Cognitive neuroscience: the biology of the mind
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
Norton
2009
|
| Ausgabe: | 3. ed., internat. student ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Getr. Zählung zahlr. Ill., graph. Darst. |
| ISBN: | 9780393927955 9780393111361 |
Internformat
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| 100 | 1 | |a Gazzaniga, Michael S. |d 1939- |e Verfasser |0 (DE-588)11060007X |4 aut | |
| 245 | 1 | 0 | |a Cognitive neuroscience |b the biology of the mind |c Michael S. Gazzaniga ; Richard B. Ivry ; George R. Mangun |
| 250 | |a 3. ed., internat. student ed. | ||
| 264 | 1 | |a New York [u.a.] |b Norton |c 2009 | |
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| 650 | 4 | |a Cognitive neuroscience | |
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Datensatz im Suchindex
| _version_ | 1804136596288569344 |
|---|---|
| adam_text | CONTENTS
BOXES XV
PREFACE
XVII
ACKNOWLEDGMENTS
ХІХ
PART I: BACKGROUND AND METHODS
1
A Brief History of Cognitive
Neuroscience
A Historical Perspective
3 ·
The Brain Story
4 ·
The Psychological Story
12 ·
Summary
16
•
Key Terms
16 ·
Take-Home Messages
16 ·
Thought Questions
17 ·
Suggested Reading
17
Cellular Mechanisms and Cognition
18
Cells of the Nervous System
19 ·
The structure of neurons
20 ·
The role of glial cells
23 ·
Neuronal
Signaling
27 ·
Overview of
neuronal
communication
27 ·
Properties of the
neuronal
membrane and the membrane potential
28 ·
Electrical conduction in neurons
31 ·
Transmembrane
proteins: ion channels and pumps
44 ·
Synaptic Transmission
47 ·
Chemical transmission
47 ·
Neurotransmitters
50 ·
Drugs,
neurotransmission,
and disease
53 ·
Electrical transmission
54 ·
Summary
56 ·
Key Terms
56 ·
Take-Home Messages
56 ·
Thought Questions
58 *
Suggested Reading
58
IX
3
Neuroanatomy and Development
59
Neuroanatomy
60 ·
Methods in neuroanatomy
60 ·
Gross and Functional Anatomy of the Nervous
System
67 ·
Cerebral cortex
67 ·
Limbie
system, basal ganglia, hippocampus, and diencephalon
77 ·
Brainstem
84 ·
Cerebellum
86 ·
Spinal cord
87 ·
Autonomie
nervous system
87 *
Development of the Nervous System
88 ·
Overview of gross development
88 ·
Genesis of the cerebral
cortex
90 ·
Birth of new neurons throughout life
96 ·
Postnatal brain development
99 ·
Plasticity in
the Nervous System
101 ·
Cortical maps and experience
101 ·
Plasticity in the adult human brain
103
•
Mechanisms of cortical plasticity
105 ·
Summary
106 ·
Key Terms
107 ·
Take-Home
Messages
107 ·
Thought Questions
108 ·
Suggested Reading
109
4
Methods of Cognitive
Neuroscience
110
What Is Cognitive Psychology? Ill
·
Mental representations and transformations 111
·
Characterizing mental operations
113 ·
Constraints on information processing
115 ·
Computer
Modeling
117 ·
Models are explicit
117 ·
Representations in computer models
118 ·
Models lead
to testable predictions
119 ·
Limitations of computer models
119 ·
Experimental Techniques Used
with Animals
120 ·
Single-cell recording
120 ·
Lesions
125 *
Genetic manipulations
126 ·
The new genomics
127 ·
Neurology
129 ·
Structural imaging of neurological damage
130 ·
Causes of neurological disorders
133 ·
Functional neurosurgery
140 ·
Converging Methods
141
Cognitive deficits following brain damage
141 ·
Virtual lesions: transcranial magnetic stimulation
145 ·
Functional imaging
148 ·
Summary
159 ·
Key Terms
161 ·
Take-Home Messages
161 ·
Thought Questions
162 ·
Suggested Reading
163
PART II: CORE PROCESSES
5
Sensation and Perception
164
Auditory Perception
165 ·
Neural pathways of audition
165 ·
Computational goals in audition
167
•
Multiple cues for sound localization
168 ·
Olfactory Perception
170 ·
Neural pathways of
olfaction
171 ·
The role of sniffing in olfactory perception
171 ·
One nose, two smells
173 ·
Smell
and memory
174 ·
Gustatory Perception
174 ·
Neural pathways of gustation
174 ·
Gustatory
processing
175 ·
Somatosensory Perception
175 ·
Neural pathways of somatosensation
175 ·
Somatosensory processing
176 ·
Vision
177 ·
Neural pathways of vision
177 ·
From the eye to the
central nervous system
178 ·
Cortical visual areas
180 ·
Deficits in visual perception
189 ·
Multimodal
Perception
199 · Multimodal
processing in the brain
199 ·
Does the whole equal more
than the sum of the parts?
