Abstract
In language, stored semantic representations of lexical items combine into an infinitude of complex expressions. While the neuroscience of composition has begun to mature, we do not yet understand how the stored representations evolve and morph during composition. New decoding techniques allow us to crack open this very hard question: we can train a model to recognize a representation in one context or time-point and assess its accuracy in another. We combined the decoding approach with magnetoencephalography recorded during a picture naming task to investigate the temporal evolution of noun and adjective representations during speech planning. We tracked semantic representations as they combined into simple two-word phrases, using single words and two-word lists as non-combinatory controls. We found that nouns were generally more decodable than adjectives, suggesting that noun representations were stronger and/or more consistent across trials than those of adjectives. When training and testing across contexts and times, the representations of isolated nouns were recoverable when those nouns were embedded in phrases, but not so if they were embedded in lists. Adjective representations did not show a similar consistency across isolated and phrasal contexts. Noun representations in phrases also sustained over time in a way that was not observed for any other pairing of word class and context. These findings offer a new window into the temporal evolution and context sensitivity of word representations during composition, revealing a clear asymmetry between adjectives and nouns. The impact of phrasal contexts on the decodability of nouns may be due to the nouns' status as head of phrase-an intriguing hypothesis for future research.
Highlights
What is the relationship between the neural representation of a single word, occurring in isolation, and the representation of that same word in a combinatory context? In natural language, context can morph word meanings in many ways
How does a simple combinatory context affect the neural representation of a word? Are adjectives and nouns planned in symmetric fashion during language production, or do these word types elicit different activation time courses when measured with a decoding approach? Our study yielded three major findings
We used Temporal generalization matrices (TGMs) to evaluate the temporal evolution of specific semantic representations
Summary
What is the relationship between the neural representation of a single word, occurring in isolation, and the representation of that same word in a combinatory context? In natural language, context can morph word meanings in many ways. One of the most obvious ways is via disambiguation: for example, in the phrase ‘term paper,’ ‘term’ means semester and ‘paper’ means ‘piece of writing’ even though both of these words have many other uses as well. The neural representations of ‘term’ and ‘paper’ may differ robustly depending on the context. This study uses a decoding approach to address the general question of how combinatory contexts affect the neural representations of word meanings. Our combinatory contexts were all noun phrases comprised of a coloradjective and an object-describing noun, such as ‘blue cup.’. This type of composition has been studied extensively with time-sensitive magnetoencephalography (MEG), with results implicating the left anterior temporal lobe and the ventromedial prefrontal cortex as relatively stable correlates of composition [1] Our combinatory contexts were all noun phrases comprised of a coloradjective and an object-describing noun, such as ‘blue cup.’ This type of composition has been studied extensively with time-sensitive magnetoencephalography (MEG), with results implicating the left anterior temporal lobe and the ventromedial prefrontal cortex as relatively stable correlates of composition [1]
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