The neuroscience of animal intelligence from the seahare to the seahorse
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| Format: | Buch |
| Sprache: | English |
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1993
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| Schriftenreihe: | Animal intelligence
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Datensatz im Suchindex
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|---|---|
| adam_text | The Neuroscience
of Animal Intelligence
From the Seahare to the Seahorse
Euan M Macphail
Columbia University Press
New York
Contents
Foreword, by Warren H Meek • xvii
Preface xxi
Acknowledgments xxv
1 The Physiological Analysis of Cognition 1
Historical Background 1
Early Notions of Brain Function 1
Advances in the Understanding of Nerves 6
Localization of Function in the Brain 9
Summary 16
The Mind-Body Problem 16
Goals of Behavioral Neuroscience 20
Localization of Function 21
Identification of Physiological Substrates 22
Definition of Cognitive Functions 23
On the Organization of This Book 26
2 Simple Learning in Simple Systems 27
Habituation, Dishabituation, and Sensitization 27
viii Contents
Dual-Process Theory
Analysis of Simple Systems
Advantages of Aplysia
Habituation in Aplysia
Short-Term Habituation
Long-Term Habituation
Sensitization in Aplysia
Short-Term Sensitization
Long-Term Sensitization
From Physiology to Behavior
Aplysia: Not Such a Simple System
Analyses of Spinal Vertebrate Preparations
Frog Spinal Cord
Cat Spinal Cord
Spinal Vertebrates: Not Simple Systems
Nonassociative Learning: Not Simple Processes
3 Habituation in Vertebrates
Extrinsic Theories of Habituation
Afferent Neuronal Inhibition
Neuronal Models
Priming Theory
Evidence from Recording Studies
Difficulties in Establishing Causal Relationships
Habituation of the Startle Reflex
Short-Term Habituation
Sensitization
Long-Term Habituation
Summary and Conclusions
Habituation of the Orienting Reflex
Neocortex and Habituation of Orienting Reflexes
Hippocampus and Orienting Reflexes
Contents ix
Hippocampus and Exploration 92
Summary and Conclusions 96
Extrinsic Versus Intrinsic Theories of Habituation 96
Priming Theory %
Dual-Process Theory 98
4 Association Formation in Simple Systems 101
The Physiological Analysis of Conditioning 101
Two Types of Conditioning Procedure 102
Conditioning in Aplysia 103
Basic Behavioral Findings 103
Physiological Correlates 105
Conditioning as a Form of Sensitization 112
Conditioning in Hermissenda 114
Basic Behavioral Findings 114
Physiological Correlates 115
Optimal Temporal Relationships of CS and UCS 123
Contrasts Between Hermissenda and Aplysia 125
Behavioral Aspects of Learning in Mollusks 126
Instrumental Conditioning 129
Fear Conditioning 130
The Role of Contingency 132
Blocking 134
Contextual Conditioning 136
Conclusions 137
A Reductionist Analysis of Complex Learning Phenomena 141
Application to Blocking 141
Difficulties for the Reductionist Analysis 143
Conclusions 145
Conditioning in Spinal Animals 146
Classical Conditioning in Spinal Cats 146
Conditioning in Spinal Rats 152
Pointers for Work on Intact Vertebrates • 155
x Contents
5 Association Formation in Vertebrates: The Role of
the Cerebellum 157
Brain Structures and Conditioning in Vertebrates 157
A Role in Conditioning for the Cerebellum 157
Cerebellar Neuroanatomy 160
Inputs 160
Outputs 162
A Vertebrate Model System 162
Basic Evidence for Cerebellar Involvement in Conditioning 164
A Neuronal Model of the CR in the Cerebellum 164
Effects of Dentate!Interpositus Lesions 166
Exploration of CS, UCS, and CR Pathways 167
CS Pathway 168
UCS Pathway 169
CR Pathway 169
Site of Conditioning-Induced Changes 171
A Site in Cerebellar Cortex? 171
A Site in the Deep Nuclei? 173
Nature of the Modulation 174
Eyelid Conditioning as Alpha Conditioning 174
Mechanism of Activity-Dependent Modulation 174
Implications for Behavioral Theory 176
Preparatory Versus Consummatory Responses 176
Sometimes Opponent Process Theory • 779
Cerebellum and Learning: Two Reservations 184
6 Association Formation in Vertebrates: The Role of
the Hippocampus 187
The Hippocampus: A Structure of Special Interest
to Neuroscience 187
Hippocampal Anatomy - 190
Contents xi
Intrinsic Hippocampal Connections 190
Extrinsic Hippocampal Connections 194
A Neuronal Model in the Hippocampus 198
Characteristics of Hippocampal Neuronal Models 198
Models Originate from Pyramidal Cells 201
