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Theories of Language

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Title: Theories of Language


1
Theories of Language
  • Mental lexicon store of language information
  • Semantic (word meaning)
  • Syntactic (word combination)
  • Word form (spelling and sound pattern)
  • Phonological (sound-based)
  • Phoneme smallest unit of sound in a language
    that has meaning
  • Older, evolutionary-based
  • Orthographic (vision-based)
  • Newer, object-based

2
Theories of Language
  • Lexicon organization (Levelt's, 1994, model)
  • Hierarchical, information-specific networks
  • Conceptual semantic knowledge of word/meaning
    relations
  • Lemma syntactic, grammatical
  • Lexeme sound form

3
Theories of Language
  • Conceptual organization (e.g. Collins Loftus,
    1975, semantic network model)
  • Categorical networks of conceptual nodes
  • Semantic priming studies
  • TruckCar vs TruckTulip

4
Theories of Language
  • Conceptual organization
  • How many conceptual systems?
  • Warrington's physical (living objects) vs
    functional (man-made objects) properties
  • Caramazza's animate-inanimate categories

5
Theories of Language
  • Conceptual organization
  • How many conceptual systems?
  • How many levels?
  • Damsio's category-specific deficits in object
    naming
  • Failures at lexical level

6
Theories of Language
  • Components of a language analysis system

7
Theories of Language
  • Components of a language analysis system
  • Spoken input
  • Phoneme analysis
  • Voicing
  • Vocal chords for and some consonants (e.g., b, m)
  • Point of articulation
  • Lips (b)
  • Lips and mouth (f)
  • Manner of articulation
  • Blocked airstream (p)
  • Unblocked airstream (l)
  • Physical boundaries
  • Prosody rhythm
  • Stress

8
Theories of Language
  • Components of a language analysis system
  • Spoken input
  • Neural substrate
  • Superior temporal gyrus
  • Wernike's area in LH
  • Ventrolateral superior temporal sulcus

9
Theories of Language
  • Components of a language analysis system
  • Spoken input
  • Written input
  • Phoneme (alphabetic) systems letters represent
    sounds
  • Shallow orthography close correspondence between
    letters and sounds (e.g., Spanish)
  • Deep orthography lack of correspondence between
    letters and sounds (e.g., English)
  • Syllabic systems characters represent sounds
    (e.g., Kana)
  • Logographic systems characters represent words
    (e.g., Chinese, sort of)

10
Theories of Language
  • Components of a language analysis system
  • Spoken input
  • Written input
  • Feature analysis "what" pathway
  • Modular models bottom-up processing
  • Selfridge (1959) pandemonium model
  • Interactive models top-down can influence
    bottom-up
  • McClelland and Rummelhart (1981) connectionist
    model

11
Theories of Language
  • Components of a language analysis system
  • Spoken input
  • Written input
  • Feature analysis "what" pathway
  • Modular models bottom-up processing
  • Selfridge (1959) pandemonium model
  • Interactive models top-down can influence
    bottom-up
  • McClelland and Rummelhart (1981) connectionist
    model
  • Word superiority effect supports interactivity
  • Respond "t" or "k"
  • Trip
  • t
  • Pirt

12
Theories of Language
  • Components of a language analysis system
  • Spoken input
  • Written input
  • Neural substrate
  • Feature-level analysis same as object recognition
  • Letters activate occipitotemporal sulcus compared
    to faces (Puce et al., 1996)
  • Pure alexia damage to occipitotemporal areas can
    result in reading deficit with otherwise normal
    language

13
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Lexical access
  • Lexical selection
  • Lexical integration

14
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Lexical access differs for spoken and written
    input
  • Dual-route for written
  • Assembled grapheme-to-phoneme
  • Direct whole-word orthographic
  • Alexia without agraphia deficit in reading, but
    not in comprehending or writing
  • Deep or phonological dyslexia cannot read
    pseudowords that are not in lexicon, make
    semantic errors (direct route)
  • Surface dyslexia rule-based speech (assembled
    route) translates letters to sounds

15
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Lexical access differs for spoken and written
    input
  • Dual-route for written
  • Temporal for spoken
  • Cohort model (Marslen-Wilson, 1980) phoneme
    analysis activates cohort of matching words until
    best match is selected

16
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Neural substrate
  • Hierarchical model (Binder at al., 2000)
  • Primary auditory cortex (Heschl's gyri) to STG
    no differential of speech sounds
  • STG to superior temporal sulcus speech
    distinguished from nonspeech, but no
    lexical/semantic distinction (activated by
    speech, backward speech, nonwords)
  • STS to MTG, inferior temporal gyrus, angular
    gyrus, temporal pole (more LH than RH) words
    distinguished from nonwords

17
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Sentence integration higher-order processes
  • Semantic and syntactic integration
  • Grammatical structure