199 ·
Synesthesia
200 ·
Perceptual reorganization
202 ·
Summary
203
•
Key Terms
204 ·
Take-Home Messages
204 ·
Thought Questions
205 ·
Suggested
Reading
206
б
Object Recognition
207
Two Cortical Pathways for Visual Perception
209 ·
Representational differences between the dorsal and
ventral pathways
211 ·
Perception for identification versus perception for action
213 ·
Computational
Problems in Object Recognition
217 ·
Variability in sensory information
217 ·
View-dependent or
view-invariant recognition?
219 ·
Shape encoding
221 ·
Grandmother cells and ensemble coding
222
•
Summary of computational problems
225 ■
Failures in Object Recognition
225 ·
Subtypes of
agnosia
225 ·
Integrating parts into wholes
230 ·
Category specificity in agnosia
233
Computational account of category-specific deficits
235 ■
The Perception of Faces
237 ·
Are faces
special?
238 ·
Neural mechanisms for face perception
238 ·
Dissociations of face and object perception
244 ·
Two Systems for Object Recognition
247 ·
The Relationships of Visual Perception,
Imagery, and Memory
249 ·
Summary
254 ·
Key Terms
254 ·
Take-Home Messages
254
•
Thought Questions
256 ·
Suggested Reading
256
The Control of Action
257
Motor Structures
259 ·
Muscles, motor neurons, and the spinal cord
259 ·
Subcortical
motor
structures
260 ·
Cortical regions involved in motor control
261 ·
Organization of motor areas
263 ·
Computational Issues in Motor Control
265 ·
Peripheral control of movement and the role of feedback
265 ·
Representation of movement plans
267 ·
Physiological Analysis of Motor Pathways
271 ·
Neural coding of movement
271 ·
Mirror neurons
281 ·
Planning and Execution of Movement
284 ·
Internal versus external guidance of movement
284 ·
Shift in cortical control with learning
286
•
Functional Analysis of the Motor System and Movement Disorders
288 ·
Cortical areas
289 ·
Subcortical
areas: cerebellum and basal ganglia
295 ·
Summary
307 ·
Key Terms
309 ·
Take-
Home Messages
309 ·
Thought Questions
311 ·
Suggested Reading
311
8
Learning and Memory
312
Theories of Learning and Memory
313 *
Sensory and short-term memory mechanisms
313
Models of short-term memory
315 ·
Models of long-term memory
321 ·
Summary of memory models
323 ·
Memory and Brain
324 ·
Human memory, brain damage, and amnesia
324 ·
Animal
models of memory and the medial temporal lobe
340 ·
Imaging the human brain and memory
344 ·
Cellular Bases of Learning and Memory
356 ·
Long-term potentiation and the hippocampus
357 ·
Summary
360 ·
Key Terms
361 ·
Take-Home Messages
361 ·
Thought Questions
362
•
Suggested Reading
363
XI
1
то
Emotion
364
The Cognitive
Neuroscience
of Emotion
366 ·
Issues in the cognitive
neuroscience
of emotion
366
•
Neural Systems in Emotional Processing
368 ·
Early concepts: the
limbie
system
368
Amygdala
369 ·
Other brain areas involved with emotion
382 ·
Summary
385 ·
Key Terms
385
•
Take-Home Messages
385 ·
Thought Questions
387 ·
Suggested Reading
387
Language
388
Theories of Language
389 ·
Storage of words and concepts: the mental lexicon
389 ·
Perceptual analyses of the linguistic input
395 ·
Recognition of words
405 ·
Integration of words in
sentences
410 ·
Lexical integration in discourse
415 ·
Speech production
419 ·
Summary of
language theories
422 ·
Neuropsychology of Language and Language Disorders
423 ·
Aphasia
423 ·
History of aphasia
423 ·
Classification of aphasia
427 ·
Damage to connections between
language areas
429 ·
Mechanisms of
aphasie
deficits
431 ·
Neurophysiology of Language
432 ·
Functional neuroimaging of language
433 ·
Electrophysiology of language
434 ·
Neural models of
language comprehension
440 ·
Summary
442 ·
Key Terms
442 ·
Take-Home Messages
442
•
Thought Questions
444 ·
Suggested Reading
444
Hemispheric Specialization
445
Principles of Cerebral Organization
447 ·
Anatomical correlates of hemispheric specialization
447 ·
Microanatomical investigations of anatomical asymmetries
449 ·
How the Two Hemispheres
Communicate
450 ·
Cortical disconnection
452 ·
Functional consequences of the split-brain
procedure
453 ·
Specificity of callosal function
454 ·
Hemispheric Specialization
456 ·
Language and speech
456 ·
Visuospatial processing
459 ·
Attention and perception
460 ·
Complex
cognition
464 ·
Converging Evidence of Hemispheric Specialization
466 ·
Functional
asymmetries in patients with unilateral cortical lesions
466 ·
Functional asymmetries in the normal brain
468 ·
What Brain Functions Are Lateralized?
