Abstract
Semantic composition, the ability to combine single words to form complex meanings, is a core feature of human language. Despite growing interest in the basis of semantic composition, the neural correlates and the interaction of regions within this network remain a matter of debate. We designed a well-controlled two-word fMRI paradigm in which phrases only differed along the semantic dimension while keeping syntactic information alike. Healthy participants listened to meaningful (“fresh apple”), anomalous (“awake apple”) and pseudoword phrases (“awake gufel”) while performing an implicit and an explicit semantic task. We identified neural signatures for distinct processes during basic semantic composition. When lexical information is kept constant across conditions and the evaluation of phrasal plausibility is examined (meaningful vs. anomalous phrases), a small set of mostly left-hemispheric semantic regions, including the anterior part of the left angular gyrus, is found active. Conversely, when the load of lexical information—independently of phrasal plausibility—is varied (meaningful or anomalous vs. pseudoword phrases), conceptual combination involves a wide-spread left-hemispheric network comprising executive semantic control regions and general conceptual representation regions. Within this network, the functional coupling between the left anterior inferior frontal gyrus, the bilateral pre-supplementary motor area and the posterior angular gyrus specifically increases for meaningful phrases relative to pseudoword phrases. Stronger effects in the explicit task further suggest task-dependent neural recruitment. Overall, we provide a separation between distinct nodes of the semantic network, whose functional contributions depend on the type of compositional process under analysis.
Highlights
One of the core features of human language is the ability to combine single words into complex phrases
General phrasal composition engages a large semantic network in the left hemisphere In line with previous research, we found recruitment of left angular gyrus (AG), anterior inferior frontal gyrus (aIFG) and anterior temporal lobe (ATL), along with other classical regions of the semantic network and righthemispheric motor regions for the contrast of meaningful versus pseudoword phrases in the explicit task
We identified distinct neural signatures for two processes during explicit basic semantic composition: A meaningful composition process, strongly dependent on the resulting plausibility and a general phrasal composition process, which is independent of the plausibility of the resulting phrase
Summary
One of the core features of human language is the ability to combine single words into complex phrases. Semantic knowledge helps us to make sense of words and semantic composition processes drive the way we combine individual meanings into more composite ones. Brain Structure and Function (2021) 226:501–518 phrases to tackle semantic composition in more controlled linguistic constructions (Pylkkänen 2019). Several studies report recruitment of the left (and sometimes right) AG for two-word phrases relative to single words (Bemis and Pylkkänen 2013b), meaningful as compared to meaningless adjective-noun phrases (Graves et al 2010; Molinaro et al 2015; Price et al 2015) and for tracking thematic relations between words (Boylan et al 2015, 2017; Lewis et al 2018). That in an alternative account, the AG is interpreted to belong to the default mode network (DMN) and its contribution to semantic tasks may reflect less deactivation for easier task conditions (Humphreys et al 2015; Lambon Ralph et al 2016)
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