Author:
Huang Xin,Wong Wai Leung,Tse Chun-Yu,Sommer Werner,Dimigen Olaf,Maurer Urs
Abstract
AbstractAn influential theory in the field of visual object recognition proposes that fast magnocellular (M) information facilitates neural processing of spatially more fine-grained but slower parvocellular (P) information. While written words can be considered as a special type of visual objects, it is unknown whether magnocellular facilitation also plays a role in reading. We used a masked priming paradigm that has been shown to result in neural facilitation in visual word processing and tested whether these facilitating effects are mediated by the magnocellular system. In two experiments, we manipulated the influence of magnocellular and parvocellular systems on visual processing of a contextually predictable target character by contrasting high versus low spatial frequency and luminance versus color contrast, respectively. In addition, unchanged (normal) primes were included in both experiments as a manipulation check. As expected, unchanged primes elicited typical repetition effects in the N1, N250 and P3 components of the ERP in both experiments. In the experiment manipulating spatial contrast, we obtained repetition effects only for the N1 component for both M- and P-biased primes. In the luminance versus color contrast experiment, repetition effects were found in N1 and N250 for both M- and P- biased primes. Furthermore, no interactions were found between M- vs. P-biased prime types and repetition. Together these results indicate that M- and P- information contributes jointly to early neural processes underlying visual word recognition.
Publisher
Cold Spring Harbor Laboratory
Reference70 articles.
1. Contextual Diversity, Not Word Frequency, Determines Word-Naming and Lexical Decision Times
2. Visual objects in context;Nat. Rev. Neurosci,2004
3. Beckmann, P. , Legge, G. , Luebker, A ., 1991. 7.5: Reading: Letters, Words, and Their Spatial-Frequency Content.
4. The word shape hypothesis re-examined: evidence for an external feature advantage in visual word recognition;J. Res. Read,2005
5. The role of low-spatial frequencies in lexical decision and masked priming;Brain Cogn,2009