Separate effects of word frequency and age of acquisition in recognition and recall.

Three experiments investigated word frequency and age of acquisition (AoA) effects in recognition and recall. Experiments 1 and 2 used the "remember-know" procedure developed by J. M. Gardiner (1988). In Experiment 1, recognition performance was higher for low-frequency words than for high-frequency words and higher for late-acquired words than for early-acquired words, but only in "remember" responses. Experiment 2 replicated the AoA effect by using a different set of early- and late-acquired words. Experiment 3 found advantages for low-frequency and late-acquired words in recall, but only when words were presented in mixed lists. The frequency effect was reversed, and the AoA effect was eliminated, when participants studied pure lists. Findings were attributed to the more distinctive encoding of low-frequency and late-acquired words. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

In search of perceptual influences of sentence context on word recognition.

A major issue in the study of word perception concerns the nature (perceptual or nonperceptual) of sentence context effects. The authors compared effects of legal, word replacement, nonword replacement, and transposed contexts on target word performance using the Reicher-Wheeler task to suppress nonperceptual influences of contextual and lexical constraint. Experiment 1 showed superior target word performance for legal (e.g., "it began to flap/flop") over all other contexts and for transposed over word replacement and nonword replacement contexts. Experiment 2 replicated these findings with higher constraint contexts (e.g., "the cellar is dark/dank") and Experiment 3 showed that strong constraint contexts improved performance for congruent (e.g., "born to be wild") but not incongruent (e.g., mild) target words. These findings support the view that the very perception of words can be enhanced when words are presented in legal sentence contexts. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Embedded words in visual word recognition: Does the left hemisphere see the rain in brain?

To examine whether interhemispheric transfer during foveal word recognition entails a discontinuity between the information presented to the left and right of fixation, we presented target words in such a way that participants fixated immediately left or right of an embedded word (as in gr*apple, bull*et) or in the middle of an embedded word (grapp*le, bu*llet). Categorization responses to target words were faster and more accurate in a congruent condition (in which the embedded word was associated with the same response; e.g., Does bullet refer to an item of clothing?) than in an incongruent condition (e.g., Does bullet refer to a type of animal?). However, the magnitude of this effect did not vary as a function of position of fixation, relative to the embedded word, as might be expected if information from the 2 visual fields was initially split over the cerebral hemispheres and integrated only late in the word identification process. Equivalent results were observed in Experiment 1 (long stimulus duration) and Experiment 2 (in which stimulus duration was 200 ms; i.e., less than the time required to initiate a refixation). (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Effects of alphabet-letter instruction on young children's word recognition.

This study examined the influence of letter-name instruction on beginning word recognition. Thirty-three preschool children from low-socioeconomic-status families participated in 16 weeks of letter-name or comprehension-focused instruction. After instruction, children's ability to learn 3 types of word spellings was examined: words phonetically spelled with letters children had been taught (e.g., BL for ball), words phonetically spelled with letters children had not been taught, and words with visually distinct letter spellings that were nonphonetic. Children who received letter-name instruction learned words phonetically spelled with letters included in instruction significantly better than other words. Children receiving comprehension instruction performed significantly better on visually distinct word spellings. Results demonstrate the beneficial effects of alphabet-letter instruction on beginning phonetic word recognition. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Distinctive features hold a privileged status in the computation of word meaning: Implications for theories of semantic memory.

The authors present data from 2 feature verification experiments designed to determine whether distinctive features have a privileged status in the computation of word meaning. They use an attractor-based connectionist model of semantic memory to derive predictions for the experiments. Contrary to central predictions of the conceptual structure account, but consistent with their own model, the authors present empirical evidence that distinctive features of both living and nonliving things do indeed have a privileged role in the computation of word meaning. The authors explain the mechanism through which these effects are produced in their model by presenting an analysis of the weight structure developed in the network during training. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Automatic vigilance for negative words in lexical decision and naming: Comment on Larsen, Mercer, and Balota (2006).

