%0 Journal Article %A Kelsey D. Csumitta %A Alexandra Ossowski %A Adrian W. Gilmore %A Stephen J. Gotts %A Alex Martin %T Brain regions with positive and negative task-evoked responses engage in cooperative rather than competitive interactions %D 2019 %R 10.1101/687897 %J bioRxiv %P 687897 %X Brain regions displaying task-induced decreases in activity, sometimes referred to as “Task-Negative”, have been proposed to reflect cortico-cortical competition from regions showing task-induced increases in activity, sometimes referred to as “Task-Positive”. If these functional networks are competitive, trial-level fMRI BOLD responses across voxels exhibiting Positive and Negative responses should be anti-correlated. Additionally, the correlation between the BOLD response and behavior in Positive and Negative regions should have opposite sign. Here, we test these predictions using trial-to-trial variability in an object naming task. In contrast to the negative coupling proposed by a competition model, we find positive coupling between Positive and Negative regions and show that this coupling aligns with trial-level behavioral correlations. We provide evidence that these cooperative interactions are not due to a non-specific global factor and discuss alternative proposals, such as thalamo-cortical gating.HighlightsTested competitive interactions among positive and negative task-evoked regionsPositive and negative regions exhibited positive coupling at trial and run levelsSmaller competitive effects seen in BOLD-behavior correlationsStrong cooperative effects not due to a non-specific common global factoreTOC Csumitta et al. show that positive and negative BOLD responses do not exhibit cortical competition among corresponding brain regions. Rather, these networks display positive coupling. The spatial distribution of positive coupling aligned with behavioral correlations, suggesting normal, cooperative network interactions. %U https://www.biorxiv.org/content/biorxiv/early/2019/07/02/687897.full.pdf