471 ·
Asymmetries in perceptual representations
473
•
Asymmetries in representing spatial relations
478 ·
Variations in Hemispheric Specialization
483
•
The relation between handedness and left-hemisphere language dominance
483 ·
Hemispheric
specialization in nonhumans
485 ·
Summary
488 ·
Key Terms
488 ·
Take-Home Messages
488 ·
Thought Questions
490 ·
Suggested Reading
490
XII
PART III: CONTROL PROCESSES
Ш
Attention and Consciousness
491
Theoretical Models of Attention
492 ·
The cocktail party effect
494 ·
Early and late selection
496
•
Quantifying attention in perception
498 ·
Neural Mechanisms of Attention and Selective
Perception
502 ·
Neurophysiology of human selective attention
502 ·
Functional imaging of brain
attention systems
511 ·
Animal studies of attentional mechanisms
525 ·
Neurology and
Neuropsychology of Attention
537 ·
Extinction
537 ·
The fate of neglected information
545 ·
Models of Attention and Awareness
548 ·
Unattended information and awareness
548
Unconscious processing and attention
549
Subliminal, preconscious, and conscious processing
550 ·
Summary
551 ·
Key Terms
552 ·
Take-Home Messages
552 ·
Thought Questions
554 ·
Suggested Reading
554
Cognitive Control
555
Subdivisions of the Frontal Lobes
556 ·
The Lateral Prefrontal Cortex and Working Memory
558
Distinguishing between stored knowledge and activated information
558 ·
Prefrontal cortex is necessary
for working memory but not associative memory
559 ·
Physiological correlates of working memory
561 ·
The Prefrontal Cortex and Other Memory Domains
564 ·
The frontal lobes and the temporal
organization of memory
564 ·
Source memory
566 ·
Component Analysis of the Prefrontal Cortex
567 ·
Content-based accounts of functional specialization within the prefrontal cortex
567 ·
Process-
based accounts of functional specialization within the prefrontal cortex
569 ·
Goal-Oriented Behavior
571 ·
Planning and selecting an action
572 ·
Cognitive control of goal-oriented behavior
573 ·
Retrieval and selection of task-relevant information
574 ·
Task switching
577 ·
Top-Down Cognitive
Control
580 ·
Inhibitory and facilitatory mechanisms for top-down control
581 ·
Inhibition of action
586 ·
Ensuring That Goal-Oriented Behaviors Succeed
587 ·
The medial frontal cortex as a
monitoring system
589 ·
Summary
596 ·
Key Terms
596 ·
Take-Home Messages
596 ·
Thought Questions
598 ·
Suggested Reading
598
Щ
Social Cognition (byJennifers.Beer)
599
Self-Perception and Self-Knowledge
600 ·
Self-referential processing
601 ·
Self-reference as a
baseline mode of brain function
603 ·
Self-perception as a motivated process
604 ·
Perception of
Other People
606 ·
Understanding the mental states of others
607 ·
The neural correlates of theory of
mind
607 ·
Integrating nonverbal cues and mental states
610 ·
Autism: deficits in understanding the
minds and nonverbal cues of other people?
611 ·
Convergence in the Perception of Self and Others
617
•
Medial prefrontal cortex: similar and close others
617 ·
Empathy
618 ·
Social Knowledge
621 ·
Representations of social knowledge
621 ·
Using social knowledge to make decisions
623 ·
Neuroeconomics
626 ·
Moral decisions
628 ·
Summary
631 ·
Key Terms
632 ·
Take-Home Messages
632 ·
Thought Questions
633 ·
Suggested Reading
633
xiii
Ί5
Evolutionary Perspectives (with Jeff Hutsler)
634
Evolution of the Brain
635 ·
Historical underpinnings of contemporary evolutionary neurobiology
635
•
Modern evolutionary neurobiology: assumptions and aims
637 ·
First Principles
640 ·
Evolutionary mechanisms
644 ·
The Comparative Approach
645 ·
The scale of nature revisited
648
•
Adaptation and the Brain
650 ·
Adaptations at multiple brain levels
651 ·
Sexual selection and
evolutionary pressures on behavior
653 ·
The effect of sex on spatial abilities
655 *
Evolution and
physiology
658 ·
Adaptive specializations and learning mechanisms
658 ·
Evolutionary Insights Into
Human Brain Organization
661 ·
Summary
664 ·
Key Terms
664 ·
Take-Home Messages
664 ·
Thought Questions
666 ·
Suggested Reading
666
GLOSSARY G-1
REFERENCES R-1
CREDITS C-1
INDEX
1-1
XIV
MILESTONES IN COGNITIVE
NEUROSCIENCE
Interlude
9
Female Pioneers in
Neuroscience
12
Pioneers in the Visual Cortex
182
Psychiatric Disorders and the Frontal Lobes
612
Darwin s Big Idea
642
HOW THE BRAIN WORKS
Myelin
and Disease
26
History of the Action Potential
31
The Chambers of the Mind
72
Cortical Topography
74
Blood Supply and the Brain
89
The Cochlear Implant
166
Now You See It, Now You Don t
218
Auditory Agnosia
227
Where Is It? Assessing Location Through Perception
and Action
270
Patting Your Head While Rubbing Your Stomach
296
Short-Term Memory Capacity
316
Eyewitness Testimony
320
Temporary Losses of Memory
327
Stress and Memory
331
Sleep and Memory Consolidation
332
False Memories and the Medial Temporal Lobes
350
Modularity Versus Interactivity
398
From Written Text to Word Representation: One or
Two Pathways?
