Age differences in working memory— The roles of storage and selective access

Twenty-four young (23 years) and 24 old (71 years) adults performed arithmetic tasks with working memory loads ranging from 1 to 4. Age groups were equivalent in mean accuracy and speed of arithmetic operations under minimal working memory load, but old adults were slower than young with memory demands >1. Access to a new object in working memory as the basis of computation required additional time. This object-switching cost increased with increases in memory demand, but was unaffected by age, indicating that old adults have no deficit in selective access to working memory.

[1]  R. Kliegl,et al.  Sequential and coordinative processing dynamics in figural transformations across the life span , 1996, Cognition.

[2]  Jeffrey Bisanz,et al.  Selection of Procedures in Mental Addition: Reassessing the Problem Size Effect in Adults , 1996 .

[3]  D. Geary,et al.  Numerical cognition: age-related differences in the speed of executing biologically primary and biologically secondary processes. , 1998, Experimental aging research.

[4]  N. Cowan An embedded-processes model of working memory , 1999 .

[5]  A. Baddeley Exploring the Central Executive , 1996 .

[6]  Randall W Engle,et al.  Working memory, short-term memory, and general fluid intelligence: a latent-variable approach. , 1999, Journal of experimental psychology. General.

[7]  Resource Limitations and Process Dissociations in Individual Differences Research , 2000 .

[8]  Mark H. Ashcraft,et al.  Working memory, automaticity, and problem difficulty. , 1992 .

[9]  M. Just,et al.  From the SelectedWorks of Marcel Adam Just 1992 A capacity theory of comprehension : Individual differences in working memory , 2017 .

[10]  R. Kliegl,et al.  Complex semantic processing in old age: does it stay or does it go? , 2000, Psychology and aging.

[11]  Steven A Hecht,et al.  Counting on working memory in simple arithmetic when counting is used for problem solving , 2002, Memory & cognition.

[12]  T. Salthouse The processing-speed theory of adult age differences in cognition. , 1996, Psychological review.

[13]  R. Kliegl,et al.  Dissociating retention and access in working memory: An age-comparative study of mental arithmetic , 2001, Memory & cognition.

[14]  S. D. Lima,et al.  How general is general slowing? Evidence from the lexical domain. , 1991, Psychology and aging.

[15]  V E Coon,et al.  Interpretation of differential deficits: the case of aging and mental arithmetic. , 1994, Journal of experimental psychology. Learning, memory, and cognition.

[16]  T. Salthouse Resource-reduction interpretations of cognitive aging☆ , 1988 .

[17]  J. Cerella Aging and Information-Processing Rate , 1990 .

[18]  M. Ashcraft,et al.  On mental multiplication and age. , 1992, Psychology and aging.

[19]  Timothy A. Salthouse,et al.  The aging of working memory. , 1994 .

[20]  R. Kliegl,et al.  Time-Accuracy Functions for Determining Process and Person Differences: An Application To Cognitive Aging , 1994, Cognitive Psychology.

[21]  Fergus I. M. Craik,et al.  Memory Changes in Normal Aging , 1994 .

[22]  Hugh Garavan,et al.  Serial attention within working memory , 1998, Memory & cognition.

[23]  D. Geary,et al.  Cognitive addition: strategy choice and speed-of-processing differences in young and elderly adults. , 1991, Psychology and aging.

[24]  H. Buschke,et al.  Proportional slowing and addition speed in old and young adults. , 1994, Psychology and aging.

[25]  P. Warr,et al.  Age and working memory: the role of perceptual speed, the central executive, and the phonological loop. , 1996, Psychology and aging.

[26]  Generative mental processes and cognitive resources : integrative research on adaptation and control , 2000 .

[27]  R Kliegl,et al.  Sequential and coordinative complexity in time-accuracy functions for mental arithmetic. , 1997, Psychology and aging.

[28]  S. Belleville,et al.  Effect of normal aging on the manipulation of information in working memory , 1998, Memory & cognition.

[29]  K. Oberauer Access to information in working memory: exploring the focus of attention. , 2002, Journal of experimental psychology. Learning, memory, and cognition.

[30]  R Kliegl,et al.  Sequential and coordinative complexity: age-based processing limitations in figural transformations. , 1993, Journal of experimental psychology. Learning, memory, and cognition.

[31]  S. Dutke,et al.  Generative Mental Processes and Cognitive Resources , 2000 .

[32]  S Hale,et al.  Converging evidence that visuospatial cognition is more age-sensitive than verbal cognition. , 2000, Psychology and aging.

[33]  A F Smith,et al.  Age differences in mental multiplication: evidence for peripheral but not central decrements. , 1997, The journals of gerontology. Series B, Psychological sciences and social sciences.

[34]  Klaus Oberauer,et al.  Beyond resources: Formal models of complexity effects and age differences in working memory , 2001 .

[35]  D. Geary,et al.  Simple and complex mental subtraction: strategy choice and speed-of-processing differences in younger and older adults. , 1993, Psychology and aging.