Models Are Elaborated in the Hippocampus Proper 201
Contrasts Between Hippocampal and Cerebellar
Neuronal Models _ 204
Long-term Potentiation: A Mechanism of
Association Formation? 204
A Postsynaptic Site for Induction of UP 210
A Postsynaptic Site for Maintenance of UP? The Lynch-
Baudry Hypothesis 212
A Presynaptic Site for Maintenance of UP? 217
UP Is Associated with Morphological Changes 222
Different Types of UP 223
A Role in Memory for LTP? 225
Does Learning Obtain UP? 226
Effects on Learning of NMD A Receptor Antagonists 228
NMD A Receptors and Plasticity in Visual Cortex 231
Effects on Learning of the Calpain Inhibitor Leupeptin 232
Effects on Learning of Prior Induction of UP 233
UP and Forgetting 233
UP: An Associative Mechanism Involved in Spatial
Learning? 234
Effects of Hippocampal Lesions on Association Formation 236
Excitatory and Inhibitory Conditioning Using the
Standard Delay Paradigm 236
Trace Conditioning 237
Sensory Preconditioning 241
Taste- and Odor-Aversion Learning 242
Phenomena Attributed to Selective Attention 243
Conclusion _ 252
Neocortex and Conditioning 252
xn Contents
Vertebrate and Invertebrate Mechanisms Compared 255
Final Comment: Neuronal Models, LTP, and Theories of
Hippocampal Function 257
7 Contextual Learning 258
Physiological Analysis of Nonassociative Learning 258
Contextual Processing and the Hippocampus 260
Classification of Hippocampal EEG Records 260
The Hippocampal Theta Rhythm 261
Two Types of Theta 261
Origins of Theta 262
Inter- and Intraspecies Differences in Theta 262
Theta Reflects Hippocampal Activity 263
Hippocampal Single-Unit Activity 263
Place and Displace Cells 263
Properties of Place Cells 264
Head-Direction Cells in the Subicular Complex 267
Hippocampal Pyramidal Cells: Multiple Functions? 268
A Spatial Map in the Hippocampus: The O Keefe and
Nadel Theory 268
Interpretation of Electrophysiological Data 268
Potential Importance of Lesion Data 270
Two Systems for Learning: The Locale and the
Taxon Systems 270
Spatial Learning Following Hippocampal Damage 272
Nonspatial Learning Following Hippocampal Damage • 278
Difficulties for the Mapping Hypothesis 280
Unit Recordings 281
Lesion Data 285
Concluding Comments 290
The Role of Extrahippocampal Limbic Structures in
Spatial Processing 290
The Limbic System and Spatial Processing 291
Role of the Papez Circuit and the Trisynaptic Pathway 292
Contents xiii
Spatial Processing and the Frontal Cortex 293
Frontal Cortex: Anatomy 294
Learning and Memory Following Frontal Damage 296
Representation of Specific Visuo-Spatial Information in
Frontal Cortex 298
Spatial Versus Nonspatial Processing in Frontal Cortex 299
Sulcus Principalis and Hippocampus: Components of the
Same System? - 301
Rat Frontal Cortex and Maze Learning 301
Do Frontal Monkeys Show a Generalized Spatial-
Learning Deficit? 303
Delayed Spatial Learning in Hippocampal Monkeys 304
Conclusion: Spatial Mapping and the Prefrontal Cortex 305
Final Comments: Contextual Learning in Hippocampal
Humans and in Slugs 306
8 The Fractionation of Memory 309
Memory in Animals 309
Working Versus Reference Memory 311
Hippocampus and Working Memory 311
Working Memory Tasks Disrupted by
Hippocampal Damage 312
Difficulties for the Working Memory Hypothesis 318
Some Reference Memory Tasks Are Disrupted by
Hippocampal Damage 318
Not All Working Memory Tasks Are Disrupted by
Hippocampal Damage 322
Problems of Anatomical Localization 327
Aspiration Versus Radiofrequency Lesions 327
Neurotoxic Lesions 328
Conclusion 330
The Hippocampus and Consolidation 331
Consolidation Theory 331
Time Course of Consolidation 331
xiv Contents
Relationship Between Anterograde and
Retrograde Amnesia 332
Some Long-term Memories Are Preserved in
Human Amnesia 335
Cognitive Theories of Hippocampal Memory Function 335
Hippocampus and Recognition Memory 336
Experimental Support for the Recognition Hypothesis 337
Difficulties for the Recognition Memory Hypothesis 342
Hippocampal Damage May Disrupt
Associative Learning 343
Hippocampal Damage Does Not Invariably
Disrupt Recognition 343
An Animal Model of Global Amnesia 344
Amygdala: Anatomy • 345
Effects of Amygdalar Damage 346
Effects of Combined HippocampallAmygdalar Lesions 352
Effects of Combined Lesions of Structures Associated
with the Hippocampus and Amygdala 354
Skill Learning by Amnesics 355
Declarative Versus Procedural Knowledge 357
Difficulties for the Animal Model of Global Amnesia 365