An automatic vigilance hypothesis states that humans preferentially attend to negative stimuli, and this attention to negative valence disrupts the processing of other stimulus properties. Thus, negative words typically elicit slower color naming, word naming, and lexical decisions than neutral or positive words. Larsen, Mercer, and Balota (see record 2006-04603-006) analyzed the stimuli from 32 published studies, and they found that word valence was confounded with several lexical factors known to affect word recognition. Indeed, with these lexical factors covaried out, Larsen et al. found no evidence of automatic vigilance. The authors report a more sensitive analysis of 1011 words. Results revealed a small but reliable valence effect, such that negative words (e.g., "shark") elicit slower lexical decisions and naming than positive words (e.g., "beach"). Moreover, the relation between valence and recognition was categorical rather than linear; the extremity of a word's valence did not affect its recognition. This valence effect was not attributable to word length, frequency, orthographic neighborhood size, contextual diversity, first phoneme, or arousal. Thus, the present analysis provides the most powerful demonstration of automatic vigilance to date. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Porcine carotid vascular effects of eletriptan (UK-116,044): a new 5-HT1B/1D receptor agonist with anti-migraine activity

Two experiments showed that having two incongruent words present on a single Stroop trial (e.g., both red and green in blue, say "blue") did not alter interference relative to having only one incongruent word. This was true whether the two incongruent words were presented successively at several stimulus onset asynchronies (Experiment 1) or simultaneously in adjacent positions (Experiment 2). We argue that the first word captures attention and "locks out" others, preventing additional interference.     

Fluent identification of repeated words.

We propose that fluent identification of a repeated word is based on a form of episodic memory for the context-specific interpretation applied during the word's initial processing episode. In a lexical decision paradigm, fluent responses to repeated words were associated with a change in decision bias rather than perceptual sensitivity. Repetition effects were reduced or eliminated when the context word accompanying a repeated homograph was changed so that a different meaning was implied. A context-sensitive repetition effect was also obtained when repeated homographs served as context words for nonrepeated targets, suggesting a role for integral processing of context and target. In a word naming paradigm, repetition effects showed a weaker and different form of context sensitivity and were obtained even when the initial presentation was auditory, did not require articulation, or involved a visually dissimilar letter string (e.g., krooze for cruise). These results are taken as support for an account of long-term repetition effects that emphasizes episodic memory for context-specific interpretations of a word. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

The Influence of the Phonological Characteristics of a Language on the Functional Units of Reading: A Study in French.

Taft (1992) reported results supporting the idea that the "Body of the BOSS" (BOB) is an important unit in the visual recognition of English polysyllabic words. "BOSS" refers to the orthographically-defined first syllable of a word (e.g., the lam of lament); "Body" refers to the part of that syllable which follows the initial consonant(s) (e.g., the am of lam). The primary evidence supporting this notion was that the pronunciation of an ambiguously pronounceable nonword could be biased by the pronunciation of a preceding word when they shared their BOB, but not when they shared their phonologically-defined first syllable. Three experiments were conducted in French, to examine whether the syllable dominates as a unit of orthographic representation when the language has a clear phonological syllable structure. To construct ambiguously pronounceable nonwords, upper case letters were used and the first syllable always contained an E, which could be pronounced either as é or e. Nonwords (e.g., MERANE) were preceded by an upper case version of a word sharing a BOB (e.g., feroce) or a first syllable (e.g., méduse). The pronunciation of the nonword's E was biased by the syllable and not by the BOB, implying that the syllable, but not the BOB, is a relevant structure in the processing of visually presented French words. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Automatic activation of phonological information in reading: evidence from the semantic relatedness decision task

A semantic relatedness decision task was used to investigate whether phonological recording occurs automatically and whether it mediates lexical access in visual word recognition and reading. In this task, subjects read a pair of words and decided whether they were related or unrelated in meaning. In Experiment 1, unrelated word-homophone pairs (e.g., LION-BARE) and their visual controls (e.g., LION-BEAN) as well as related word pairs (e.g., FISH-NET) were presented. Homophone pairs were more likely to be judged as related or more slowly rejected as unrelated than their control pairs, suggesting phonological access of word meanings. In Experiment 2, word-pseudohomophone pairs (e.g., TABLE-CHARE) and their visual controls (e.g., TABLE-CHARK) as well as related and unrelated word pairs were presented. Pseudohomophone pairs were more likely to be judged as related or more slowly rejected as unrelated than their control pairs, again suggesting automatic phonological recording in reading.     

