Li Lux, Chan Arielle, Iqbal Shah M, Goldreich Daniel
Department of Psychology, Neuroscience and Behaviour, McMaster UniversityHamilton, ON, Canada.
McMaster Integrative Neuroscience Discovery and Study, McMaster UniversityHamilton, ON, Canada.
Front Hum Neurosci. 2017 Jun 28;11:331. doi: 10.3389/fnhum.2017.00331. eCollection 2017.
Following focal sensory adaptation, the perceived separation between visual stimuli that straddle the adapted region is often exaggerated. For instance, in the tilt aftereffect illusion, adaptation to tilted lines causes subsequently viewed lines with nearby orientations to be perceptually repelled from the adapted orientation. Repulsion illusions in the nonvisual senses have been less studied. Here, we investigated whether adaptation induces a repulsion illusion in tactile spatial perception. In a two-interval forced-choice task, participants compared the perceived separation between two point-stimuli applied on the forearms successively. Separation distance was constant on one arm (the reference) and varied on the other arm (the comparison). In Experiment 1, we took three consecutive baseline measurements, verifying that in the absence of manipulation, participants' distance perception was unbiased across arms and stable across experimental blocks. In Experiment 2, we vibrated a region of skin on the reference arm, verifying that this focally reduced tactile sensitivity, as indicated by elevated monofilament detection thresholds. In Experiment 3, we applied vibration between the two reference points in our distance perception protocol and discovered that this caused an illusory increase in the separation between the points. We conclude that focal adaptation induces a repulsion aftereffect illusion in tactile spatial perception. The illusion provides clues as to how the tactile system represents spatial information. The analogous repulsion aftereffects caused by adaptation in different stimulus domains and sensory systems may point to fundamentally similar strategies for dynamic sensory coding.
在局部感觉适应之后,横跨适应区域的视觉刺激之间的感知间隔往往会被夸大。例如,在倾斜后效错觉中,对倾斜线条的适应会导致随后看到的具有相近方向的线条在感知上被排斥在适应方向之外。非视觉感官中的排斥错觉研究较少。在这里,我们研究了适应是否会在触觉空间感知中诱发排斥错觉。在一个两间隔强制选择任务中,参与者比较了先后施加在手臂上的两个点刺激之间的感知间隔。一个手臂上的间隔距离是恒定的(参考手臂),另一个手臂上的间隔距离是变化的(比较手臂)。在实验1中,我们进行了三次连续的基线测量,验证了在没有操作的情况下,参与者在不同手臂上的距离感知是无偏差的,并且在各个实验块中是稳定的。在实验2中,我们对参考手臂上的一个皮肤区域进行振动,验证了这会局部降低触觉敏感性,单丝检测阈值升高就表明了这一点。在实验3中,我们在距离感知实验方案中的两个参考点之间施加振动,发现这会导致两点之间的间隔出现虚幻的增加。我们得出结论,局部适应会在触觉空间感知中诱发排斥后效错觉。这种错觉为触觉系统如何表征空间信息提供了线索。不同刺激域和感觉系统中的适应所引起的类似排斥后效可能指向动态感觉编码的基本相似策略。
