Developmental differences in the effects of phonological, lexical and semantic variables on word learning by infants

Storkel, Holly L.

doi:10.1017/s030500090800891x

Cited by 130 publications

(218 citation statements)

References 38 publications

(86 reference statements)

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“…We also hypothesized that the number of semantic and structural errors would be higher in children than in adolescents. This would be consistent with previous studies suggesting that there is a refinement of knowledge structures throughout development (e.g., Bjorklund, 1987;Bjorklund & Marchena, 1984;Chi & Ceci, 1987;Gathercole et al, 1992;Munson et al, 2005;Schneider & Pressley, 1997;Storkel, 2002Storkel, , 2009Swingley, 2003;Vicente et al, 2003), thought to affect memory processes and word selection, as in a sentence completion task.…”

Section: Methodssupporting

confidence: 92%

“…Together, these findings suggest that, throughout development, the structure of semantic memory undergoes changes not only in terms of the number of items in semantic networks, but also in terms of the richness of representations and items' accessibility (e.g., Bjorklund, 1985Bjorklund, , 1987Chi & Ceci, 1987;Gathercole, Willis, Emslie, & Baddeley, 1992;Munson, Swenson, & Manthei, 2005;Schneider & Pressley, 1997;Storkel, 2002Storkel, , 2009Swingley, 2003;Vicente, Castro, & Walley, 2003). Also, they indicate that these changes are supported by the dynamic interaction of individual factors (e.g., maturation) and environmental variables (e.g., education) (see Thomas & Karmiloff-Smith, 2002, 2003.…”

Section: P Smentioning

confidence: 98%

“…B. Markman & Dietrich, 2000; E. M. Markman, 1990;E. M. Markman & Hutchinson, 1984;Nelson, 1977;Smiley & Brown, 1979), and lexical representations tend to become more segmental and less holistic, as vocabulary increases (Elbro, 1996;Storkel, 2002Storkel, , 2009. There is also evidence pointing to changes in the relative influence of contextual and stimulus factors on word recognition as reading fluency develops, with young children relying more on contextual information to aid word recognition and adults showing increased automatic word processing abilities (Schwantes, Boesl, & Ritz, 1980;West & Stanovich, 1978;West, Stanovich, Feeman, & Cunningham, 1983).…”

Section: P Smentioning

confidence: 99%

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Sentence-final word completion norms for European Portuguese children and adolescents

Pinheiro

Soares

Comesaña

et al. 2010

Behavior Research Methods

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This study presents a set of sentence contexts and their cloze probabilities for European Portuguese children and adolescents. Seventy-three sentence contexts (35 low-and 38 high-constraint sentence stems) were presented to 90 children and 102 adolescents. Participants were asked to complete the sentence contexts with the first word that came to mind. For each sentence context, responses were listed and cloze probabilities of the words that were chosen to complete the sentence context were computed. Additionally, idiosyncratic and invalid responses (structural and semantic errors) were analyzed. A high degree of consistency in responses among the two age samples (children and adolescents) was found, along with a decrease of idiosyncratic and invalid responses in older participants. These results shed light on age-related changes in the effects of linguistic context on word production, and also in knowledge's representation. The full set of norms may be downloaded from

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Section: Methodssupporting

confidence: 92%

Section: P Smentioning

confidence: 98%

Section: P Smentioning

confidence: 99%

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Sentence-final word completion norms for European Portuguese children and adolescents

Pinheiro

Soares

Comesaña

et al. 2010

Behavior Research Methods

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“…Specifically, adults learned more words with low phonotactic probability sound sequences than words with high phonotactic probability sound sequences when learning was measured via partially correct responses, which was assumed to index triggering. Words with low phonotactic probability are presumably more easily recognized as new words, triggering word learning efficiently (Storkel, 2009;Storkel et al, 2006;Storkel & Lee, 2011), because they sound less like other known words, whereas words with high phonotactic probability sound very similar to known words (Frisch, Large, & Pisoni, 2000;Vitevitch et al, 1997). That is, a new word may be mistaken for a known word when phonotactic probability is high, failing to trigger learning of the new word.…”

Section: Phonotactic Probability and Neighborhood Densitymentioning

confidence: 99%

The Effects of Phonotactic Probability and Neighborhood Density on Adults' Word Learning in Noisy Conditions

