The processing of different syntactic structures: fMRI investigation of the linguistic distinction between wh-movement and verb movement

Abstract Word order variation is a core property of sentence construction in natural languages and has been one of the most extensively studied issues in linguistics and cognitive science. In Hebrew, like in English, the basic word order is Subject–Verb–Object (SVO), but other orders, such as OSV or VSO, are also possible. According to generative syntactic theory, OSV and VSO are derived from the basic SVO order by two different types of syntactic movement: wh -movement, which moves the object to the beginning of the sentence, and verb movement, which moves the verb to a pre-subject position. Using sets of minimally-different sentences, containing the same words in different orders, we investigated the cortical activations related to the processing of these movement types. For wh -movement, we compared OSV and SVO sentences; like earlier studies of wh -movement, we found activations in the left IFG and bilateral posterior temporal regions. Activations related to verb movement were obtained through the comparison of VSO and SVO sentences, which showed activation in the left inferior occipital gyrus. Furthermore, an ROI analysis of regions that were active in the wh -movement contrast showed no difference between VSO and SVO conditions. This is the first fMRI study to compare wh -movement and verb movement, and the first to test verb movement in comprehension. The findings indicate that the different syntactic analyses assumed by linguistic theory for different word orders are reflected in differential brain activations, lending support for the generative theory of syntactic movement and the distinction between wh -movement and verb movement.

[1]  Kuniyoshi L Sakai,et al.  Learning letters in adulthood: direct visualization of cortical plasticity for forming a new link between orthography and phonology. , 2004, Neuron.

[2]  Naama Friedmann,et al.  The representation of lexical-syntactic information: Evidence from syntactic and lexical retrieval impairments in aphasia , 2012, Cortex.

[3]  T. Hendler,et al.  The Neural Reality of Syntactic Transformations , 2003, Psychological science.

[4]  L. Tan,et al.  Functional anatomy of syntactic and semantic processing in language comprehension , 2002, Human brain mapping.

[5]  I. Meulen,et al.  Syntactic movement and comprehension deficits in Broca's aphasia , 2004 .

[6]  Naama Friedmann,et al.  Question production in Dutch agrammatism , 2004, Brain and Language.

[7]  Herman H.J. Kolk,et al.  Agrammatism, paragrammatism and the management of language , 1992 .

[8]  Bernard Mazoyer,et al.  Meta-analyzing left hemisphere language areas: Phonology, semantics, and sentence processing , 2006, NeuroImage.

[9]  L. Lonzi,et al.  Relevance of Adverb Distribution for the Analysis of Sentence Representation in Agrammatic Patients , 1993, Brain and Language.

[10]  Paul C. Locasto,et al.  A systematic investigation of the functional neuroanatomy of auditory and visual phonological processing , 2005, NeuroImage.

[11]  Naama Friedmann Generalizations on variations in comprehension and production: A further source of variation and a possible account , 2006, Brain and Language.

[12]  Phillip J. Holcomb,et al.  Making sense of discourse: An fMRI study of causal inferencing across sentences , 2006, NeuroImage.

[13]  N. Friedmann,et al.  Acquisition of SV and VS Order in Hebrew, European Portuguese, Palestinian Arabic, and Spanish , 2011 .

[14]  T. Marinis,et al.  On-line processing of wh-questions in children with G-SLI and typically developing children. , 2007, International journal of language & communication disorders.

[15]  A Wingfield,et al.  The allocation of memory resources during sentence comprehension: Evidence from the elderly , 1995, Journal of psycholinguistic research.

[16]  Y. Grodzinsky The neurology of syntax: Language use without Broca's area , 2000, Behavioral and Brain Sciences.

[17]  Shlomo Vinker,et al.  Verb Movement and Expletive Subjects in the Germanic Languages , 1995 .

[18]  Morten H. Christiansen,et al.  Processing of relative clauses is made easier by frequency of occurrence , 2007 .

[19]  Y. Grodzinsky,et al.  The Neurology of Empty Categories: Aphasics' Failure to Detect Ungrammaticality , 1998, Journal of Cognitive Neuroscience.

[20]  Celia Jakubowicz,et al.  Measuring derivational complexity: New evidence from typically developing and SLI learners of L1 French , 2011 .

