Key points class="unordered" style="list-style-type:disc" id="tjp7271-list-0001">When standing, the gain of the body‐movement response to a sinusoidally moving visual scene has been shown to get smaller with faster stimuli, possibly through changes in the apportioning of visual flow to self‐motion or environment motion.We investigated whether visual‐flow speed similarly influences the postural response to a discrete, unidirectional rotation of the visual scene in the frontal plane.Contrary to expectation, the evoked postural response consisted of two sequential components with opposite relationships to visual motion speed.With faster visual rotation the early component became smaller, not through a change in gain but by changes in its temporal structure, while the later component grew larger.We propose that the early component arises from the balance control system minimising apparent self‐motion, while the later component stems from the postural system realigning the body with gravity.
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