Unificazione, rappresentazione e linguaggio: l’area di Broca nei processi cognitivi complessi

  • Caterina Scianna
Parole chiave: Broca’s area, cognitive control, language, event-related potentials, semantic unification

Abstract

Human language is a cognitive technology, a biological constraint that structures the entire cognition. The syntactic-semantic processes work under unification principles in which linguistic and pragmatic information, coming from world’s knowledge, are treated in parallel. To understand a language means a kind of know-how, to acquire a specific competence within a social contest.

According to recent studies, Broca’s area functions as the morphological interrelation of multimodal unification and involves operations of unification (merge) that concern world’s knowledge, semantic information and speaker’s feature. The data show that Broca’s area, previously conceived as syntax’s module, is indeed a processor of complex cognitive competence. Broca’s area does not deal only to linguistic operation, but represents the reality, unifying linguistic (syntactic, semantic and pragmatic) and non linguistic components. Broca’s area regulates cognitive control, selecting the exact representation for the execution of specific tasks. The cognitive control regulates attention and action for specific goals.

How is it possible that a linguistic area governs a central function of cognition? We propose that the multiple-functionality of Broca’s area is connected with its evolutionary story: this part of the neocortex is involved in different functional networks, structures strongly related to each other, that during evolution were subjected to exaptation. The central computational components of human language originally concerned non linguistic functions, like hierarchic and motor planning, non verbal thinking and spatial reasoning. Broca’s area blends pre-existent conceptual units (action, vocalization and visual representation) to create a discrete continuity of amodals cognitive structures

Riferimenti bibliografici

BOECKX, Cedric (2011), Some reflections on Darwin’s Problem in the context of Cartesian biolinguistics, in DI SCIULLO Anna Maria, BOECKX Cedric (a cura), The biolinguistics enterprise. New perspectives on the evolution and nature of the human language faculty, Oxford University Press, New York, pp. 42-64.

CHOMSKY, Noam (2001), La grammatica trasformazionale, Torino, Bollati Boringhieri.

CHOMSKY, Noam (1995), The Minimalist Program, The MIT Press, Cambridge (Mass.)-London.

DE VINCENZI, M., DI MATTEO, R. (2004), Come il cervello comprende il linguaggio, Laterza, Roma-Bari.

FEDORENKO, Evelina (2014), «The role of domain-general cognitive control in language comprehension», in Frontiers in psychology, n. 5 (335), pp. 1-17.

FEDORENKO, Evelina, DUNCAN, John, KANWISHER, Nancy (2012), «Language-selective and domain-general regions lie side by side within Broca’s area», in Current biology, n. 22, pp. 2059-2062.

FEDORENKO, Evelina, THOMPSON-SCHILL, Sharon L. (2014), «Reworking the language network», in Trends in cognitive sciences, n. 18 (3), pp. 120-126.

FITCH, Tecumseh W. (2011), «The evolution of syntax. An exaptationist perspective», in Frontiers in evolutionary neuroscience, n. 3, pp. 1-12.

FREGE, Gottlob (1892), Über Sinn und Bedeutung, trad. it. Senso e Significato in CASALEGNO, Paolo, FRASCOLLA, Pasquale, IACONA, Andrea, PAGANINI, Elisa, SANTAMBROGIO, Marco (a cura), Filosofia del linguaggio, Raffaello Cortina, Milano, 2003, pp. 15-41.

FRIEDERICI, Angela D. (2002), «Towards a neural basis of auditory sentence processing», in Trends in Cognitive Sciences, n. 6, pp. 78-84.

FRIEDERICI, Angela D. (2004), «Processing local transition versus long-distance syntactic hierarchies», in Trends in cognitive sciences, n. 8, pp. 245-247.

FRIEDERICI, Angela D. (2006), The neural basis of sentence processing: Inferior frontal and temporal contributions, in GRODZINSKY Yoseph, AMUNTS Katrin (a cura), Broca’s region, Oxford University Press, Oxford, pp. 196-217.

FRIEDERICI, Angela D. (2009), The brain differentiates hierarchical and probabilistic grammars, in PIATTELLI PALMARINI, Massimo, URIAGEREKA, Juan, SALABARU, Pello (a cura), Of Minds & language. A dialogue with Noam Chomsky in the Basque Country, Oxford University Press, Oxford, pp. 184-194.

