The emergence of linguistic complexity
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Brian MacWhinney
Abstract
Linguists have often argued that recursion produces linguistic complexity. However, recursion itself preexisting processes such as lexical insertion, lexical combination, memory stacks, and methods of interpretation. In the brain, recursion is an emergent property of a set of adaptations that involve at least six processing systems. Linguistic complexity arises from the interplay of all six of these systems. The complexity of this neuronal support means that the full complexity of human language could not have arisen fortuitously at some single moment in evolution. However, there is evidence that some pieces of the six systems supporting complexity have developed more recently than others.
Abstract
Linguists have often argued that recursion produces linguistic complexity. However, recursion itself preexisting processes such as lexical insertion, lexical combination, memory stacks, and methods of interpretation. In the brain, recursion is an emergent property of a set of adaptations that involve at least six processing systems. Linguistic complexity arises from the interplay of all six of these systems. The complexity of this neuronal support means that the full complexity of human language could not have arisen fortuitously at some single moment in evolution. However, there is evidence that some pieces of the six systems supporting complexity have developed more recently than others.
Chapters in this book
- Prelim pages i
- Table of contents v
- Introduction 1
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Part I. Diachrony
- From nominal to clausal morphosyntax 23
- Re(e)volving complexity 53
- Multiple routes to clause union 81
- On the origins of serial verb constructions in Kalam 119
- A quantitative approach to the development of complex predicates 145
- Elements of complex structures, where recursion isn’t 163
- Nominalization and the origin of subordination 199
- The co-evolution of syntactic and pragmatic complexity 215
- Two pathways of grammatical evolution 239
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Part II. Child language
- On the role of frequency and similarity in the acquisition of subject and non-subject relative clauses 251
- ‘ Starting small ’ effects in the acquisition of early relative constructions in Spanish 277
- The ontogeny of complex verb phrases 311
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Part III. Cognition and neurology
- Syntactic complexity versus concatenation in a verbal production task 391
- The emergence of linguistic complexity 405
- Cognitive and neural underpinnings of syntactic complexity 433
- Neural mechanisms of recursive processing in cognitive and linguistic complexity 461
- Syntactic complexity in the brain 491
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Part IV. Biology and evolution
- Neural plasticity 509
- Recursion 531
- Index 545
Chapters in this book
- Prelim pages i
- Table of contents v
- Introduction 1
-
Part I. Diachrony
- From nominal to clausal morphosyntax 23
- Re(e)volving complexity 53
- Multiple routes to clause union 81
- On the origins of serial verb constructions in Kalam 119
- A quantitative approach to the development of complex predicates 145
- Elements of complex structures, where recursion isn’t 163
- Nominalization and the origin of subordination 199
- The co-evolution of syntactic and pragmatic complexity 215
- Two pathways of grammatical evolution 239
-
Part II. Child language
- On the role of frequency and similarity in the acquisition of subject and non-subject relative clauses 251
- ‘ Starting small ’ effects in the acquisition of early relative constructions in Spanish 277
- The ontogeny of complex verb phrases 311
-
Part III. Cognition and neurology
- Syntactic complexity versus concatenation in a verbal production task 391
- The emergence of linguistic complexity 405
- Cognitive and neural underpinnings of syntactic complexity 433
- Neural mechanisms of recursive processing in cognitive and linguistic complexity 461
- Syntactic complexity in the brain 491
-
Part IV. Biology and evolution
- Neural plasticity 509
- Recursion 531
- Index 545