[21]  Laurie A. Stowe,et al.  Neural correlates of Dutch Verb Second in speech production , 2008, Brain and Language.

[22]  John Hale,et al.  A Probabilistic Earley Parser as a Psycholinguistic Model , 2001, NAACL.

[23]  M. Schwartz,et al.  The word order problem in agrammatism I. Comprehension , 1980, Brain and Language.

[24]  Y. Grodzinsky,et al.  Taxing working memory with syntax: Bihemispheric modulations , 2007, Human brain mapping.

[25]  G. Waters,et al.  Vascular responses to syntactic processing: Event‐related fMRI study of relative clauses , 2002, Human brain mapping.

[26]  Birgit Wesche,et al.  Verb Order and Head Movement , 1991, Text Understanding in LILOG.

[27]  R. Levy Expectation-based syntactic comprehension , 2008, Cognition.

[28]  Richard L. Lewis,et al.  Computational principles of working memory in sentence comprehension , 2006, Trends in Cognitive Sciences.

[29]  Naama Friedmann,et al.  Cortical representation of verbs with optional complements: The theoretical contribution of fMRI , 2009, Human brain mapping.

[30]  P. Fox,et al.  Neuroanatomical correlates of phonological processing of Chinese characters and alphabetic words: A meta‐analysis , 2005, Human brain mapping.

[31]  Naama Friedmann,et al.  Sentence comprehension and working memory limitation in aphasia: A dissociation between semantic-syntactic and phonological reactivation , 2003, Brain and Language.

[32]  R. Bastiaanse,et al.  On the Relation between Verb Inflection and Verb Position in Dutch Agrammatic Aphasics , 1998, Brain and Language.

[33]  H. Lyytinen,et al.  Brain sensitivity to print emerges when children learn letter–speech sound correspondences , 2010, Proceedings of the National Academy of Sciences.

[34]  E. Zurif,et al.  The Critical Role of Group Studies in Neuropsychology: Comprehension Regularities in Broca's Aphasia , 1999, Brain and Language.

[35]  J. Gee,et al.  Neural basis for sentence comprehension: Grammatical and short‐term memory components , 2002, Human brain mapping.

[36]  D Swinney,et al.  The role of structure in coreference assignment during sentence comprehension , 1989, Journal of psycholinguistic research.

[37]  Ur Shlonsky,et al.  Verb second in Hebrew , 1992 .

[38]  Ad Neeleman,et al.  Scrambling and the PF Interface , 1997 .

[39]  Steven L. Miller,et al.  Neural deficits in children with dyslexia ameliorated by behavioral remediation: Evidence from functional MRI , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[40]  Y. Grodzinsky A Restrictive Theory of Agrammatic Comprehension , 1995, Brain and Language.

[41]  Naama Friedmann,et al.  The production of relative clauses in syntactic SLI: A window to the nature of the impairment , 2006 .

[42]  N Friedmann,et al.  Agrammatism and the Psychological Reality of the Syntactic Tree , 2001, Journal of psycholinguistic research.

[43]  Naama Friedmann,et al.  Is the movement deficit in syntactic SLI related to traces or to thematic role transfer? , 2007, Brain and Language.

[44]  C. Marshall,et al.  Who did Buzz see someone? Grammaticality judgement of wh-questions in typically developing children and children with Grammatical-SLI , 2011, Lingua. International review of general linguistics. Revue internationale de linguistique generale.

[45]  Ivan A. Sag,et al.  Book Reviews: Head-driven Phrase Structure Grammar and German in Head-driven Phrase-structure Grammar , 1996, CL.

[46]  Yosef Grodzinsky,et al.  Sensitivity to grammatical structure in agrammatic aphasics: A reply to Linebarger, Schwartz and Saffran , 1983, Cognition.

[47]  A. Mechelli,et al.  Reading and reading disturbance , 2005, Current Opinion in Neurobiology.

[48]  G. Hickok,et al.  Modularity in locating Wh-gaps , 1992, Journal of Psycholinguistic Research.

[49]  S. Petersen,et al.  Activation of extrastriate and frontal cortical areas by visual words and word-like stimuli. , 1990, Science.

[50]  N. Friedmann,et al.  Subtypes of Sli: Sysli, Phosli, Lesli, and Prasli Naama Friedmann and Rama Novogrodsky , 2008 .