Han

Storkel

Lee

et al. 2016

Am J Speech Lang Pathol

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Purpose: Noisy conditions make auditory processing difficult. This study explores whether noisy conditions influence the effects of phonotactic probability (the likelihood of occurrence of a sound sequence) and neighborhood density (phonological similarity among words) on adults' word learning. Method: Fifty-eight adults learned nonwords varying in phonotactic probability and neighborhood density in either an unfavorable (0-dB signal-to-noise ratio [SNR]) or a favorable (+8-dB SNR) listening condition. Word learning was assessed using a picture naming task by scoring the proportion of phonemes named correctly. Results: The unfavorable 0-dB SNR condition showed a significant interaction between phonotactic probability and neighborhood density in the absence of main effects. In particular, adults learned more words when phonotactic probability and neighborhood density were both low or both high. The +8-dB SNR condition did not show this interaction. These results are inconsistent with those from a prior adult word learning study conducted under quiet listening conditions that showed main effects of word characteristics. Conclusions: As the listening condition worsens, adult word learning benefits from a convergence of phonotactic probability and neighborhood density. Clinical implications are discussed for potential populations who experience difficulty with auditory perception or processing, making them more vulnerable to noise.

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“…Learning new concepts and their words is not simply "additional knowledge" or learning a definition. Concept learning requires making ever more refined discriminations of ideas, actions, feelings, and objects; it necessitates "assimilating" (Piaget 1952), "integrating" (Kintsch 1988), "consolidating" (Hansson 1999), or "connecting" (Storkel 2009) the newly learned concept with prior knowledge, which might include inference, belief revision, or reorganizing existing cognitive schemata.…”

Section: Sternberg Et Almentioning

confidence: 99%

Contextual vocabulary acquisition: from algorithm to curriculum

Rapaport

Kibby

IEMC '03 Proceedings. Managing Technologically Driven Organizations: The Human Side of Innovation and Change (IEEE Cat. No.03CH

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Deliberate contextual vocabulary acquisition (CVA) is a reader's ability to figure out a (not the) meaning for an unknown word from its "context", without external sources of help such as dictionaries or people. The appropriate context for such CVA is the "belief-revised integration" of the reader's prior knowledge with the reader's "internalization" of the text. We discuss unwarranted assumptions behind some classic objections to CVA, and present and defend a computational theory of CVA that we have adapted to a new classroom curriculum designed to help students use CVA to improve their reading comprehension. Running head: Contextual Vocabulary Acquisition Keywords:Artificial Intelligence, Education, Linguistics, Philosophy; Instruction, Language acquisition, Language understanding, Learning, Reasoning, Semantics; Knowledge representation, Logic, Symbolic computational modeling. 2 A Computational Theory of Contextual Vocabulary AcquisitionReaders often don't-or don't want to-look up unfamiliar words "in the dictionary". Sometimes, they don't realize that a word is unfamiliar, reading past it as if it weren't there: Even "skilled readers" skip "about one-third of the words" (Brysbaert et al. 2005), and words that are highly likely to be chosen in a cloze task are skipped more than others (Rayner & Well 1996); paradoxically, "children may misread or ignore unfamiliar words without jeopardizing comprehension" (Bowey & Muller 2005, citing Share 1999. Other times, readers realize that they don't understand a word but are too lazy (or embarrassed) to do anything about it: Perhaps-discouraged by previous, unsuccessful attempts to look words up-they hope that the word isn't important and won't be used again.Or they might be curious as to what the unfamiliar word might mean, i.e., what the author had in mind when using it. If no one is around to ask, or if the only people around don't know the word, then the reader can look it up in "the" dictionary. But what if no dictionary is handy? Or the only one doesn't contain the word? Or it does, but the definition seems inappropriate for the context, or is unhelpful? With the exception of learner's dictionaries designed primarily for ESL readers, dictionaries are often difficult to use and their definitions difficult to interpret (Miller 1985(Miller , 1986Miller & Gildea 1985;Rapaport & Kibby 2007).Alternatively, readers can "figure it out" from the "context". We call this "contextual vocabulary acquisition" (CVA). Just as giving a person a fish feeds them for a day, but teaching them to fish feeds them for a lifetime, so giving a reader a definition tells them one word's meaning, but teaching them CVA enables them to become better readers. We make four principal claims: (1) If "[t]exts ... are ... the soil in which word-meaning understandings are grown" (Wieland 2008), then the reader's prior knowledge is the water enabling that growth. (2) A procedure for successful CVA can be expressed in terms so precise that it can be programmed into a computer and (3) taught to h...

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Developmental differences in the effects of phonological, lexical and semantic variables on word learning by infants

Cited by 130 publications

References 38 publications

Sentence-final word completion norms for European Portuguese children and adolescents

Sentence-final word completion norms for European Portuguese children and adolescents

The Effects of Phonotactic Probability and Neighborhood Density on Adults' Word Learning in Noisy Conditions

Contextual vocabulary acquisition: from algorithm to curriculum

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