Gender Differences in Multitasking Reflect Spatial Ability

Demands involving the scheduling and interleaving of multiple activities have become increasingly prevalent, especially for women in both their paid and unpaid work hours. Despite the ubiquity of everyday requirements to multitask, individual and gender-related differences in multitasking have gained minimal attention in past research. In two experiments, participants completed a multitasking session with four gender-fair monitoring tasks and separate tasks measuring executive functioning (working memory updating) and spatial ability (mental rotation). In both experiments, males outperformed females in monitoring accuracy. Individual differences in executive functioning and spatial ability were independent predictors of monitoring accuracy, but only spatial ability mediated gender differences in multitasking. Menstrual changes accentuated these effects, such that gender differences in multitasking (and spatial ability) were eliminated between males and females who were in the menstrual phase of the menstrual cycle but not between males and females who were in the luteal phase. These findings suggest that multitasking involves spatiotemporal task coordination and that gender differences in multiple-task performance reflect differences in spatial ability.

[1]  John P. Robinson,et al.  Is Anyone Doing the Housework? Trends in the Gender Division of Household Labor , 2000 .

[2]  M. Carelli,et al.  Representation of Multiple Durations in Children and Adults , 2011 .

[3]  Maria G. Carell Timelines of past events: Reconstructive retrieval of temporal patterns , 2011, Advances in cognitive psychology.

[4]  Susan D. Voyer,et al.  Magnitude of sex differences in spatial abilities: a meta-analysis and consideration of critical variables. , 1995, Psychological bulletin.

[5]  S. Vandenberg,et al.  Mental Rotations, a Group Test of Three-Dimensional Spatial Visualization , 1978, Perceptual and motor skills.

[6]  S. Ceci,et al.  "Don't forget to take the cupcakes out of the oven": prospective memory, strategic time-monitoring, and context. , 1985, Child development.

[7]  Christopher D. Wickens,et al.  Multiple Resources and Mental Workload , 2008, Hum. Factors.

[8]  V. Rideout,et al.  Generation M2: Media in the Lives of 8- to 18-Year-Olds , 2010 .

[9]  Dario D. Salvucci,et al.  Threaded cognition: an integrated theory of concurrent multitasking. , 2008, Psychological review.

[10]  B. Schneider,et al.  Revisiting the Gender Gap in Time-Use Patterns , 2011 .

[11]  M. Linn,et al.  Emergence and characterization of sex differences in spatial ability: a meta-analysis. , 1985, Child development.

[12]  Clifford Nass,et al.  Cognitive control in media multitaskers , 2009, Proceedings of the National Academy of Sciences.

[13]  T. Mäntylä,et al.  Time monitoring and executive functioning in children and adults. , 2007, Journal of experimental child psychology.

[14]  D. Strayer,et al.  Supertaskers: Profiles in extraordinary multitasking ability , 2010, Psychonomic bulletin & review.

[15]  T. Shallice,et al.  Deficits in strategy application following frontal lobe damage in man. , 1991, Brain : a journal of neurology.

[16]  Helen E. Fisher,et al.  The First Sex: The Natural Talents of Women and How They Are Changing the World , 1999 .

[17]  Anna S. Law,et al.  Multitasking: multiple, domain-specific cognitive functions in a virtual environment , 2011, Memory & cognition.

[18]  Andrew R. A. Conway,et al.  Working memory, attention control, and the N-back task: a question of construct validity. , 2007, Journal of experimental psychology. Learning, memory, and cognition.

[19]  R Key Dismukes,et al.  The Multitasking Myth: Handling Complexity in Real-World Operations , 2009 .

[20]  Ellen Bialystok,et al.  Planning and task management in older adults: Cooking breakfast , 2006, Memory & cognition.

[21]  T. Shallice,et al.  The cognitive and neuroanatomical correlates of multitasking , 2000, Neuropsychologia.

[22]  Heike Schmidt,et al.  No gender differences in brain activation during the N‐back task: An fMRI study in healthy individuals , 2009, Human brain mapping.

[23]  M. Peters,et al.  A Redrawn Vandenberg and Kuse Mental Rotations Test - Different Versions and Factors That Affect Performance , 1995, Brain and Cognition.

[24]  T. Mäntylä,et al.  Age Differences in Multiple Outcome Measures of Time-Based Prospective Memory , 2009, Neuropsychology, development, and cognition. Section B, Aging, neuropsychology and cognition.

[25]  S. Bianchi,et al.  How Long Is the Second (Plus First) Shift? Gender Differences in Paid, Unpaid, and Total Work Time in Australia and the United States , 2009 .

[26]  Wändi Bruine de Bruin,et al.  Executive functions in decision making: An individual differences approach , 2010 .

[27]  Tara A. Rench,et al.  Predictors of multitasking performance in a synthetic work paradigm , 2010 .

[28]  T. Salthouse,et al.  Executive functioning as a potential mediator of age-related cognitive decline in normal adults. , 2003, Journal of experimental psychology. General.

[29]  T. Mäntylä,et al.  Time keeping and working memory development in early adolescence: a 4-year follow-up. , 2011, Journal of experimental child psychology.

[30]  O. Güntürkün,et al.  Sex hormones affect spatial abilities during the menstrual cycle. , 2000, Behavioral neuroscience.

[31]  Elizabeth Hampson,et al.  Variations in sex-related cognitive abilities across the menstrual cycle , 1990, Brain and Cognition.

[32]  M. J. Emerson,et al.  The Unity and Diversity of Executive Functions and Their Contributions to Complex “Frontal Lobe” Tasks: A Latent Variable Analysis , 2000, Cognitive Psychology.

[33]  L. Boroditsky,et al.  Time in the mind: Using space to think about time , 2008, Cognition.

[34]  D E Kieras,et al.  A computational theory of executive cognitive processes and multiple-task performance: Part 1. Basic mechanisms. , 1997, Psychological review.