18
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Sentence integration higher-order processes
  • Semantic and syntactic integration
  • Grammatical structure
  • Parser process by which sentences are decomposed
    into syntactic units
  • Garden-path model (Frazier, 1987) syntactic
    nodes have preferred structure based upon economy
    (minimal attachment and late closure), modular
    model doesn't allow for context

19
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Sentence integration higher-order processes
  • Semantic and syntactic integration
  • Grammatical structure
  • Parser
  • Garden-path model (Frazier, 1987)
  • Parsing is an interactive process (Münte et al.,
    1998) temporal organization of sentence affects
    processing

20
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Sentence integration
  • Neural substrate Broca's area
  • Agrammatic aphasia deficit in producing and
    understanding complex grammatical structure after
    lesion in Broca's area

21
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Sentence integration
  • Neural substrate Broca's area
  • Agrammatic aphasia
  • PET studies (e.g., Caplan et al., 2000) find
    activation in Broca's area for normals when
    processing complex ("The juice that the child
    enjoyed stained the rug.") vs simple ("The child
    enjoyed the juice that stained the rug.")
    grammers.

22
Theories of Language
  • Components of a language analysis system
  • Spoken/Written input
  • Word Recognition
  • Sentence integration
  • Neural substrate other areas
  • Wernicke's (and Broca's) area and homologous RH
    locations (Just et al., 1996)
  • Processing meaningful stories activates rCBF in
    the left middle temporal gyrus, the left and
    right temporal poles, and a superior prefrontal
    area in the left frontal lobe, but only the
    temporal poles remain activated whenever
    sentences with acceptable syntax and prosody are
    presented. (Mazoyer et al., 1993)

23
Theories of Language
  • Speech production system (Levelt's model)
  • Conceptual level
  • Macroplanning communicative intent, planning
    goals of communication
  • Microplanning planning word choice and grammar
    to convey intent
  • Lemma level
  • Formulator process of getting message into
    grammatical and phonological form
  • Lexeme level
  • Mapping phonemes to motor program

24
Theories of Language
  • Speech production system
  • Neural substrate
  • Dronkers et al. (1996)
  • Compared brain lesions of 25 stroke patients
    (aged 32-79 yrs) with apraxia of speech with
    lesions of 19 stroke patients (aged 52-80 yrs)
    without such deficits to determine brain regions
    potentially involved in coordinating speech. A
    robust double dissociation was found between the
    2 groups. All Ss with articulatory planning
    deficits had lesions that included a discrete
    region of the left precentral gyrus of the
    insula, a cortical area beneath the frontal and
    temporal lobes. This area was completely spared
    in all Ss without these articulation deficits.
    Thus, this area seems to be specialized for the
    motor planning of speech.

25
Neuropsychology of Language
  • Aphasia disorders of language comprehension and
    production following neurological insult
  • Primary aphasia problems with language processes
  • Secondary aphasia problems with attention,
    perception, or memory that affect language (e.g.,
    alexia)
  • No animal models for language, so most of what is
    known about the localization and structure of
    language systems comes from patient studies

26
Neuropsychology of Language
  • Classical localization model of language system
  • Broca's area LH inferior frontal lobe (areas 44
    45)
  • Damage produces deficits in language production
    (Broca's or expressive aphasia)

27
Neuropsychology of Language
  • Classical localization model of language system
  • Broca's area
  • Wernicke's area LH posterior STG
  • Damage produces deficits in language
    comprehension (Wernicke's or receptive aphasia)

28
Neuropsychology of Language
  • Classical localization model of language system
  • Broca's area (M) word production - speech
    planning and motor programming
  • Wernicke's area (A) word comprehension - storage
    of phonological lexicon
  • Conceptual area (B) word representation - widely
    distributed (e.g., supramarginal and angular
    gyri)

29
Neuropsychology of Language
  • Evidence for the classical localization model
  • Damage to arcuate fasciclus between M and A
    produces deficits in repeating and producing
    speech but not in comprehension (conduction
    aphasia)
  • Damage to fiber tract between B and A produces
    deficits in comprehension but not in repeating
    and producing speech (transcortical sensory
    aphasia)

30
Neuropsychology of Language
  • Limitations of the classical localization model
  • Not all patients that have damage to Broca's or
    Wernicke's areas show classic deficit
  • Classic model fails to fully account for
    contributions of subcortical structures and
    damage to fiber tracts
  • Comprehension often improves with time after
    damage to Wernicke's area
  • Damage also produces anterograde and retrograde
    degeneration in other areas
  • Anatomical location of focal lesion may not
    capture function loss in brain metabolism

31
Neurophsyiology of Language
  • Semantic integration N400
  • Large N400 with difficult semantic integration

32
Neurophsyiology of Language
  • Semantic integration N400
  • Syntactic processing P600/SPS
  • Syntactic positive shift with violations of
    grammer

33
Neurophsyiology of Language
  • Semantic integration N400
  • Syntactic processing P600/SPS
  • Syntactic positive shift with violations of
    grammar
  • Syntactic processing LAN
  • Left anterior negativity with violations of
    noun-verb relations
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