Discordant Lesion Effects 365
Role of Cortex Adjoining the Hippocampus and
the Amygdala 369
Current Status of Cognitive Theories of Hippocampal
Function 373
Summary of Difficulties Facing Rival Theories 373
Cognitive Theories: Congruent with Basic
Human Data 374
Can Basic Evidence for Rival Theories Be
Accommodated Within the Procedural I Declarative
Framework? 375
Concluding Comments: Progress Toward Characterization
of Cognitive Capacities 378
Contents xv
9 Unexplored Avenues 381
Tripartite Organization of This Chapter 381
Two Outstanding Problems 381
A Comparative Vertebrate Neurology 382
Importance of Dissociation 382
Dissociation by Variation in Physiological Technique 382
A Comparative Approach to Dissociation 383
Avian Telencephalic Organization • 384
Avian Hippocampal Complex 384
Avian Hippocampus and Spatial Learning 387
Homing by Pigeons After Hippocampal Damage 387
Cache Recovery by Food-storing Birds 393
Role of Avian Hippocampus in Conventional Memory Tasks 396
Avian Versus Mammalian Hippocampus: Some
Speculations 397
Neurological Differences Imply Behavioral Differences 398
Behavioral Differences Imply Neurological Differences 398
Conclusions 400
B Computational Neuroscience 401
Parallel Distributed Processing 401
Support from Biological Considerations 402
Distributed Processing in Cortex? 402
Hebb-Marr Networks 405
The McNaughton and Morris Model 405
An Associational Array in the Dentate Gyrus? 405
Autocorrelative Arrays 414
Two Problems for the McNaughton and Morris Proposals 419
The Rolls Model 421
Categorization in the Dentate Gyrus? 421
Episodic Memory Formation in the CA3 Region? 422
xvi Contents
Categorization in CA1 ? 422
Current Status of the Computational Approach to
Hippocampal Function 423
C Functions of the Neocortex 425
Perceptual Processing in the Cortex 425
Engram Storage 425
Role of Association Areas 426
Neocortex: A Mosaic of Modality-Specific Regions 431
Epilogue: Neocortex and General Intelligence 431
The Definition of Intelligence 432
The Nature of Intelligence: Unitary or Mosaic? 433
A Fitting Conclusion 439
Bibliography 441
Author Index 483
Subject Index 493
|
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| language | English |
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| spelling | Macphail, Euan M. Verfasser (DE-588)124167152 aut The neuroscience of animal intelligence from the seahare to the seahorse Euan M. Macphail New York Columbia Univ. Press 1993 XXIII, 506 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Animal intelligence Tiere (DE-588)4060087-7 gnd rswk-swf Intelligenz (DE-588)4027251-5 gnd rswk-swf Gedächtnis (DE-588)4019614-8 gnd rswk-swf Neurophysiologie (DE-588)4041897-2 gnd rswk-swf Lernen (DE-588)4035408-8 gnd rswk-swf Tiere (DE-588)4060087-7 s Intelligenz (DE-588)4027251-5 s Neurophysiologie (DE-588)4041897-2 s DE-604 Lernen (DE-588)4035408-8 s Gedächtnis (DE-588)4019614-8 s HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=005854474&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Macphail, Euan M. The neuroscience of animal intelligence from the seahare to the seahorse Tiere (DE-588)4060087-7 gnd Intelligenz (DE-588)4027251-5 gnd Gedächtnis (DE-588)4019614-8 gnd Neurophysiologie (DE-588)4041897-2 gnd Lernen (DE-588)4035408-8 gnd |
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| title | The neuroscience of animal intelligence from the seahare to the seahorse |
| title_auth | The neuroscience of animal intelligence from the seahare to the seahorse |
| title_exact_search | The neuroscience of animal intelligence from the seahare to the seahorse |
| title_full | The neuroscience of animal intelligence from the seahare to the seahorse Euan M. Macphail |
| title_fullStr | The neuroscience of animal intelligence from the seahare to the seahorse Euan M. Macphail |
| title_full_unstemmed | The neuroscience of animal intelligence from the seahare to the seahorse Euan M. Macphail |
| title_short | The neuroscience of animal intelligence |
| title_sort | the neuroscience of animal intelligence from the seahare to the seahorse |
| title_sub | from the seahare to the seahorse |
| topic | Tiere (DE-588)4060087-7 gnd Intelligenz (DE-588)4027251-5 gnd Gedächtnis (DE-588)4019614-8 gnd Neurophysiologie (DE-588)4041897-2 gnd Lernen (DE-588)4035408-8 gnd |
| topic_facet | Tiere Intelligenz Gedächtnis Neurophysiologie Lernen |
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