TY - JOUR
T1 - An fMRI study of syntactic layers
T2 - Sentential and lexical aspects of embedding
AU - Shetreet, Einat
AU - Friedmann, Naama
AU - Hadar, Uri
PY - 2009/12
Y1 - 2009/12
N2 - Sentences with embedding are more complex than sentences without embedding, because they contain more syntactic layers in their phrasal architecture. Until now, neuroimaging studies tested embedded sentences that also included syntactic movement. To explore which cortical areas are specifically involved in the processing of syntactic layers, we used embedded sentences that did not include syntactic movement. We compared sentences in which the verb was complemented with an embedded sentence (CP complement) to sentences with noun phrase (NP) complements. The comparison of sentences with and without embedding revealed activations in the left IFG, bilateral temporo-parietal cortices, bilateral MTG, and precuneus. We further examined the effect of embedding at the lexical level. For this, we tested whether verbs that can select CP complements, namely, whose lexical entry includes a CP option, are more complex than verbs that do not select CP complements, even when both verb types appeared in sentences without embedding. The comparison of verbs that can take CP complements with verbs that can take NP complements, when these verbs appeared with prepositional phrase complements, revealed activations in bilateral anterior MTG and precuneus, showing that embedding also affects processing at the lexical level. The results thus show that sentential embedding, even without syntactic movement, loads onto several cortical resources including the left IFG, indicating that the generation of syntactic layers is cognitively costly, and that embedding affects processing at both the sentence and the lexical levels.
AB - Sentences with embedding are more complex than sentences without embedding, because they contain more syntactic layers in their phrasal architecture. Until now, neuroimaging studies tested embedded sentences that also included syntactic movement. To explore which cortical areas are specifically involved in the processing of syntactic layers, we used embedded sentences that did not include syntactic movement. We compared sentences in which the verb was complemented with an embedded sentence (CP complement) to sentences with noun phrase (NP) complements. The comparison of sentences with and without embedding revealed activations in the left IFG, bilateral temporo-parietal cortices, bilateral MTG, and precuneus. We further examined the effect of embedding at the lexical level. For this, we tested whether verbs that can select CP complements, namely, whose lexical entry includes a CP option, are more complex than verbs that do not select CP complements, even when both verb types appeared in sentences without embedding. The comparison of verbs that can take CP complements with verbs that can take NP complements, when these verbs appeared with prepositional phrase complements, revealed activations in bilateral anterior MTG and precuneus, showing that embedding also affects processing at the lexical level. The results thus show that sentential embedding, even without syntactic movement, loads onto several cortical resources including the left IFG, indicating that the generation of syntactic layers is cognitively costly, and that embedding affects processing at both the sentence and the lexical levels.
KW - Embedding
KW - Hebrew
KW - Lexicon
KW - MTG
KW - Neurolinguistics
KW - Precuneus
KW - Syntax
UR - http://www.scopus.com/inward/record.url?scp=69049101859&partnerID=8YFLogxK
U2 - 10.1016/j.neuroimage.2009.07.001
DO - 10.1016/j.neuroimage.2009.07.001
M3 - Article
C2 - 19595775
AN - SCOPUS:69049101859
SN - 1053-8119
VL - 48
SP - 707
EP - 716
JO - NeuroImage
JF - NeuroImage
IS - 4
ER -