It has been proposed that recent cultural inventions such as symbolic arithmetic recycle evolutionary older neural mechanisms. A central assumption of this hypothesis is that the degree to which a pre-existing mechanism is recycled depends upon the degree of similarity between its initial function and the novel task. To test this assumption, we investigated whether the brain region involved in magnitude comparison in the intraparietal sulcus (IPS), localized by a numerosity comparison task, is recruited to a greater degree by arithmetic problems that involve number comparison (single-digit subtractions) than by problems that involve retrieving facts from memory (single-digit multiplications). Our results confirmed that subtractions are associated with greater activity in the IPS than multiplications, whereas multiplications elicit greater activity than subtractions in regions involved in verbal processing including the middle temporal gyrus and inferior frontal gyrus that were localized by a phonological processing task. Pattern analyses further indicated that the neural mechanisms more active for subtraction than multiplication in the IPS overlap with those involved in numerosity comparison, and that the strength of this overlap predicts inter-individual performance in the subtraction task. These findings provide novel evidence that elementary arithmetic relies on the co-option of evolutionary older neural circuits.
Behavioral and modeling evidence suggests that words compete for recognition during auditory word identification, and that phonological similarity is a driving factor in this competition. The present study used event-related potentials [ERPs] to examine the temporal dynamics of different types of phonological competition (i.e., cohort and rhyme). ERPs were recorded during a novel picture-word matching task, where a target picture was followed by an auditory word that either matched the target (CONE-cone), or mismatched in one of three ways: rhyme (CONE-bone), cohort (CONE-comb), and unrelated (CONE-fox). Rhymes and cohorts differentially modulated two distinct ERP components, the Phonological Mismatch Negativity [PMN] and the N400, revealing the influences of pre-lexical and lexical processing components in speech recognition. Cohort mismatches resulted in late increased negativity in the N400, reflecting disambiguation of the later point of miscue and the combined influences of top-down expectations and misleading bottom-up phonological information on processing. In contrast, we observed a reduction in the N400 for rhyme mismatches, reflecting lexical activation of rhyme competitors. Moreover, the observed rhyme effects suggest that there is interaction between phoneme-level and lexical-level information in the recognition of spoken words. The results support the theory that both levels of information are engaged in parallel during auditory word recognition in a way that permits both bottom-up and top-down competition effects. Keywords Perception; Auditory processing; Event related potentialsIn understanding spoken language listeners need to both perceive incoming auditory information and access a semantic representation of that input. Although speech is understood quite rapidly and effortlessly, the cognitive processing involved in spoken word recognition is not trivial. In order to recognize what is being said, acoustic information must be translated into a phonological code, segmented into discrete words, and integrated with both the immediate context and prior knowledge such as word familiarity and contextual CIHR Author ManuscriptCIHR Author Manuscript CIHR Author Manuscript cues. Consistent with this, studies have revealed a range of factors that influence auditory word recognition (Luce & Pisoni, 1998;Norris, McQueen, & Cutler, 2000;Frauenfelder & Tyler, 1987;McClelland & Elman, 1986). These can be coarsely divided into two categories: those revealing the influence of 'pre-lexical' cues related to acoustic and phonological features, and those indexing the role of 'lexical' knowledge that denotes lexical-level influences such as frequency. There is significant ongoing discussion about exactly how auditory words are recognized, focusing on how and when these different types of information are accessed during the time course of processing, and furthermore, the extent to which these interact.Evidence suggests that spoken words are processed as speech unfolds, and that phonologically similar items ...
Three experiments investigated the ability of 3-, 5-, and 8-year-old children as well as adults to learn sets of perceptual categories. Adults and children performed comparably on categories that could be learned by either a single-dimensional rule or by associative learning mechanisms. However, children showed poorer performance relative to adults in learning categories defined by a disjunctive rule and categories that were nonlinearly separable. Increasing the task demands for adults resulted in child-like performance on the disjunctive categories. Decreasing the task demands for children resulted in more adult-like performance on the disjunctive categories. The authors interpret these results within a multiple-systems approach to category learning and suggest that children have not fully developed the same explicit category learning system as adults.
We explored the neural basis of spoken language deficits in children with reading difficulty, specifically focusing on the role of orthography during spoken language processing. We used functional magnetic resonance imaging (fMRI) to examine differences in brain activation between children with reading difficulties (aged 9-to-15 years) and age-matched children with typical achievement during an auditory rhyming task. Both groups showed activation in bilateral superior temporal gyri (BA 42, 22), a region associated with phonological processing, with no significant between-groups differences. Interestingly, typically achieving children, but not children with reading difficulties, showed activation of left fusiform cortex (BA 37), a region implicated in orthographic processing. Furthermore, this activation was significantly greater for typically achieving children compared to those with reading difficulties. These findings suggest that typical children automatically activate orthographic representations during spoken language processing, while those with reading difficulties do not. Follow-up analyses revealed that the intensity of the activation in the fusiform gyrus was associated with significantly stronger behavioral conflict effects in typically achieving children only (i.e., longer latencies to rhyming pairs with orthographically dissimilar endings than to those with identical orthographic endings; jazz-has vs. cat-hat). Finally, for reading disabled children, a positive correlation between left fusiform activation and non-word reading was observed, such that greater access to orthography was related to decoding ability. Taken together, the results suggest the integration of orthographic and phonological processing are directly related to reading ability. KeywordsPhonology; Orthography; Dyslexia; fMRI; Language Deficits; Spoken Word Processing Reading is a complex task spanning several levels of processing. Both orthography and phonology are central to word reading, which involves translating print into sound.Address Correspondence: James R. Booth, Department of Communication Sciences and Disorders, Northwestern University, 2240 Campus Drive, Evanston, Illinois, 60208, USA, Phone: (847) 491-2519, Fax: (847) 491-4975, j-booth@northwestern.edu. Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. NIH Public Access NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author ManuscriptImportantly, phonological abilities have been crucially linked to reading skill, such that phonology has long been considered a core deficit in reading disability (Bradley & Bryant, 1...
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