domain-general processes.

Public Significance Statement 

Numerical and arithmetic skills improve significantly during school and are mostly preserved throughout adulthood—despite a decline in cognitive skills such as working memory and processing speed during aging. When facing complex arithmetic, all—from children up to older adults—need longer to calculate, but lifelong experience helps in dealing with arithmetic complexity. Throughout the lifespan, arithmetic requires both cognitive skills as well as numeric skills.

Research Byte: Age-related change in #inhibitory processes when controlling for #workingmemory (#Gwm) capacity and #processingspeed (#Gs) - #cognition #intelligence #CHC #executivefunctions #Gwm #Gs #schoolpsychology

 

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This is a nice study/paper.  And it is open access and can be downloaded for reading by clicking here.

I recommend reading, if not the entire article, at least the introductory lit review.  The introductory lit review is worth a read if one wants to understand the basic literature re the definition, theories, and research regarding the relations between cognitive inhibition, working memory capacity (Gwm), and processing speed (Gs) in a developmental context.  

Abstract

The main purpose of this study was to examine the age-related changes in inhibitory control of 450 children at the ages of 7–8, 11–12, and 14–16 when controlling for working memory capacity (WMC) and processing speed to determine whether inhibition is an independent factor far beyond its possible reliance on the other two factors. This examination is important for several reasons. First, empirical evidence about age-related changes of inhibitory control is controversial. Second, there are no studies that explore the organization of inhibitory functions by controlling for the influence of processing speed and WMC in these age groups. Third, the construct of inhibition has been questioned in recent research. Multigroup confirmatory analyses suggested that inhibition can be organized as a one-dimension factor in which processing speed and WMC modulate the variability of some inhibition tasks. The partial reliance of inhibitory processes on processing speed and WMC demonstrates that the inhibition factor partially explains the variance of inhibitory tasks even when WMC and processing speed are controlled and some methodological concerns are addressed.

Research bytes: Executive function inhibitory function as active goal maintenance

Interesting article regarding how the inhibitory function of executive functions is hypothesized to be a side effect of the active goal maintenance function of the prefrontal cortex. Article from one of my most favorite journals for concise overview of contemporary cognitive science research.

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Disseration Dish: Preschool inhibitory control and kindergarten academic achievement

Inhibitory control in preschool children: Does it predict academic achievement in kindergarten? by Gonik, Ilana, Ph.D., Illinois Institute of Technology, 2008 , 108 pages; AAT 3370855

Abstract

Inhibitory control is a self-regulatory, prefrontal cognitive function which begins to develop during the first year of life and continues developing rapidly through the preschool years. Children's cognitive development has also been shown to increase rapidly in the preschool years. Additionally, early childhood is a sensitive period for the development of important academic skills such as literacy, mathematics, and language skills. This study examined the relationship between different types of inhibitory control abilities in preschool-age children and academic achievement, including both reading and math skills. Participants included 347 4- and 5-year-old children who were given a battery of tasks which tapped into three domains of inhibitory control (delaying gratification, slowing down/inhibiting motor activity, and initiating and suppressing a response to signal). Academic achievement was assessed using three subtests of the Woodcock-Johnson III Tests of Achievement including the Letter-Word Identification, Passage Comprehension, and Quantitative Concepts subtest. Using structural equation modeling, the results indicated that the observed inhibitory control measures at ages 4 and 5 were not measuring common latent factors and the individual variables were substantially different. Results of hierarchical regression analyses indicated that suppressing/initiating a response to signal tasks (Tower at age 4 and Knock and Tap at age 5) and the delay of gratification task at age 5 (Gift Delay) were significantly related to math achievement at age 5. Additionally, the Knock and Tap task at age 5 partially mediated the relationship between the Tower task at age 4 and math achievement. Implications of these findings and suggestions for further research are discussed.

Technorati Tags: psychology, educational psychology, school psychology, developmental psychology, preschool, kindergarten, achievement, learning, executive function, inhibitory control, neuropsychology, intelligence