[51]  L. Shah,et al.  Functional magnetic resonance imaging. , 2010, Seminars in roentgenology.

[52]  F. Rösler,et al.  Brain Activation Modulated by the Comprehension of Normal and Pseudo-word Sentences of Different Processing Demands: A Functional Magnetic Resonance Imaging Study , 2002, NeuroImage.

[53]  R. Bastiaanse,et al.  Verb Movement in Acquisition and Aphasia: Same Problem, Different Solutions—Evidence from Dutch , 2001, Brain and Language.

[54]  Edward Gibson,et al.  Consequences of the Serial Nature of Linguistic Input for Sentenial Complexity , 2005, Cogn. Sci..

[55]  Myrna F. Schwartz,et al.  Sensitivity to grammatical structure in so-called agrammatic aphasics , 1983, Cognition.

[56]  Frank Burchert,et al.  Unambiguous generalization effects after treatment of non-canonical sentence production in German agrammatism , 2008, Brain and Language.

[57]  Naama Friedmann,et al.  Moving verbs in agrammatic production , 2000 .

[58]  Karl J. Friston,et al.  Statistical parametric maps in functional imaging: A general linear approach , 1994 .

[59]  Naama Friedmann,et al.  Speech production in broca's agrammatic aphasia: Syntactic tree pruning , 2009 .

[60]  D. Swinney,et al.  The Effects of Focal Brain Damage on Sentence Processing: an examination of the neurological organization of a mental module , 1989, Journal of Cognitive Neuroscience.

[61]  Naama Friedmann,et al.  Question Production in Agrammatism: The Tree Pruning Hypothesis , 2002, Brain and Language.

[62]  Y. Grodzinsky,et al.  The battle for Broca’s region , 2008, Trends in Cognitive Sciences.

[63]  William W. Graves,et al.  Where is the semantic system? A critical review and meta-analysis of 120 functional neuroimaging studies. , 2009, Cerebral cortex.

[64]  Douglas C. Noll,et al.  Different Neural Circuits Subserve Reading before and after Therapy for Acquired Dyslexia , 1998, Brain and Language.

[65]  K. Tsapkini,et al.  Exploring wh-questions in agrammatism: Evidence from Greek , 2010, Journal of Neurolinguistics.

[66]  N. Friedmann,et al.  Do people with agrammatic aphasia understand verb movement? , 2006 .

[67]  R. Gur,et al.  Telling truth from lie in individual subjects with fast event‐related fMRI , 2005, Human brain mapping.

[68]  Sheila E. Blumstein,et al.  Semantic processing in aphasia: Evidence from an auditory lexical decision task , 1982, Brain and Language.

[69]  N. Alpert,et al.  Localization of Syntactic Comprehension by Positron Emission Tomography , 1996, Brain and Language.

[70]  Ian Roberts,et al.  Agreement and Head Movement , 2010 .

[71]  N. Friedmann,et al.  Which questions are most difficult to understand?: The comprehension of Wh questions in three subtypes of SLI , 2011 .

[72]  M. Mesulam,et al.  From sensation to cognition. , 1998, Brain : a journal of neurology.

[73]  A. Caramazza,et al.  Dissociation of algorithmic and heuristic processes in language comprehension: Evidence from aphasia , 1976, Brain and Language.

[74]  Edgar Zurif,et al.  THE NEUROPSYCHOLOGY OF LANGUAGE , 1994 .

[75]  Carlo Cecchetto,et al.  Introduction to Government and Binding Theory , 1996 .

[76]  Andrea Mechelli,et al.  More than words: a common neural basis for reading and naming deficits in developmental dyslexia? , 2004, Brain : a journal of neurology.

[77]  Naama Friedmann,et al.  Cortical representation of verb processing in sentence comprehension: number of complements, subcategorization, and thematic frames. , 2007, Cerebral cortex.

[78]  K. Ballard,et al.  Agrammatic Aphasic Subjects' Comprehension of Subject and Object ExtractedWhQuestions , 1999, Brain and Language.

[79]  S. Kuriki,et al.  Neural processing of words in the human extrastriate visual cortex. , 1998, Brain research. Cognitive brain research.

[80]  Stephen M. Rao,et al.  Human Brain Language Areas Identified by Functional Magnetic Resonance Imaging , 1997, The Journal of Neuroscience.

