Table 1.
Mixed effect models of emotion recognition accuracy for dynamic multimodal expressions (ERAM).
Fig 1.
Interactions between estrogen (within-person), cycle phase, and cycle days in predicting emotion recognition accuracy (ERAM task).
(A) Interaction between estrogen levels and cycle phase shown when accuracy is distinguished via presentation modality. In the follicular phase, the +1 SD line shows that accuracy is higher for women who have higher levels of estrogen and the -1 SD line shows accuracy is lower for women who have lower levels of estrogen. (B) Illustration of the interaction between estrogen levels and the days squared variable when accuracy is distinguished via presentation modality. Accuracy is highest in the middle of cycle for women who have higher levels of estrogen (+1 SD line). (C) Interaction between estrogen levels and cycle phase shown when accuracy is distinguished via specific emotion. In the follicular phase, the +1 SD line shows that accuracy is higher for women who have higher levels of estrogen and the -1 SD line shows accuracy is lower for women who have lower levels of estrogen. (D) Illustration of the interaction between estrogen levels and the days squared variable when accuracy is distinguished via specific emotion. Accuracy is highest in the middle of cycle for women who have higher levels of estrogen (+1 SD line). Accuracy levels are generally higher when distinguished by specific emotion vs. presentation modality because accuracy for the reference category (anger) is higher than for all other emotions.
Table 2.
Accuracy on the ERAM task.
Table 3.
Mixed effect models of emotion recognition accuracy for non-linguistic vocalizations (VENEC).
Table 4.
Accuracy on the positive emotions on the VENEC task.
Fig 2.
Interaction between estrogen and cycle phase in predicting emotion recognition accuracy for negative emotions (VENEC task).
Interaction between estrogen levels and cycle phase shown when accuracy is distinguished via type of negative emotions. In the follicular phase, the +1 SD line shows that accuracy is higher for women who have higher levels of estrogen and the -1 SD line shows accuracy is lower for women who have lower levels of estrogen. As in Fig 1, accuracy levels are high when distinguished by specific emotion because accuracy for the reference category (anger) is higher than for all other emotions.
Table 5.
Accuracy on the negative emotions on the VENEC task.