Abstract
Task-switching paradigms produce a highly consistent age-related increase in mixing cost [longer response time (RT) on repeat trials in mixed-task than single-task blocks] but a less consistent age effect on switch cost (longer RT on switch than repeat trials in mixed-task blocks). We use two approaches to examine the adult lifespan trajectory of control processes contributing to mixing cost and switch cost: latent variables derived from an evidence accumulation model of choice, and event-related potentials (ERP) that temporally differentiate proactive (cue-driven) and reactive (target-driven) control processes. Under highly practiced and prepared task conditions, aging was associated with increasing RT mixing cost but reducing RT switch cost. Both effects were largely due to the same cause: an age effect for mixed-repeat trials. In terms of latent variables, increasing age was associated with slower non-decision processes, slower rate of evidence accumulation about the target, and higher response criterion. Age effects on mixing costs were evident only on response criterion, the amount of evidence required to trigger a decision, whereas age effects on switch cost were present for all three latent variables. ERPs showed age-related increases in preparation for mixed-repeat trials, anticipatory attention, and post-target interference. Cue-locked ERPs that are linked to proactive control were associated with early emergence of age differences in response criterion. These results are consistent with age effects on strategic processes controlling decision caution. Consistent with an age-related decline in cognitive flexibility, younger adults flexibly adjusted response criterion from trial-to-trial on mixed-task blocks, whereas older adults maintained a high criterion for all trials.
Highlights
Task-switching paradigms require alternation between two or more simple tasks, using internal or external cues
In Section “Summary of Behavioral Findings,” we showed that aging produced a disproportionate increase in non-decision time for switch trials, which led to an age-related increase in Ter switch cost, despite an overall decline in response time (RT) switch cost
An age-related decline in the ability to use task cues to flexibly adjust response criterion from trial-to-trial can account for our finding of a large age increase in mixing cost accompanied by a reduction in switch cost. This age-related decline in cognitive flexibility was accompanied by greater activation of proactive and reactive control processes for both trial types in mixed-task blocks and affecting both decision and non-decision processes
Summary
Task-switching paradigms require alternation between two or more simple tasks, using internal or external cues (alternating runs vs. cued-trials paradigms; e.g., Rogers and Monsell, 1995; Meiran, 2000, respectively). A residual switch cost often remains even with long preparation intervals, suggesting that advance preparation is not always sufficient to equate switch and repeat trials (e.g., Allport et al, 1994; Rogers and Monsell, 1995) This residual switch cost arises from the time taken to complete reactive control processes (Braver et al, 2007) that deal with interference from the previously active task-set or difficulty activating the previously inhibited stimulus-set/response-set (e.g., Allport et al, 1994; Mayr and Keele, 2000). It can result from failure of proactive control processes, that is, failure to complete preparation of the correct task-set on some proportion of trials (De Jong, 2000)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