[81]  W D Gaillard,et al.  fMRI identifies regional specialization of neural networks for reading in young children , 2003, Neurology.

[82]  Anne Castles,et al.  John Marshall and the developmental dyslexias , 2006 .

[83]  Yosef Grodzinsky,et al.  Neuroimaging of syntax and syntactic processing , 2006, Current Opinion in Neurobiology.

[84]  J. Haxby,et al.  Attribute-based neural substrates in temporal cortex for perceiving and knowing about objects , 1999, Nature Neuroscience.

[85]  G. Waters,et al.  PET Studies of Syntactic Processing with Auditory Sentence Presentation , 1999, NeuroImage.

[86]  Martin J. Pickering,et al.  Context effects in coercion: Evidence from eye movements , 2005 .

[87]  Jeremy Hartman,et al.  The Semantic Uniformity of Traces: Evidence from Ellipsis Parallelism , 2011, Linguistic Inquiry.

[88]  Michael T. Wescoat,et al.  Proceedings of the West Coast Conference on Formal Linguistics , 1983 .

[89]  Jie Jian,et al.  Neural deficits in second language reading: fMRI evidence from Chinese children with English reading impairment , 2011, NeuroImage.

[90]  Y. Grodzinsky Theoretical perspectives on language deficits , 1990 .

[91]  H. Ackermann,et al.  Cerebral processing of linguistic and emotional prosody: fMRI studies. , 2006, Progress in brain research.

[92]  P. Skudlarski,et al.  Development of left occipitotemporal systems for skilled reading in children after a phonologically- based intervention , 2004, Biological Psychiatry.

[93]  Ton Dijkstra,et al.  Language Conflict in the Bilingual Brain , 2008, Cerebral cortex.

[94]  Jens Timmer,et al.  Network modulation during complex syntactic processing , 2012, NeuroImage.

[95]  Noam Chomsky,et al.  Lectures on Government and Binding , 1981 .

[96]  M. Just,et al.  Brain Activation Modulated by Sentence Comprehension , 1996, Science.

[97]  Letícia Maria Sicuro Corrêa,et al.  An alternative assessment of children's comprehension of relative clauses , 1995 .

[98]  S. Bookheimer,et al.  Form and Content Dissociating Syntax and Semantics in Sentence Comprehension , 1999, Neuron.

[99]  Weijia Ni,et al.  Sentence complexity and input modality effects in sentence comprehension: an fMRI study , 2004, NeuroImage.

[100]  C McKee,et al.  Relatives Children Say , 1998, Journal of psycholinguistic research.

[101]  A. Kemenade Verb movement and expletive subjects in the Germanic languages By Sten Vikner (review) , 1995 .

[102]  Y. Grodzinsky,et al.  A blueprint for a brain map of syntax1 , 2004 .

[103]  U. Shlonsky Clause Structure and Word Order in Hebrew and Arabic: An Essay in Comparative Semitic Syntax , 1997 .

[104]  Jeffrey R. Binder,et al.  Some neurophysiological constraints on models of word naming , 2005, NeuroImage.

[105]  Bruce E. Murdoch,et al.  Higher‐level language deficits resulting from left primary cerebellar lesions , 2004 .

[106]  Jack L. Lancaster,et al.  The Talairach Daemon a database server for talairach atlas labels , 1997 .

[107]  R. Fox,et al.  Agrammatism in Jordanian-Arabic speakers , 2013, Clinical linguistics & phonetics.

[108]  Rita Moretti,et al.  Language impairments in patients with cerebellar lesions , 2000, Journal of Neurolinguistics.

[109]  N. Friedmann,et al.  Aphasiology Does phonological working memory impairment affect sentence comprehension ? A study of conduction aphasia , 2011 .

[110]  J. Bresnan Lexical-Functional Syntax , 2000 .

[111]  A. Turken,et al.  The Neural Architecture of the Language Comprehension Network: Converging Evidence from Lesion and Connectivity Analyses , 2011, Front. Syst. Neurosci..

[112]  J. Ashburner,et al.  Nonlinear spatial normalization using basis functions , 1999, Human brain mapping.

[113]  N. Friedmann,et al.  The Cambridge Handbook of Biolinguistics: Lexical retrieval and its breakdown in aphasia and developmental language impairment , 2013 .