406
Does the Right Hemisphere Understand Language?
425
The Man Without Nouns
430
Interhemispheric Communication: Cooperation or
Competition?
462
To Approach or Withdraw: The Cerebral Tug-of-War
486
Behavioral Arousal and Selective Attention
495
Shocking Studies of Attention
520
XV
Cell-to-Cell Firing in the Visual System
527
Thinking Outside the (Match) Box
578
Understanding Substance Abuse: Insights from the
Study of Cognitive Control
594
Lessons from a Frog
653
Sexual Selection and Mathematics
656
Building Neurons
Out of Batteries and Baling Wire
34
Navigating in the Brain
62
The Ethics and Practice of Animal Research
Correlation and Causation: Brain Size and
Posttraumatic Stress Disorder
128
Connectionist Modeling of Memory
336
122
Monitoring Recollection Using Human Brain
Electrophysiology
345
Stimulation Mapping of the Human Brain
434
Aphasia and Electrophysiology
441
Two Brains Are Better Than One
538
Neuroethics: An Emerging Field
629
XVI
|
| adam_txt |
CONTENTS
BOXES XV
PREFACE
XVII
ACKNOWLEDGMENTS
ХІХ
PART I: BACKGROUND AND METHODS
1
A Brief History of Cognitive
Neuroscience
A Historical Perspective
3 ·
The Brain Story
4 ·
The Psychological Story
12 ·
Summary
16
•
Key Terms
16 ·
Take-Home Messages
16 ·
Thought Questions
17 ·
Suggested Reading
17
Cellular Mechanisms and Cognition
18
Cells of the Nervous System
19 ·
The structure of neurons
20 ·
The role of glial cells
23 ·
Neuronal
Signaling
27 ·
Overview of
neuronal
communication
27 ·
Properties of the
neuronal
membrane and the membrane potential
28 ·
Electrical conduction in neurons
31 ·
Transmembrane
proteins: ion channels and pumps
44 ·
Synaptic Transmission
47 ·
Chemical transmission
47 ·
Neurotransmitters
50 ·
Drugs,
neurotransmission,
and disease
53 ·
Electrical transmission
54 ·
Summary
56 ·
Key Terms
56 ·
Take-Home Messages
56 ·
Thought Questions
58 *
Suggested Reading
58
IX
3
Neuroanatomy and Development
59
Neuroanatomy
60 ·
Methods in neuroanatomy
60 ·
Gross and Functional Anatomy of the Nervous
System
67 ·
Cerebral cortex
67 ·
Limbie
system, basal ganglia, hippocampus, and diencephalon
77 ·
Brainstem
84 ·
Cerebellum
86 ·
Spinal cord
87 ·
Autonomie
nervous system
87 *
Development of the Nervous System
88 ·
Overview of gross development
88 ·
Genesis of the cerebral
cortex
90 ·
Birth of new neurons throughout life
96 ·
Postnatal brain development
99 ·
Plasticity in
the Nervous System
101 ·
Cortical maps and experience
101 ·
Plasticity in the adult human brain
103
•
Mechanisms of cortical plasticity
105 ·
Summary
106 ·
Key Terms
107 ·
Take-Home
Messages
107 ·
Thought Questions
108 ·
Suggested Reading
109
4
Methods of Cognitive
Neuroscience
110
What Is Cognitive Psychology? Ill
·
Mental representations and transformations 111
·
Characterizing mental operations
113 ·
Constraints on information processing
115 ·
Computer
Modeling
117 ·
Models are explicit
117 ·
Representations in computer models
118 ·
Models lead
to testable predictions
119 ·
Limitations of computer models
119 ·
Experimental Techniques Used
with Animals
120 ·
Single-cell recording
120 ·
Lesions
125 *
Genetic manipulations
126 ·
The new genomics
127 ·
Neurology
129 ·
Structural imaging of neurological damage
130 ·
Causes of neurological disorders
133 ·
Functional neurosurgery
140 ·
Converging Methods
141
Cognitive deficits following brain damage
141 ·
Virtual lesions: transcranial magnetic stimulation
145 ·
Functional imaging
148 ·
Summary
159 ·
Key Terms
161 ·
Take-Home Messages
161 ·
Thought Questions
162 ·
Suggested Reading
163
PART II: CORE PROCESSES
5
Sensation and Perception
164
Auditory Perception
165 ·
Neural pathways of audition
165 ·
Computational goals in audition
167
•
Multiple cues for sound localization
168 ·
Olfactory Perception
170 ·
Neural pathways of
olfaction
171 ·
The role of sniffing in olfactory perception
171 ·
One nose, two smells
173 ·
Smell
and memory
174 ·
Gustatory Perception
174 ·
Neural pathways of gustation
174 ·
Gustatory
processing
175 ·
Somatosensory Perception
175 ·
Neural pathways of somatosensation
175 ·
Somatosensory processing
176 ·
Vision
177 ·
Neural pathways of vision
177 ·
From the eye to the
central nervous system
178 ·
Cortical visual areas
180 ·
Deficits in visual perception
189 ·
Multimodal
Perception
199 · Multimodal
processing in the brain
199 ·
Does the whole equal more
than the sum of the parts?
