Semantic Context Effects in Picture and Sound Naming: Evidence from Event-related Potentials and Pupillometric Data.

IF 3.1 3区 医学 Q2 NEUROSCIENCES
Magdalena Gruner, Andreas Widmann, Stefan Wöhner, Erich Schröger, Jörg D Jescheniak
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引用次数: 0

Abstract

When a picture is repeatedly named in the context of semantically related pictures, (homogeneous context) responses are slower than when the picture is repeatedly named in the context of unrelated pictures (heterogeneous context). This semantic interference effect in blocked-cyclic naming plays an important role in devising theories of word production. Wöhner, Mädebach, and Jescheniak [2021; Wöhner, S., Mädebach, A., & Jescheniak, J. D. Naming pictures and sounds: Stimulus type affects semantic context effects. Journal of Experimental Psychology: Human Perception and Performance, 47, 716-730, 2021] have shown that the effect is substantially larger when participants name environmental sounds than when they name pictures. We investigated possible reasons for this difference, using EEG and pupillometry. The behavioral data replicated Wöhner and colleagues. ERPs were more positive in the homogeneous compared with the heterogeneous context over central electrode locations between 140-180 msec and 250-350 msec for picture naming and between 250 and 350 msec for sound naming, presumably reflecting semantic interference during semantic and lexical processing. The later component was of similar size for pictures and sounds. ERPs were more negative in the homogeneous compared with the heterogeneous context over frontal electrode locations between 400 and 600 msec only for sounds. The pupillometric data showed a stronger pupil dilation in the homogeneous compared with the heterogeneous context only for sounds. The amplitudes of the late ERP negativity and pupil dilation predicted naming latencies for sounds in the homogeneous context. The latency of the effects indicates that the difference in semantic interference between picture and sound naming arises at later, presumably postlexical processing stages closer to articulation. We suggest that the processing of the auditory stimuli interferes with phonological response preparation and self-monitoring, leading to enhanced semantic interference.

图像和声音命名中的语义语境效应:来自事件相关电位和瞳孔测量数据的证据
当一幅图片在语义相关的图片语境中被重复命名时,(同质语境)反应比该图片在不相关的图片语境中被重复命名时(异质语境)要慢。这种阻塞循环命名中的语义干扰效应在设计单词生成理论时发挥了重要作用。Wöhner、Mädebach 和 Jescheniak [2021; Wöhner, S., Mädebach, A., & Jescheniak, J. D. Naming pictures and sounds:刺激类型影响语义语境效应。实验心理学杂志:人类感知与表现》,47, 716-730, 2021 年]显示,当参与者说出环境声音时,其效果远远大于说出图片时。我们使用脑电图和瞳孔测量法研究了造成这种差异的可能原因。行为数据重复了 Wöhner 及其同事的研究。与异质环境相比,同质环境下的ERP在图片命名的140-180毫秒和250-350毫秒之间,以及声音命名的250-350毫秒之间的中心电极位置呈阳性,这可能反映了语义和词汇处理过程中的语义干扰。图片和声音的后一分量大小相似。在同质情境下,ERPs 在额叶电极位置的负值比在异质情境下的负值要大,仅在声音命名的 400 到 600 毫秒之间。瞳孔测量数据显示,同质背景下的瞳孔放大比异质背景下的瞳孔放大更强(仅针对声音)。晚期ERP负性和瞳孔放大的幅度可以预测同质情境中声音的命名潜伏期。这些效应的潜伏期表明,图片和声音命名之间的语义干扰差异出现在后期,也就是更接近发音的词汇后处理阶段。我们认为,对听觉刺激的处理会干扰语音反应准备和自我监控,从而导致语义干扰增强。
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来源期刊
Journal of Cognitive Neuroscience
Journal of Cognitive Neuroscience 医学-神经科学
CiteScore
5.30
自引率
3.10%
发文量
151
审稿时长
3-8 weeks
期刊介绍: Journal of Cognitive Neuroscience investigates brain–behavior interaction and promotes lively interchange among the mind sciences.
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