[114]  Isabell Wartenburger,et al.  Neural correlates of syntactic transformations , 2004, Human brain mapping.

[115]  Maria Garraffa,et al.  Impoverishment of Grammatical Features in a Non-fluent Aphasic Speaker: The Grammatical Nature of Minimal Structures , 2011 .

[116]  Liliane Haegeman,et al.  Introduction to Government and Binding Theory , 1991 .

[117]  K. Amunts,et al.  Processing noncanonical sentences in broca's region: reflections of movement distance and type. , 2013, Cerebral cortex.

[118]  Edward Gibson,et al.  Direct Evidence of Memory Retrieval as a Source of Difficulty in Non-Local Dependencies in Language , 2013, Cogn. Sci..

[119]  R. Veit,et al.  Processing of inconsistent emotional information: an fMRI study , 2007, Experimental Brain Research.

[120]  Yosef Grodzinsky,et al.  Agrammatic comprehension of relative clauses , 1989, Brain and Language.

[121]  C. Thompson,et al.  Verbs: some properties and their consequences for agrammatic Broca's aphasia , 2002, Journal of Neurolinguistics.

[122]  R Todd Constable,et al.  The neurobiology of adaptive learning in reading: A contrast of different training conditions , 2004, Cognitive, affective & behavioral neuroscience.

[123]  Noam Chomsky,et al.  The Minimalist Program , 1992 .

[124]  Yosef Grodzinsky,et al.  Neural correlates of syntactic movement: converging evidence from two fMRI experiments , 2004, NeuroImage.

[125]  A. Belletti,et al.  Relativized relatives: Types of intervention in the acquisition of A-bar dependencies , 2009 .

[126]  Naama Friedmann,et al.  The acquisition of relative clause comprehension in Hebrew: a study of SLI and normal development , 2004, Journal of Child Language.

[127]  D Swinney,et al.  Coreference processing and levels of analysis in object-relative constructions; Demonstration of antecedent reactivation with the cross-modal priming paradigm , 1996, Journal of psycholinguistic research.

[128]  Myrna F. Schwartz,et al.  Syntactic transparency and sentence interpretation in aphasia , 1987 .

[129]  S. Blumstein,et al.  Lexical decision and aphasia: Evidence for semantic processing , 1981, Brain and Language.

[130]  J. Maisog,et al.  A positron emission tomographic study of impaired word recognition and phonological processing in dyslexic men. , 1997, Archives of neurology.

[131]  C. Jan-Wouter Zwart,et al.  Syntactic and phonological verb movement , 2001 .

[132]  D. Swinney,et al.  An On-Line Analysis of Syntactic Processing in Broca′s and Wernicke′s Aphasia , 1993, Brain and Language.

[133]  N. Friedmann SYNTACTIC MOVEMENT IN AGRAMMATISM AND S-SLI : TWO DIFFERENT IMPAIRMENTS , 2007 .

[134]  N. Dronkers,et al.  Lesion analysis of the brain areas involved in language comprehension , 2004, Cognition.

[135]  Noam Chomsky Derivation by phase , 1999 .

[136]  V Bettinardi,et al.  The bilingual brain. Proficiency and age of acquisition of the second language. , 1998, Brain : a journal of neurology.

[137]  L. Shapiro,et al.  Agrammatic comprehension of simple active sentences with moved constituents: Hebrew OSV and OVS structures. , 2003, Journal of speech, language, and hearing research : JSLHR.

[138]  Peter Hagoort,et al.  UvA-DARE (Digital Academic Repository) Unification of speaker and meaning in language comprehension: an fMRI study , 2022 .

[139]  Karl J. Friston,et al.  Regional cerebral activity associated with the incidental processing of pseudo‐words , 1995 .

[140]  D. Swinney,et al.  The Time Course of Verb Processing in Dutch Sentences , 2009, Journal of psycholinguistic research.

[141]  J. Rodd,et al.  Processing Objects at Different Levels of Specificity , 2004, Journal of Cognitive Neuroscience.

[142]  Thomas Roeper,et al.  Wh-questions: Moving beyond the first Phase. , 2011, Lingua. International review of general linguistics. Revue internationale de linguistique generale.

[143]  G. Hickok,et al.  Comprehension of Wh-Questions in Two Broca's Aphasics , 1996, Brain and Language.