LAUSR

ABSTRACT Inhibition is thought to help suppress interference from misconceptions in science learning. Using a pre-, post-, and delayed posttest design, we examined the influence on learning from science texts of three inhibitory-related functions—prepotent response inhibition, resistance to distractor interference, and resistance to proactive interference. Children in the fourth and fifth grades (N = 110) read two texts, one about energy and one about the food chain. One of the texts was a standard expository text; the other was a refutation text. We found that, regardless of text type, students’ conceptual knowledge increased between pretest and posttest, a result retained at delayed posttest. Prepotent response inhibition uniquely predicted conceptual learning but only from refutation texts at both posttests after controlling for prior knowledge and reading comprehension skills. Inhibiting proactive interference also contributed to long-term conceptual learning but only in refutation text readers. These findings suggest that specific inhibitory functions play a role in learning from science texts depending on text structure.