1. CHAPTER 13 1 Language and the Brain

2. Neurolinguistics 2 The relationship between language and the brain.  Where is language located in the brain?  How it all started?  1848: discovery of language ability is located in the left part of the brain  Construction foreman Phineas P.Gage

3. Parts of the brain 3 Parts of the brain that are related to language functions are in the areas above the left ear. Brain stem: connects the brain to the spinal cord Corpus callosum: connects the two hemispheres Left hemisphere Right hemisphere

4. Parts of the brain 4

5. 5 Two halves: left and right hemisphere

6. Parts of the brain 6

7. 7

8. 8 (1) Broca’s area  Anterior speech cortex  named after the 19th century physician Paul Broca who reported that damage in this area was related to difficulty in speech production. (2) Wernicke’s area  Posterior speech cortex  named after Karl Wernicke, a German neurologist and psychiatrist who, in 1874, discovered that damage to this area could cause speech comprehension difficulties.

9. Parts of the brain 9 (3) Motor cortex:  Controls the movement of the muscles (for moving hands, feet, arms, etc. as well as muscles of the face, jaw, tongue, and larynx.  Involved in the physical articulation of speech  Two neurosurgeons: Penfield and Roberts (1959) (4) Arcuate Fasciculus  A bundle of nerve fiber  Wernicke’s discovery  Connection between Broac’s area and Wernicke’s area

10. The Localization View 10

11. The Localization View 11 Specific aspects of language ability can be accorded to specific locations in the brain Wernicke ’ s area arcuate fasciculus Broca ’ s area motor cortex Depend on indirect methods  Tip of the tongue  Slips of the tongue and ear  Aphasia  Dichotic listening  The critical period

12. Tip of the Tongue 12 When we feel that some words are eluding us, we know the word but it just won’t come out Initial sound, number of syllables, phonological information ‘Word storage’ system maybe partially organized on some phonological basis

13. Malapropism 13 A malapropism is the incorrect use of a word by substituting a similar-sounding word with different meaning, usually with comic effect. Named after Malaprop (in a play by Sheridan)  Examples: "Eastern and Specific Time." (i.e "Pacific") "I resemble that remark!" (i.e. resent) "Yeah, I super-size with you." (i.e. sympathize)

14. Slips of the tongue 14 Spoonerisms: the interchange of two sounds. Named after William Spooner.  ‘You have hissed all my mystery lessons.’  A long shory stort (a long story short)  A fifty-pound dog of bag food  Black bloxes  Tup of tea Not random- indicate different stages of linguistic expression

15. Slips of the ear 15 How the brain makes sense of auditory signals. great ape instead grey tape Gladly the cross I’d bear

16. Aphasia 16 An impairment of language function because of localized brain damage Leads to difficulty in understanding and /or producing linguistic forms. Caused by a stroke or accident. Depending on the area and extent of the damage  May be able to speak but not write, or vice versa  Other deficiencies in language comprehension and production, such as being able to sing but not speak.

17. Broca’s aphasia 17 A.K.A “motor aphasia” Involves damage to the front part of the left hemisphere Comprehension is better.

18. Broca’s aphasia Characteristics:  Speech output is severely reduced to short utterances of a few words.  Consists of lexical morphemes (nouns, verbs)  Lack of syntax and diminished morphology (agrammatic)  Distorted and slow articulation  May understand speech relatively well and be able to read, but be limited in writing. 18

19. Broca’s aphasia 19 I eggs and eat and drink coffee breakfast Ah... Monday... ah, Dad and Paul Haney [himself] and Dad... hospital. Two... ah, doctors... and ah... thirty minutes... and yes... ah... hospital. And, er, Wednesday... nine o'clock. And er Thursday, ten o'clock... doctors. Two doctors... and ah... teeth. Yeah,... fine. M.E. Cinderella... poor... um 'dopted her... scrubbed floor, um, tidy... poor, um... 'dopted... Si-sisters and mother... ball. Ball, prince um, shoe... Examiner. Keep going. M.E. Scrubbed and uh washed and un...tidy, uh, sisters and mother, prince, no, prince, yes. Cinderella hooked prince. (Laughs.) Um, um, shoes, um, twelve o'clock ball, finished.

20. Wernicke’s aphasia 20 A.k.A “sensory aphasia” Difficulty in auditory comprehension, but sometimes fluent speech

21. Wernicke’s aphasia Characteristics  Inability to grasp the meaning of spoken words  Easy production of connected speech  Normally-intoned stream of grammatical markers, pronouns, prepositions, articles, and auxiliaries  Difficulty in finding correct content words, especially nouns (anomia)  Reading and writing are often severely impaired 21

22. Wernicke’s aphasia 22 Examiner. What kind of work have you done? -- We, the kids, all of us, and I, we were working for a long time in the... You know... it's the kind of space, I mean place rear to the spedawn... Examiner. Excuse me, but I wanted to know what kind of work you have been doing. -- If you had said that, we had said that, poomer, near the fortunate, porpunate, tamppoo, all around the fourth of martz. Oh, I get all confused.

23. Conduction Aphasia 23 Results by the damage to the Arcuate Fasciculus. Characteristics:  Good language comprehension- Wernicke's area is intact.  Connections between Broca ’ s and Wernicke ’ s areas have been impaired- patients are unable to repeat what they hear.  Their spontaneous speech is often like that of Wernicke's aphasics.  Oral reading is poor, but auditory comprehension is good.

24. Dichotic Listening 24

25. Dichotic Listening 25 Right ear advantage The right hemisphere  non-verbal sounds (music, coughs, traffic noises, bird singing) and all non-language sounds (among other things)  Holistic processing Left hemisphere  language sounds  Analytical processing (recognizing sounds, words, and sentences)

26. The Critical Period 26 The specialization of the left hemisphere for language is described as lateral dominance or lateralization Proposed by Lenneberg  This hypothesis states that there is a period where the human brain is most ready to receive input and learn a language  If a child is denied language input, she/he will not acquire language  From birth to puberty

27. Genie 27 A girl discovered in 1970 at age 13 who had not acquired her L1 Spent her life in a state of physical, sensory, social, and emotional deprivation. Unable to speak Started to imitate sounds, but couldn’t produce grammatically complex speech. She was using the right hemisphere: in dichotic listening she showed ‘left ear advantage’