Frequency and Chunking in Derived Words: A Parametric fMRI Study

Blumenthal-Dramé, Alice; Glauche, Volkmar; Bormann, Tobias; Weiller, Cornelius; Musso, Mariacristina; Kortmann, Bernd

doi:10.1162/jocn_a_01120

Cited by 21 publications

(26 citation statements)

References 59 publications

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“…In a similar vein, it is widely acknowledged that predictions play a role at all levels of language understanding (Kuperberg & Jaeger, ). At the morphological level, a masked visual priming experiment found that lexical decision times to complex words (e.g., tearless , worthless ) correlate with surprisal for the suffix (− less ), given the base ( tear , worth ) (Blumenthal‐Dramé et al, ). In this experiment, native speakers of English had to decide, as quickly and accurately as possible, whether a string of letters was a possible word of English, after brief (60 ms) exposure to the first morpheme of the word (e.g., worth—WORTHLESS , ticket—TICKETMENT ).…”

Section: Multiscale Predictive Processing Across Domainsmentioning

confidence: 99%

Shared neural and cognitive mechanisms in action and language: The multiscale information transfer framework

Blumenthal-Dramé

Malaia

2018

WIRES Cognitive Science

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This review compares how humans process action and language sequences produced by other humans. On the one hand, we identify commonalities between action and language processing in terms of cognitive mechanisms (e.g., perceptual segmentation, predictive processing, integration across multiple temporal scales), neural resources (e.g., the left inferior frontal cortex), and processing algorithms (e.g., comprehension based on changes in signal entropy). On the other hand, drawing on sign language with its particularly strong motor component, we also highlight what differentiates (both oral and signed) linguistic communication from nonlinguistic action sequences. We propose the multiscale information transfer framework (MSIT) as a way of integrating these insights and highlight directions into which future empirical research inspired by the MSIT framework might fruitfully evolve. This article is categorized under: Psychology > Language Linguistics > Language in Mind and Brain Psychology > Motor Skill and Performance Psychology > Prediction

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Section: Multiscale Predictive Processing Across Domainsmentioning

confidence: 99%

Shared neural and cognitive mechanisms in action and language: The multiscale information transfer framework

Blumenthal-Dramé

Malaia

2018

WIRES Cognitive Science

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“…Following Baayen (2002, 2005), we consider morphological boundary strength to be a gradient property of morphological boundaries reflecting their salience and the degree of segmentability of complex forms (Hay & Baayen, 2002. On this view, boundary strength is influenced by multiple parameters such as morphological productivity, semantic transparency, and the relative frequency of base and derived word (Blumenthal-Dramé et al, 2017;Hay & Baayen, 2002;Vannest, Newport, Newman, & Bavelier, 2011). The gradience of morphological boundaries, and the consequences of segmentability for the representation of words and morphemes, are a matter of active debate (Baayen, 2014;Hay & Baayen, 2005).…”

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confidence: 99%

Spelling errors in English derivational suffixes reflect morphological boundary strength

Gahl

Plag

2022

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To what extent do speakers decompose morphologically complex words, such assegmentable, into their morphological constituents? In this article, we argue that spelling errors in English affixes reflect morphological boundary strength and degrees of segmentability. In support of this argument, we present a case study examining the spelling of the suffixes -able/-ible, -ence/-ance, and -mentin an online resource (Tweets), in forms such as <availible>, <invisable>, <eloquance>, and <bettermint>. Based on previous research on morphological productivity and boundary strength (Hay, 2002;Hay & Baayen, 2002,2005), we hypothesized that morphological segmentability should affect the choice between <able> vs. <ible>, <ance> vs. <ence>, and <ment> vs. <-mint>. An analysis of roughly 23,000 non-standard spellings is consistent with that hypothesis, underscoring the usefulness of spelling variation as a source of evidence for morphological segmentability and for the role of morphological representations in language production and comprehension.

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“…These are processed bilaterally in 'language regions', with varying contribution of the left and right hemisphere as a function of, among other things, familiarity [139][140][141][142][143][144][145] . Furthermore, the more familiar [146][147][148][149][150][151][152] , frequent [153][154][155][156][157] , compositional ('red boat' vs 'cup boat') or coherent multiword expressions are 158,159 , the less 'language regions' tend to be active. Some studies show that sensorimotor activity is more strongly associated with high frequency words, word composition and impairments of word composition 160,161 while the basal ganglia are less active for higher frequency words 157,162 .…”

Section: Comprehensionmentioning

confidence: 99%

“…Furthermore, the more familiar [146][147][148][149][150][151][152] , frequent [153][154][155][156][157] , compositional ('red boat' vs 'cup boat') or coherent multiword expressions are 158,159 , the less 'language regions' tend to be active. Some studies show that sensorimotor activity is more strongly associated with high frequency words, word composition and impairments of word composition 160,161 while the basal ganglia are less active for higher frequency words 157,162 . One study concluded that 'areas canonically implicated in traditional neurophysiological models of language processing appear to play a lesser role in basic composition' (p. 2802) 160 .…”

Section: Comprehensionmentioning

confidence: 99%

Reorganization of the neurobiology of language after sentence overlearning

Skipper

Aliko

Brown

et al. 2020

Preprint

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There is a widespread assumption that there are a static set of ‘language regions’ in the brain. Yet, people still regularly produce familiar ‘formulaic’ expressions when those regions are severely damaged. This suggests that the neurobiology of language varies with the extent of word sequence learning and might not be fixed. We test the hypothesis that perceiving sentences is mostly supported by sensorimotor regions involved in speech production and not ‘language regions’ after overlearning. Twelve participants underwent two sessions of behavioural testing and functional magnetic resonance imaging (fMRI), separated by 15 days. During this period, they repeated two sentences 30 times each, twice a day. In both fMRI sessions, participants ‘passively’ listened to those two sentences and novel sentences. Lastly, they spoke novel sentences. Behavioural results confirm that participants overlearned sentences. Correspondingly, there was an increase or recruitment of sensorimotor regions involved in sentence production and a reduction in activity or inactivity for overlearned sentences in regions involved in listening to novel sentences. The global network organization of the brain changed by ∼45%, mostly through lost connectivity. Thus, there was a profound reorganization of the neurobiology of speech perception after overlearning towards sensorimotor regions not considered in most contemporary models and away from the ‘language regions’ posited by those models. These same sensorimotor regions are generally preserved in aphasia and Alzheimer’s disease, perhaps explaining residual abilities with formulaic language. These and other results warrant reconsidering static neurobiological models of language.

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Frequency and Chunking in Derived Words: A Parametric fMRI Study

Cited by 21 publications

References 59 publications

Shared neural and cognitive mechanisms in action and language: The multiscale information transfer framework

Shared neural and cognitive mechanisms in action and language: The multiscale information transfer framework

Spelling errors in English derivational suffixes reflect morphological boundary strength

Reorganization of the neurobiology of language after sentence overlearning

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