![]() ![]() Therefore, we hypothesize that temporal uncertainty during action update would cause the anterior insula to decrease the sensitivity to ascending prediction errors. ![]() Activity of the right anterior insula (rAI) is associated with temporal uncertainty. Predictive coding states that accurate perception demands minimization of precise prediction errors. However, action update fails when the organism is uncertain about when to release the substituting behavior, when it faces temporal uncertainty. ![]() Because our data suggest functional segregation during causal judgments, we propose that effective connectivity between these regions is worth evaluating in a follow-up study via dynamic causal modeling of fMRI data.Īction update, substituting a prepotent behavior with a new action, allows the organism to counteract surprising environmental demands. Results are discussed within the context of the linguistic category priming hypothesis, linear ballistic accumulator models, and the hierarchical organization of the prefrontal cortex. Interestingly, causal judgments were segregated between pars opercularis and pars triangularis. By using functional magnetic resonance imaging (fMRI) and region of interest analysis, we found that judgments of all three visual events more strongly activated Broca’s area following the periphrastic instruction than following the lexical instruction, and judgments of direct events produced stronger activity in Broca’s area than indirect events. Based on this difference, we used lexical and periphrastic causatives as verbal instructions that directed participants to judge billiards balls collisions depicting direct, indirect, and non-causal events. Lexical causatives (e.g., the orange ball moves the purple ball) describe only direct causal events whereas periphrastic causatives (e.g., the orange ball causes the purple ball to move) describe both direct and indirect causal events. From a cognitive linguistics perspective, we assessed the effects of causative constructions on the activity of Broca’s area during the processing of visual causal and non-causal events. ![]()
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