Not all conceivable grammars are realized within human languages. Rules based on rigid distances, in which a certain word must occur at a fixed distance from another word, are never found in grammars of human languages. Distances between words are specified in terms of relative, non-rigid positions. The left inferior frontal gyrus (IFG) (Broca's area) has been found to be involved in the computation of non-rigid but not of rigid syntax in the language domain. A fundamental question is therefore whether the neural activity underlying this non-rigid architecture is language-specific, given that analogous structural properties can be found in other cognitive domains. Using event-related functional magnetic resonance imaging (fMRI) in sixteen healthy native speakers of Italian, we measured brain activity for the acquisition of rigid and non-rigid syntax in the visuo-spatial domain. The data of the present experiment were formally compared with those of a previous experiment, in which there was a symmetrical distinction between rigid and non-rigid syntax in the language domain. Both in the visuo-spatial and in the language domain, the acquisition of non-rigid syntax, but not the acquisition of rigid syntax, activated Brodmann Area 44 of the left IFG. This domain-independent effect was specifically modulated by performance improvement. Thus, in the human brain, one single "grammar without words" serves different higher cognitive functions.

Tettamanti, M., Rotondi, I., Perani, D., Scotti, G., Fazio, F., Cappa, S., et al. (2009). Syntax without language: Neurobiological evidence for cross-domain syntactic computations. CORTEX, 45(7), 825-838 [10.1016/j.cortex.2008.11.014].

Syntax without language: Neurobiological evidence for cross-domain syntactic computations

Tettamanti, M
;
FAZIO, FERRUCCIO;
2009

Abstract

Not all conceivable grammars are realized within human languages. Rules based on rigid distances, in which a certain word must occur at a fixed distance from another word, are never found in grammars of human languages. Distances between words are specified in terms of relative, non-rigid positions. The left inferior frontal gyrus (IFG) (Broca's area) has been found to be involved in the computation of non-rigid but not of rigid syntax in the language domain. A fundamental question is therefore whether the neural activity underlying this non-rigid architecture is language-specific, given that analogous structural properties can be found in other cognitive domains. Using event-related functional magnetic resonance imaging (fMRI) in sixteen healthy native speakers of Italian, we measured brain activity for the acquisition of rigid and non-rigid syntax in the visuo-spatial domain. The data of the present experiment were formally compared with those of a previous experiment, in which there was a symmetrical distinction between rigid and non-rigid syntax in the language domain. Both in the visuo-spatial and in the language domain, the acquisition of non-rigid syntax, but not the acquisition of rigid syntax, activated Brodmann Area 44 of the left IFG. This domain-independent effect was specifically modulated by performance improvement. Thus, in the human brain, one single "grammar without words" serves different higher cognitive functions.
Articolo in rivista - Articolo scientifico
Broca's area; fMRI; Hierarchical; Syntactic; Visuo-spatial;
English
2009
45
7
825
838
none
Tettamanti, M., Rotondi, I., Perani, D., Scotti, G., Fazio, F., Cappa, S., et al. (2009). Syntax without language: Neurobiological evidence for cross-domain syntactic computations. CORTEX, 45(7), 825-838 [10.1016/j.cortex.2008.11.014].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/26331
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