# Controlling response order without relying on stimulus order – evidence for flexible representations of task order

**Authors:** Jens Kürten, Tilo Strobach, Lynn Huestegge

PMC · DOI: 10.1007/s00426-024-01953-w · Psychological Research · 2024-04-13

## TL;DR

The study shows that people can control the order of tasks flexibly, even when not influenced by the order of stimuli.

## Contribution

The research demonstrates that task-order representations can integrate with specific task information without relying on stimulus order.

## Key findings

- Experiment 1 showed generic task-order representations with no order-switch cost asymmetries.
- Experiment 2 revealed task-order switch costs in both tasks with a trend toward asymmetries.
- The findings suggest flexible mental representations of task order during task control.

## Abstract

In dual-task situations, both component tasks are typically not executed simultaneously but rather one after another. Task order is usually determined based on bottom-up information provided by stimulus presentation order, but also affected by top-down factors such as instructions and/or differentially dominant component tasks (e.g., oculomotor task prioritization). Recent research demonstrated that in the context of a randomly switching stimulus order, task order representations can be integrated with specific component task information rather than being coded in a purely abstract fashion (i.e., by containing only generic order information). This conclusion was derived from observing consistently smaller task-order switch costs for a preferred (e.g., oculomotor-manual) versus a non-preferred (e.g., manual-oculomotor) task order (i.e., order-switch cost asymmetries). Since such a representational format might have been especially promoted by the sequential stimulus presentation employed, we investigated task-order representations in situations without any bottom-up influence of stimulus order. To this end, we presented task stimuli simultaneously and cued the required task-order in advance. Experiment 1 employed abstract order transition cues that only indicated a task-order repetition (vs. switch) relative to the previous trial, while Experiment 2 used explicit cues that unambiguously indicated the task-order. Experiment 1 revealed significant task-order switch costs only for the second task (of either task order) and no order-switch cost asymmetries, indicating a rather generic representation of task order. Experiment 2 revealed task-order switch costs in both component tasks with a trend toward order-switch cost asymmetries, indicating an integration of task order representations with component task information. These findings highlight an astonishing flexibility of mental task-order representations during task-order control.

## Full-text entities

- **Diseases:** PRP (MESH:D010916)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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Source: https://tomesphere.com/paper/PMC11282136