199 ·
Synesthesia
200 ·
Perceptual reorganization
202 ·
Summary
203
•
Key Terms
204 ·
Take-Home Messages
204 ·
Thought Questions
205 ·
Suggested
Reading
206
б
Object Recognition
207
Two Cortical Pathways for Visual Perception
209 ·
Representational differences between the dorsal and
ventral pathways
211 ·
Perception for identification versus perception for action
213 ·
Computational
Problems in Object Recognition
217 ·
Variability in sensory information
217 ·
View-dependent or
view-invariant recognition?
219 ·
Shape encoding
221 ·
Grandmother cells and ensemble coding
222
•
Summary of computational problems
225 ■
Failures in Object Recognition
225 ·
Subtypes of
agnosia
225 ·
Integrating parts into wholes
230 ·
Category specificity in agnosia
233
Computational account of category-specific deficits
235 ■
The Perception of Faces
237 ·
Are faces
special?
238 ·
Neural mechanisms for face perception
238 ·
Dissociations of face and object perception
244 ·
Two Systems for Object Recognition
247 ·
The Relationships of Visual Perception,
Imagery, and Memory
249 ·
Summary
254 ·
Key Terms
254 ·
Take-Home Messages
254
•
Thought Questions
256 ·
Suggested Reading
256
The Control of Action
257
Motor Structures
259 ·
Muscles, motor neurons, and the spinal cord
259 ·
Subcortical
motor
structures
260 ·
Cortical regions involved in motor control
261 ·
Organization of motor areas
263 ·
Computational Issues in Motor Control
265 ·
Peripheral control of movement and the role of feedback
265 ·
Representation of movement plans
267 ·
Physiological Analysis of Motor Pathways
271 ·
Neural coding of movement
271 ·
Mirror neurons
281 ·
Planning and Execution of Movement
284 ·
Internal versus external guidance of movement
284 ·
Shift in cortical control with learning
286
•
Functional Analysis of the Motor System and Movement Disorders
288 ·
Cortical areas
289 ·
Subcortical
areas: cerebellum and basal ganglia
295 ·
Summary
307 ·
Key Terms
309 ·
Take-
Home Messages
309 ·
Thought Questions
311 ·
Suggested Reading
311
8
Learning and Memory
312
Theories of Learning and Memory
313 *
Sensory and short-term memory mechanisms
313
Models of short-term memory
315 ·
Models of long-term memory
321 ·
Summary of memory models
323 ·
Memory and Brain
324 ·
Human memory, brain damage, and amnesia
324 ·
Animal
models of memory and the medial temporal lobe
340 ·
Imaging the human brain and memory
344 ·
Cellular Bases of Learning and Memory
356 ·
Long-term potentiation and the hippocampus
357 ·
Summary
360 ·
Key Terms
361 ·
Take-Home Messages
361 ·
Thought Questions
362
•
Suggested Reading
363
XI
1
то
Emotion
364
The Cognitive
Neuroscience
of Emotion
366 ·
Issues in the cognitive
neuroscience
of emotion
366
•
Neural Systems in Emotional Processing
368 ·
Early concepts: the
limbie
system
368
Amygdala
369 ·
Other brain areas involved with emotion
382 ·
Summary
385 ·
Key Terms
385
•
Take-Home Messages
385 ·
Thought Questions
387 ·
Suggested Reading
387
Language
388
Theories of Language
389 ·
Storage of words and concepts: the mental lexicon
389 ·
Perceptual analyses of the linguistic input
395 ·
Recognition of words
405 ·
Integration of words in
sentences
410 ·
Lexical integration in discourse
415 ·
Speech production
419 ·
Summary of
language theories
422 ·
Neuropsychology of Language and Language Disorders
423 ·
Aphasia
423 ·
History of aphasia
423 ·
Classification of aphasia
427 ·
Damage to connections between
language areas
429 ·
Mechanisms of
aphasie
deficits
431 ·
Neurophysiology of Language
432 ·
Functional neuroimaging of language
433 ·
Electrophysiology of language
434 ·
Neural models of
language comprehension
440 ·
Summary
442 ·
Key Terms
442 ·
Take-Home Messages
442
•
Thought Questions
444 ·
Suggested Reading
444
Hemispheric Specialization
445
Principles of Cerebral Organization
447 ·
Anatomical correlates of hemispheric specialization
447 ·
Microanatomical investigations of anatomical asymmetries
449 ·
How the Two Hemispheres
Communicate
450 ·
Cortical disconnection
452 ·
Functional consequences of the split-brain
procedure
453 ·
Specificity of callosal function
454 ·
Hemispheric Specialization
456 ·
Language and speech
456 ·
Visuospatial processing
459 ·
Attention and perception
460 ·
Complex
cognition
464 ·
Converging Evidence of Hemispheric Specialization
466 ·
Functional
asymmetries in patients with unilateral cortical lesions
466 ·
Functional asymmetries in the normal brain
468 ·
What Brain Functions Are Lateralized?