Automatic access of semantic information by phonological codes in visual word recognition.

An important issue in reading research is the role of phonology in visual word recognition. This experiment demonstrated that naming time of a target word (e.g., nut) is facilitated more by a homophone of a semantic associate (e.g., beach) than by a visually similar control (e.g., bench). However, this priming effect from the homophone obtained only when the prime word was exposed for 50 msec and was followed by a pattern mask and not when it was exposed for 200 msec before the pattern mask. In contrast, the "appropriate" prime (e.g., beech) provided facilitation at both exposure durations. Because the priming was obtained with a stimulus onset asynchrony of 250 msec, these data provide support for G. C. Van Orden's (1987) verification model, which posits that meaning is accessed through the automatic activation of phonological information. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Evidence for the use of assembled phonology in accessing the meaning of printed words.

The role of assembled phonology in visual word recognition was investigated using a task in which participants judged whether 2 words (e.g., PILLOW–BEAD) were semantically related. Of primary interest was whether it would be more difficult to respond "no" to "false homophones" (e.g., BEAD) of words (BED) that are semantically related to target words than to orthographic controls (BEND). (BEAD is a false homophone of BED because –EAD can be pronounced /εd/.) In Experiment 1, there was an interference effect in the response time data, but not in the error data. These results were replicated in a 2nd experiment in which a parafoveal preview was provided for the 2nd word of the pair. A 3rd experiment ruled out explanations of the false homophone effect in terms of inconsistency in spelling-to-sound mappings or inadequate spelling knowledge. It is argued that assembled phonological representations activate meaning in visual word recognition. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Lexical and prelexical influences on word segmentation: Evidence from priming.

The authors examined the interaction of acoustic and lexical information in lexical access and segmentation. The cross-modal lexical priming technique was used to determine which word meanings listeners access at the offsets of oronyms (e.g., tulips or two lips) presented in connected speech. In Experiment 1, participants showed priming by the meaning of tulips when presented with two lips. In Experiment 2, priming by the meaning of the 2nd word was found in such sequences (e.g., lips in two lips). Finally, Experiment 3 demonstrated that listeners do not show priming by lips when it is pronounced as part of tulips. The results of these experiments show that listeners sometimes access words other than those intended by speakers and may simultaneously access words associated with several parses of ambiguous sequences. Furthermore, the results suggest that acoustic marking of word onsets places constraints on the success of lexical access. To account for these results, the authors propose a new model of lexical access and segmentation. (PsycINFO Database Record (c) 2011 APA, all rights reserved)     

Auditory registration without learning.

In 3 studies, the authors explore how repeated exposure to a spoken word affects memory for perceptual attributes associated with the word (such as a talker's voice or a word's plurality). Subjects heard a list of words; particular words were repeated differing numbers of times. At test, subjects estimated the frequency of each word, with instructions to give frequency judgments of "zero" to words with changed attributes. The experiments demonstrate that memory for perceptual attributes improves very little after the first few repetitions, although word memory continues to improve. The experiments extend the registration without learning effect (D. L. Hintzman, T. Curran, and B. Oppy, 1992) to auditory words, to complex attributes (voice), and to conditions of low and high stimulus variability (two or many voices). (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Evidence for distributivity effects in comprehension.

