To investigate the effects of stimulus features on the implementation of motor expertise in body rotations during a mental body rotation task, 2 experiments were conducted. In Experiment 1, we investigated the mental rotation abilities in 27 male participants: 14 experts in real body rotations (national level gymnasts) and 13 nonexperts (national handball players). The mental rotation task used left–right judgments and involved 3 types of stimuli: images of a stick figure person, images of line drawings of the human body, and photographs of real male persons. In Experiment 2, 10 experts and 11 nonexperts performed a mental body rotation task on the same stimuli as in Experiment 1 using this time a same–different judgment. Results showed that stimulus features had a significant effect on the mental rotation of the participants because the more realistic stimuli resulted in shorter response times. Furthermore, experts outperformed nonexperts when the stimuli were presented in unfamiliar orientations (180° rotation). However, this pattern was significant only during the mental rotation task of photographs with left– right judgments, suggesting that stick figure person and line drawings of the human body did not differentiate experts and nonexperts. In conclusion, results suggest the existence of optimal stimulus features to elicit optimal embodiment and allow revealing selective effects of motor expertise in body rotations.
The effect of stimuli size on the mental rotation of abstract objects has been extensively investigated, yet its effect on the mental rotation of bodily stimuli remains largely unexplored. Depending on the experimental design, mentally rotating bodily stimuli can elicit object-based transformations, relying mainly on visual processes, or egocentric transformations, which typically involve embodied motor processes. The present study included two mental body rotation tasks requiring either a same-different or a laterality judgment, designed to elicit object-based or egocentric transformations, respectively. Our findings revealed shorter response times for large-sized stimuli than for small-sized stimuli only for greater angular disparities, suggesting that the more unfamiliar the orientations of the bodily stimuli, the more stimuli size affected mental processing. Importantly, when comparing size transformation times, results revealed different patterns of size transformation times as a function of angular disparity between object-based and egocentric transformations. This indicates that mental size transformation and mental rotation proceed differently depending on the mental rotation strategy used. These findings are discussed with respect to the different spatial manipulations involved during object-based and egocentric transformations.
Mental rotation of the hands classically induces kinesthetic effects according to the direction of the rotation, with faster response times to the hands' medial rotations compared with lateral rotations, and is thus commonly used to induce engagement in motor imagery (MI). In the present study, we compared the performances of table tennis players (experts on hand movements), who commonly execute and observe fast hand movements, to those of soccer players (non-experts on hand movements) on a mental rotation task of hands. Our results showed a significant effect of the direction of rotation (DOR) confirming the engagement of the participants in MI. In addition, only hand movement experts were faster when the task figures corresponded to their dominant hand compared with the non-dominant hand, revealing a selective effect of motor expertise. Interestingly, the effect of the DOR collapsed in hand movement experts only when the task figures corresponded to their dominant hand, but it is noteworthy that lateral and medial rotations of the right-hand stimuli were not faster than medial rotations of the left-hand stimuli. These results are discussed in relation to possible strategies during the task. Overall, the present study highlights the embodied nature of the mental rotation task of hands by revealing selective effects of motor expertise.
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