471 ·
Asymmetries in perceptual representations
473
•
Asymmetries in representing spatial relations
478 ·
Variations in Hemispheric Specialization
483
•
The relation between handedness and left-hemisphere language dominance
483 ·
Hemispheric
specialization in nonhumans
485 ·
Summary
488 ·
Key Terms
488 ·
Take-Home Messages
488 ·
Thought Questions
490 ·
Suggested Reading
490
XII
PART III: CONTROL PROCESSES
Ш
Attention and Consciousness
491
Theoretical Models of Attention
492 ·
The cocktail party effect
494 ·
Early and late selection
496
•
Quantifying attention in perception
498 ·
Neural Mechanisms of Attention and Selective
Perception
502 ·
Neurophysiology of human selective attention
502 ·
Functional imaging of brain
attention systems
511 ·
Animal studies of attentional mechanisms
525 ·
Neurology and
Neuropsychology of Attention
537 ·
Extinction
537 ·
The fate of neglected information
545 ·
Models of Attention and Awareness
548 ·
Unattended information and awareness
548
Unconscious processing and attention
549 '
Subliminal, preconscious, and conscious processing
550 ·
Summary
551 ·
Key Terms
552 ·
Take-Home Messages
552 ·
Thought Questions
554 ·
Suggested Reading
554
Cognitive Control
555
Subdivisions of the Frontal Lobes
556 ·
The Lateral Prefrontal Cortex and Working Memory
558
Distinguishing between stored knowledge and activated information
558 ·
Prefrontal cortex is necessary
for working memory but not associative memory
559 ·
Physiological correlates of working memory
561 ·
The Prefrontal Cortex and Other Memory Domains
564 ·
The frontal lobes and the temporal
organization of memory
564 ·
Source memory
566 ·
Component Analysis of the Prefrontal Cortex
567 ·
Content-based accounts of functional specialization within the prefrontal cortex
567 ·
Process-
based accounts of functional specialization within the prefrontal cortex
569 ·
Goal-Oriented Behavior
571 ·
Planning and selecting an action
572 ·
Cognitive control of goal-oriented behavior
573 ·
Retrieval and selection of task-relevant information
574 ·
Task switching
577 ·
Top-Down Cognitive
Control
580 ·
Inhibitory and facilitatory mechanisms for top-down control
581 ·
Inhibition of action
586 ·
Ensuring That Goal-Oriented Behaviors Succeed
587 ·
The medial frontal cortex as a
monitoring system
589 ·
Summary
596 ·
Key Terms
596 ·
Take-Home Messages
596 ·
Thought Questions
598 ·
Suggested Reading
598
Щ
Social Cognition (byJennifers.Beer)
599
Self-Perception and Self-Knowledge
600 ·
Self-referential processing
601 ·
Self-reference as a
baseline mode of brain function
603 ·
Self-perception as a motivated process
604 ·
Perception of
Other People
606 ·
Understanding the mental states of others
607 ·
The neural correlates of theory of
mind
607 ·
Integrating nonverbal cues and mental states
610 ·
Autism: deficits in understanding the
minds and nonverbal cues of other people?