In the current article, we introduce a new methodology for detecting whether a word in a sentence is conceptually represented as plural and use it to shed light on a debate about whether comprehenders interpret singular indefinite noun phrases within a distributed predicate as plural during online reading. Experiment 1 extended a methodology previously used by Berent, Pinker, Tzelgov, Bibi, and Goldfarb (2005) to test individual words or word pairs by having readers judge, at a critical word, whether 1 or 2 words appeared on a computer screen while performing self-paced reading on a sentence presented in 1- and 2-word chunks. In line with Berent et al., Experiment 1 indicated that participants were slower to judge that 1 word was on the screen when the word was plural (e.g., cats) than when it was singular (e.g., cat). Experiment 2 used this paradigm to show that readers build different conceptual representations for distributed versus collective predicates and interpret a singular indefinite noun phrase within a distributed predicate as plural (e.g., Kaup, Kelter, & Habel, 2002; but cf. Filik, Paterson, & Liversedge, 2004; Paterson, Filik, & Liversedge, 2008). (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Word Learning and Individual Differences in Word Learning Reflected in Event-Related Potentials.

Adults learned the meanings of rare words (e.g., gloaming) and then made meaning judgments on pairs of words. The 1st word was a trained rare word, an untrained rare word, or an untrained familiar word. Event-related potentials distinguished trained rare words from both untrained rare and familiar words, first at 140 ms and again at 400-600 ms after onset of the 1st word. These results may point to an episodic memory effect. The 2nd word produced an N400 that distinguished trained and familiar word pairs that were related in meaning from unrelated word pairs. Skilled comprehenders learned more words than less skilled comprehenders and showed a stronger episodic memory effect at 400-600 ms on the 1st word and a stronger N400 effect on the 2nd word. These results suggest that superior word learning among skilled comprehenders may arise from a stronger episodic trace that includes orthographic and meaning information and illustrate, how an episodic theory of word identification can explain reading skill. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Encoding specificity revisited: The role of semantics.

Three experiments with undergraduates examined the effects of semantic characteristics of word pairs on memory using the encoding specificity paradigm. The paradigm involved four phases: (a) an encoding phase to relate cues and targets, (b) a phase in which words were generated to new cues, (c) a phase for recognition of generated targets, and (d) a cued-recall phase using the original encoding cues. Encoding pairs were classified a priori as either semantically similar (e.g., alluring PRETTY), semantically contrasting (e.g., drab-PRETTY) or semantically unrelated (e.g., sore-PRETTY) Generation pairs were classified a priori as either semantically similar (e.g., beautiful-PRETTY) or semantically contrasting (e.g., ugly-PRETTY). For recall, the results showed that both the semantic relation between the encoding cue and target and the reprovision of the encoding cue at retrieval were important factors. In the case of recognition, however, both the semantic congruence between the encoding and generation contexts and the amount of semantic elaboration provided by the encoding context were important factors. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Letter position information and printed word perception: The relative-position priming constraint.

Six experiments apply the masked priming paradigm to investigate how letter position information is computed during printed word perception. Primes formed by a subset of the target's letters facilitated target recognition as long as the relative position of letters was respected across prime and target (e.g., "arict" vs. "acirt" as primes for the target "apricot"). Priming effects were not influenced by whether or not absolute, length-dependent position was respected (e.g., "a-ric-t" vs. "arict"/"ar-i-ct"). Position of overlap of relative-position primes (e.g., apric-apricot; ricot-apricot; arict-apricot) was found to have little influence on the size of priming effects, particularly in conditions (i.e., 33 ms prime durations) where there was no evidence for phonological priming. The results constrain possible schemes for letter position coding. (PsycINFO Database Record (c) 2011 APA, all rights reserved)     

Eye movements when reading transposed text: The importance of word-beginning letters.

Participants' eye movements were recorded as they read sentences with words containing transposed adjacent letters. Transpositions were either external (e.g., problme, rpoblem) or internal (e.g., porblem, probelm) and at either the beginning (e.g., rpoblem, porblem) or end (e.g., problme, probelm) of words. The results showed disruption for words with transposed letters compared to the normal baseline condition, and the greatest disruption was observed for word-initial transpositions. In Experiment 1, transpositions within low frequency words led to longer reading times than when letters were transposed within high frequency words. Experiment 2 demonstrated that the position of word-initial letters is most critical even when parafoveal preview of words to the right of fixation is unavailable. The findings have important implications for the roles of different letter positions in word recognition and the effects of parafoveal preview on word recognition processes. (PsycINFO Database Record (c) 2010 APA, all rights reserved)