The neural substrates by which speech sounds are perceptually segregated into distinct streams are poorly understood. Here, we recorded high-density scalp event-related potentials (ERPs) while participants were presented with a cyclic pattern of three vowel sounds (/ee/-/ae/-/ee/). Each trial consisted of an adaptation sequence, which could have either a small, intermediate, or large difference in first formant (Δf1) as well as a test sequence, in which Δf1 was always intermediate. For the adaptation sequence, participants tended to hear two streams (“streaming”) when Δf1 was intermediate or large compared to when it was small. For the test sequence, in which Δf1 was always intermediate, the pattern was usually reversed, with participants hearing a single stream with increasing Δf1 in the adaptation sequences. During the adaptation sequence, Δf1-related brain activity was found between 100–250 ms after the /ae/ vowel over fronto-central and left temporal areas, consistent with generation in auditory cortex. For the test sequence, prior stimulus modulated ERP amplitude between 20–150 ms over left fronto-central scalp region. Our results demonstrate that the proximity of formants between adjacent vowels is an important factor in the perceptual organization of speech, and reveal a widely distributed neural network supporting perceptual grouping of speech sounds.
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机译:人们很难理解将语音感知地分离为不同流的神经基质。在这里,我们记录了高密度头皮事件相关电位(ERP),同时向参与者展示了三种元音(/ ee /-/ ae /-/ ee /)的循环模式。每个试验都包含一个适应序列,该适应序列在第一个共振峰(Δf1)上可能有小的,中等或较大差异,以及一个测试序列,其中Δf1始终是中间的。对于适应序列,与Δf1小时相比,参与者倾向于听到两个流(“流”)。对于Δf1始终处于中间的测试序列,通常会反转模式,参与者会听到一个适应序列中Δf1增大的单个流。在适应序列中,在额叶中央/左侧颞区的/ ae /元音之后的100-250 ms之间发现了与Δf1相关的大脑活动,与听觉皮层的产生一致。对于测试序列,先前的刺激在左额中中心头皮区域的20–150µms之间调制了ERP振幅。我们的结果表明,相邻元音之间共振峰的接近度是语音的感知组织的重要因素,并且揭示了广泛分布的神经网络,支持语音的感知分组。
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