611 ·
Convergence in the Perception of Self and Others
617
•
Medial prefrontal cortex: similar and close others
617 ·
Empathy
618 ·
Social Knowledge
621 ·
Representations of social knowledge
621 ·
Using social knowledge to make decisions
623 ·
Neuroeconomics
626 ·
Moral decisions
628 ·
Summary
631 ·
Key Terms
632 ·
Take-Home Messages
632 ·
Thought Questions
633 ·
Suggested Reading
633
xiii
Ί5
Evolutionary Perspectives (with Jeff Hutsler)
634
Evolution of the Brain
635 ·
Historical underpinnings of contemporary evolutionary neurobiology
635
•
Modern evolutionary neurobiology: assumptions and aims
637 ·
First Principles
640 ·
Evolutionary mechanisms
644 ·
The Comparative Approach
645 ·
The scale of nature revisited
648
•
Adaptation and the Brain
650 ·
Adaptations at multiple brain levels
651 ·
Sexual selection and
evolutionary pressures on behavior
653 ·
The effect of sex on spatial abilities
655 *
Evolution and
physiology
658 ·
Adaptive specializations and learning mechanisms
658 ·
Evolutionary Insights Into
Human Brain Organization
661 ·
Summary
664 ·
Key Terms
664 ·
Take-Home Messages
664 ·
Thought Questions
666 ·
Suggested Reading
666
GLOSSARY G-1
REFERENCES R-1
CREDITS C-1
INDEX
1-1
XIV
MILESTONES IN COGNITIVE
NEUROSCIENCE
Interlude
9
Female Pioneers in
Neuroscience
12
Pioneers in the Visual Cortex
182
Psychiatric Disorders and the Frontal Lobes
612
Darwin's Big Idea
642
HOW THE BRAIN WORKS
Myelin
and Disease
26
History of the Action Potential
31
The Chambers of the Mind
72
Cortical Topography
74
Blood Supply and the Brain
89
The Cochlear Implant
166
Now You See It, Now You Don't
218
Auditory Agnosia
227
Where Is It? Assessing Location Through Perception
and Action
270
Patting Your Head While Rubbing Your Stomach
296
Short-Term Memory Capacity
316
Eyewitness Testimony
320
Temporary Losses of Memory
327
Stress and Memory
331
Sleep and Memory Consolidation
332
False Memories and the Medial Temporal Lobes
350
Modularity Versus Interactivity
398
From Written Text to Word Representation: One or
Two Pathways?
406
Does the Right Hemisphere Understand Language?
425
The Man Without Nouns
430
Interhemispheric Communication: Cooperation or
Competition?
462
To Approach or Withdraw: The Cerebral Tug-of-War
486
Behavioral Arousal and Selective Attention
495
Shocking Studies of Attention
520
XV
Cell-to-Cell Firing in the Visual System
527
Thinking Outside the (Match) Box
578
Understanding Substance Abuse: Insights from the
Study of Cognitive Control
594
Lessons from a Frog
653
Sexual Selection and Mathematics
656
Building Neurons
Out of Batteries and Baling Wire
34
Navigating in the Brain
62
The Ethics and Practice of Animal Research
Correlation and Causation: Brain Size and
Posttraumatic Stress Disorder
128
Connectionist Modeling of Memory
336
122
Monitoring Recollection Using Human Brain
Electrophysiology
345
Stimulation Mapping of the Human Brain
434
Aphasia and Electrophysiology
441
Two Brains Are Better Than One
538
Neuroethics: An Emerging Field
629
XVI |
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| any_adam_object_boolean | 1 |
| author | Gazzaniga, Michael S. 1939- Ivry, Richard B. Mangun, George R. 1956- |
| author_GND | (DE-588)11060007X (DE-588)136193390 |
| author_facet | Gazzaniga, Michael S. 1939- Ivry, Richard B. Mangun, George R. 1956- |
| author_role | aut aut aut |
| author_sort | Gazzaniga, Michael S. 1939- |
| author_variant | m s g ms msg r b i rb rbi g r m gr grm |
| building | Verbundindex |
| bvnumber | BV022498297 |
| classification_rvk | CP 1000 CP 4000 CZ 1000 CZ 1300 WW 2200 WW 2204 |
| classification_tum | PSY 210f MED 602f BIO 950f |
| ctrlnum | (OCoLC)289108568 (DE-599)BVBBV022498297 |
| dewey-full | 612.8233 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 612 - Human physiology |
| dewey-raw | 612.8233 |
| dewey-search | 612.8233 |
| dewey-sort | 3612.8233 |
| dewey-tens | 610 - Medicine and health |
| discipline | Biologie Psychologie Medizin |
| discipline_str_mv | Biologie Psychologie Medizin |
| edition | 3. ed., internat. student ed. |
| format | Book |
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| genre | 1\p (DE-588)4123623-3 Lehrbuch gnd-content 2\p (DE-588)1071861417 Konferenzschrift 1981 gnd-content |
| genre_facet | Lehrbuch Konferenzschrift 1981 |
| id | DE-604.BV022498297 |
| illustrated | Illustrated |
| index_date | 2024-07-02T17:54:26Z |
| indexdate | 2024-07-09T20:58:55Z |
| institution | BVB |
| isbn | 9780393927955 9780393111361 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015705394 |
| oclc_num | 289108568 |
