Multimedia teaching materials are prevalent in today's educational settings, especially in the form of dynamic images. There are three common representations in multimedia materials: narration, image and text. Since text and narration are often redundant with each other, previous studies have often suggested eliminating text representations to reduce the cognitive load of learners and avoid redundancy effect. However, there are multiple forms of text representations, and different forms of text representations may affect the occurrence of redundancy effects. Furthermore, due to transient effect of narration caused by dynamic images, it is difficult for learners to integrate the content of materials, thus adding text representations may reduce the negative impact of the transient effect. In conclusion, one of the purposes of this study is to explore whether subtitles and labels, two common types of text representation in animation, have different effects on the redundancy effect when they are accompanied by narration. In addition, this study considers learners’ prior knowledge as a key variable that affects the effectiveness of teaching materials. To understand the conditions for the occurrence of redundancy effect, the current study explores the effects of different text representations (with or without subtitles, and with or without labels) on learners with different levels (high or low) of prior knowledge. This study uses animation with narration as the teaching material, and the main variables are the presence or absence of subtitles and labels. 206 first-year high school students were randomly assigned to four groups with different combinations of subtitles and labels: subtitles and labels, subtitles only, labels only, and no visual text. Then the participants’ learning performance and cognitive load are measured. In the data analysis phase, this study further categorized the participants into those with high prior knowledge and those with low prior knowledge based on their performances in the prior knowledge test, and conducted a three‑way analysis of variance. The results indicate that there was a significant interaction between subtitles, labels, and prior knowledge in terms of learning performance. This partially supports the hypothesis that the addition of subtitles would not negatively influence the performance of high prior knowledge learners regardless of the presence or absence of labels, in other words, high prior knowledge learners are not affected by redundancy effects. As for learners with low prior knowledge, redundancy effects occurred only in the group with both subtitles and labels (i.e. materials with higher level of complexity), as low prior knowledge learners in this group performed significantly worse than those in the groups with only one text representation (subtitles or labels). Based on the findings above, this study suggests that instructors should cautiously choose the forms of text representation and consider learners’ prior knowledge as guidelines for the design of dynamic multimedia materials.