FRIEDERICI, Angela D., RUSCHEMEYER, Shirley-Ann, HAHNE, Anja, FIEBACH, Christian J. (2003), «The role of left inferior frontal and superior temporal cortex in sentence comprehension: localizing syntactic and semantic processes», in Cerebral cortex, n. 13, pp. 170-177.

FRIEDERICI Angela D., BAHLMANN Jorg, FRIEDRICH Roland, MAKUUCHI Michiru (2011), «The neural basis of recursion and complex syntactic hierarchy», in Biolinguistics, n. 5, pp. 87-104.

GRODZINSKY, Yoseph (2000), «The neurology of syntax: Language use without Broca’s area», in Behavioral and brain sciences, n. 23, pp. 1-71.

GRODZINSKY, Yoseph, AMUNTS Katrin (2006), a cura di, Broca’s region, Oxford University Press, Oxford.

HAGOORT, Peter (2003), «How the brain solves the binding problem for language: a neurocomputational model for syntactic processing», in Neuroimage, n. 20, pp. 18-29.

HAGOORT, Peter (2005), «On Broca, brain and binding: a new framework», in Trends in cognitive sciences, n. 9, pp. 416-423.

HAGOORT, Peter (2009), Reflections on the neurobiology of syntax, in BICKERTON Derek, SZATHMARY, Eors (a cura), Biological foundations and origin of syntax, The MIT Press, Cambridge-London, pp. 279-296.

HAGOORT, Peter, BERKUM, Jos (2007), «Beyond the sentence given», in Philosophical transaction of the royal society B, n. 362, pp. 801-811.

HAGOORT, Peter, HALD, Lea, BASTIAANSEN, Marcel, PETTERSON, Karl Magnus (2004), «Integration of word meaning and world knowledge in language comprehension», in Science, n. 304, pp. 438-441.

HAUSER, Marc D., CHOMSKY, Noam, FITCH, Tecumseh W. (2002) «The faculty of language: What is it, who has it, and how did it evolve?», in Science, n. 298, pp.1569-1579.

JACKENDOFF, Ray (2002), Foundations of language. Brain, meaning, grammar, evolution, Oxford University Press, New York.

JACKENDOFF, Ray (2007), «A parallel architecture perspective on language processing», in Brain research, n. 1146, pp. 2-22.

JANUARY David, TRUESWELL John C., THOMPSON-SCHILL Sharon L. (2009), «Co-localization of Stroop and syntactic ambiguity resolution in Broca’s area: Implications for the neural basis of sentence processing», in Journal of cognitive neuroscience, n. 21 (12), pp. 2434-44.

KOS, Miriam, VOSSE Theo, VAN DEN BRINK Danielle, HAGOORT Peter (2010), «About edible restaurants: conflicts between syntax and semantic as revealed by ERPs», in Frontiers in Psychology, n. 1, pp. 222 doi 10.3389.

MENENTI, Laura PETERSSON, Karl Magnus, SCHEERINGA, Renè, HAGOORT, Peter (2008), «When elephants fly: differential sensitivity of right and left inferior frontal gyri to discourse and world knowledge», in Journal of cognitive neuroscience, 21 (12), pp. 2358-2368.

NOVICK Jared M., TRUESWELL John C., THOMPSON-SCHILL Sharon L. (2005), «Cognitive control and parsing: reexamining the role of Broca’s area in sentence comprehension», in Cognitive, affective & behavioral neuroscience, n. 5, pp. 263-281.

NOVICK Jared M., TRUESWELL John C., THOMPSON-SCHILL Sharon L. (2010), «Broca’s area and language processing: Evidence for the cognitive control connection», in Language and linguistics Compass, n. 4 (10), pp. 906-924.

PENNISI, A., FALZONE, A. (2010), Il prezzo del linguaggio: Evoluzione ed estinzione nelle scienze cognitive, Il Mulino, Bologna.

YE Zheng, ZHOU Xiaolin (2009), «Executive control in language processing», in Neuroscience and behavioral reviews, n. 33, pp. 1168-1177.

Pubblicato
2015-09-29
Come citare
Scianna, C. (2015) «Unificazione, rappresentazione e linguaggio: l’area di Broca nei processi cognitivi complessi», Rivista Italiana di Filosofia del Linguaggio, 0(2). Available at: http://160.97.104.70/index.php/rifl/article/view/306 (Consultato: 23novembre2024).