| open_access_boolean | |
| owner | DE-824 DE-355 DE-BY-UBR DE-473 DE-BY-UBG DE-29 DE-20 DE-83 DE-703 DE-188 DE-91 DE-BY-TUM DE-11 |
| owner_facet | DE-824 DE-355 DE-BY-UBR DE-473 DE-BY-UBG DE-29 DE-20 DE-83 DE-703 DE-188 DE-91 DE-BY-TUM DE-11 |
| physical | Getr. Zählung zahlr. Ill., graph. Darst. |
| publishDate | 2009 |
| publishDateSearch | 2009 |
| publishDateSort | 2009 |
| publisher | Norton |
| record_format | marc |
| spelling | Gazzaniga, Michael S. 1939- Verfasser (DE-588)11060007X aut Cognitive neuroscience the biology of the mind Michael S. Gazzaniga ; Richard B. Ivry ; George R. Mangun 3. ed., internat. student ed. New York [u.a.] Norton 2009 Getr. Zählung zahlr. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Brain physiology Cognition physiology Cognitive Science Cognitive neuroscience Neuropsychology Neurowissenschaften (DE-588)7555119-6 gnd rswk-swf Gehirn (DE-588)4019752-9 gnd rswk-swf Methode (DE-588)4038971-6 gnd rswk-swf Kognitionswissenschaft (DE-588)4193780-6 gnd rswk-swf Neurobiologie (DE-588)4041871-6 gnd rswk-swf Kognitive Psychologie (DE-588)4073586-2 gnd rswk-swf Kognitiver Prozess (DE-588)4140177-3 gnd rswk-swf Kognition (DE-588)4031630-0 gnd rswk-swf Neuropsychologie (DE-588)4135740-1 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content 2\p (DE-588)1071861417 Konferenzschrift 1981 gnd-content Kognitiver Prozess (DE-588)4140177-3 s Neurobiologie (DE-588)4041871-6 s DE-604 Neuropsychologie (DE-588)4135740-1 s Gehirn (DE-588)4019752-9 s Kognitionswissenschaft (DE-588)4193780-6 s Kognitive Psychologie (DE-588)4073586-2 s 3\p DE-604 Neurowissenschaften (DE-588)7555119-6 s Kognition (DE-588)4031630-0 s Methode (DE-588)4038971-6 s 4\p DE-604 5\p DE-604 6\p DE-604 Ivry, Richard B. Verfasser aut Mangun, George R. 1956- Verfasser (DE-588)136193390 aut Digitalisierung UB Bamberg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015705394&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 4\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 5\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 6\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Gazzaniga, Michael S. 1939- Ivry, Richard B. Mangun, George R. 1956- Cognitive neuroscience the biology of the mind Brain physiology Cognition physiology Cognitive Science Cognitive neuroscience Neuropsychology Neurowissenschaften (DE-588)7555119-6 gnd Gehirn (DE-588)4019752-9 gnd Methode (DE-588)4038971-6 gnd Kognitionswissenschaft (DE-588)4193780-6 gnd Neurobiologie (DE-588)4041871-6 gnd Kognitive Psychologie (DE-588)4073586-2 gnd Kognitiver Prozess (DE-588)4140177-3 gnd Kognition (DE-588)4031630-0 gnd Neuropsychologie (DE-588)4135740-1 gnd |
| subject_GND | (DE-588)7555119-6 (DE-588)4019752-9 (DE-588)4038971-6 (DE-588)4193780-6 (DE-588)4041871-6 (DE-588)4073586-2 (DE-588)4140177-3 (DE-588)4031630-0 (DE-588)4135740-1 (DE-588)4123623-3 (DE-588)1071861417 |
| title | Cognitive neuroscience the biology of the mind |
| title_auth | Cognitive neuroscience the biology of the mind |
| title_exact_search | Cognitive neuroscience the biology of the mind |
| title_exact_search_txtP | Cognitive neuroscience the biology of the mind |
| title_full | Cognitive neuroscience the biology of the mind Michael S. Gazzaniga ; Richard B. Ivry ; George R. Mangun |
| title_fullStr | Cognitive neuroscience the biology of the mind Michael S. Gazzaniga ; Richard B. Ivry ; George R. Mangun |
| title_full_unstemmed | Cognitive neuroscience the biology of the mind Michael S. Gazzaniga ; Richard B. Ivry ; George R. Mangun |
| title_short | Cognitive neuroscience |
| title_sort | cognitive neuroscience the biology of the mind |
| title_sub | the biology of the mind |
| topic | Brain physiology Cognition physiology Cognitive Science Cognitive neuroscience Neuropsychology Neurowissenschaften (DE-588)7555119-6 gnd Gehirn (DE-588)4019752-9 gnd Methode (DE-588)4038971-6 gnd Kognitionswissenschaft (DE-588)4193780-6 gnd Neurobiologie (DE-588)4041871-6 gnd Kognitive Psychologie (DE-588)4073586-2 gnd Kognitiver Prozess (DE-588)4140177-3 gnd Kognition (DE-588)4031630-0 gnd Neuropsychologie (DE-588)4135740-1 gnd |
| topic_facet | Brain physiology Cognition physiology Cognitive Science Cognitive neuroscience Neuropsychology Neurowissenschaften Gehirn Methode Kognitionswissenschaft Neurobiologie Kognitive Psychologie Kognitiver Prozess Kognition Neuropsychologie Lehrbuch Konferenzschrift 1981 |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015705394&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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