Abstract
The extent to which meaning is involved in reading aloud has proven an area of longstanding debate, and current computational models differ on this dimension. The connectionist triangle model proposes that normal individuals rely on semantic information for correct reading of words with atypical spelling-sound relationships, but to varying degrees. This proposed individual difference would account for the varying stage of decline at which patients with semantic dementia first show the reading impairment known as surface dyslexia. Recent neuroimaging data has provided validation of this view, showing that individual differences in degree of semantic reliance during exception word reading predict the amount of activation in left anterior temporal regions associated with semantic processing. This study aimed to establish the cognitive correlates of individual differences in semantic reliance during exception word reading. Experiment 1 used a subgrouping approach with 32 participants and found larger imageability and semantic priming effects specifically for exception word reading amongst high relative to low semantic reliance readers. High semantic reliance readers also tended to read nonwords more slowly than low semantic reliance readers. A second experiment used a regression approach with 129 readers and confirmed the relationship of degree of semantic reliance both to imageability effects in exception word reading and speed of nonword reading. Further, while the performance of the higher semantic readers revealed no significant association with semantic processing tasks, there was a negative relationship with rhyme processing tasks. We therefore speculate that differences in phonological abilities may be responsible for varying degrees of semantic reliance in reading aloud. This proposal accords with the results of functional imaging showing that higher semantic reliance during exception word reading corresponds to lower activation in left pre-central gyrus, an area associated with direct spelling sound mapping and phonological processing. Our results therefore establish the nature of systematic individual differences in degree of semantic involvement amongst normal readers, and suggest directions for future neuroimaging and computational modeling research to uncover their origins.
Highlights
There is general agreement that the process of normal reading aloud involves use of a combination of sub-word and whole-word procedures to map between spelling and sound, the nature of each of these procedures remains controversial
Individual differences in the degree of semantic reliance during exception word reading are of particular theoretical importance as they have been offered by the connectionist triangle model as an account of variation in the degree of surface dyslexia observed in semantic dementia patients with degraded conceptual knowledge
This account has been supported by the correlation of a behavioral index of the degree of semantic reliance for exception word reading with activation in left anterior temporal regions associated with semantic processing
Summary
There is general agreement that the process of normal reading aloud involves use of a combination of sub-word and whole-word procedures to map between spelling and sound, the nature of each of these procedures remains controversial. According to the localist dual-route computational model (Coltheart et al, 2001), nonwords (novel letter strings) are read aloud via a system of grapheme-phoneme correspondence rules within a nonlexical route, and exception words (with atypical spelling-sound correspondences) require processing via a direct lexical route, while an additional unimplemented lexicalsemantic pathway can provide access to word meaning. Recent neuroimaging data has supported the proposal that there are considerable individual differences in the degree of semantic reliance during exception word reading (Hoffman et al, 2015). We harness the semantic dimensions of imageability and semantic priming to understand the nature of these individual differences in degree of semantic reliance amongst normal readers
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