Brain evolution and cognition:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
Wiley [u.a.]
2001
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIII, 597 S. Ill., graph. Darst. |
| ISBN: | 0471331708 |
Internformat
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Datensatz im Suchindex
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| adam_text | Contents
INTRODUCTION
Problems in the study of brain evolution and cognition 1
Mario F. Wullimann and Gerhard Roth
Handicaps in the search for an evolutionary history of vertebrate brains 1
Silent revolutions emerging 2
The amniote telencephalon as a case in point 3
A special position for humans? 5
What is cognition? 6
References 7
PART I DEVELOPMENTAL AND ADULT BRAIN
ORGANIZATION IN EVOLUTION
1 Brain phenotypes and early regulatory genes:
The Bauplan of the metazoan central nervous system 11
Mario F. Wullimann
Introduction 11
Comparative phenotypic analysis of metazoan central nervous characters.... 13
The cladistic framework 13
A can of worms: Plathelminths, nemathelminths, nemertines 14
The molluscan controversy 20
The arthropod CNS, rather than being ancestral to the vertebrate CNS,
is equally remote from the basic bilaterian Bauplan as the craniate brain. . 22
Deuterostome nervous systems 25
Conclusion 28
Early genes in neural development Do they tell a different story? 30
Development and Bauplan of the vertebrate CNS 30
Early regulatory genes and neuromeres in the vertebrate brain 32
Early regulatory genes and the insect CNS 32
Phylogenetic interpretation of molecular genetic and phenotypic data .... 34
Conclusion 36
References 37
2 The echinoderm nervous system and its phylogenetic interpretation 41
Thomas Heinzeller and Ulrich Welsch
Introduction 41
Description of Nervous Systems 44
Larval nervous system 44
Postmetamorphotic nervous system: Common features 45
i Contents
Postmetamorphotic nervous system: Group specific features 51
Cryptosyringida 54
Inter class comparison of sensory versus motor function 60
Questions of Symmetry 60
Central part of the body 60
Bilateral symmetry and segmentation of the arms 61
Are echinoderm arms homologous with bilaterian trunks? 62
Echinoderm ectoneural cord versus chordate neural plate 62
Additional body axes 64
Hydrocoel and notochord are they convergent or homologous? 65
Locomotion of Echinoderms 66
Phylogenetic Aspects 68
Consistency versus flexibility of regulatory genes 68
Garstang s hypothesis 68
Systematics of echinoderms 69
Missing brain 69
References 69
i Evolution of vertebrate motor systems 77
Hans J. ten Donkelaar
Introduction 77
Basics of vertebrate locomotion 80
Prehensile extremities 84
Features of the ancestral vertebrate motor system 85
Neural control of quadrupedal locomotion 91
Supraspinal control 93
Descending supraspinal pathways 93
The cerebellorubrospinal limb control system 98
The special case for birds 104
Summary 106
References 107
I Sensory system evolution in vertebrates 113
William Hodos and Ann B. Butler
How many senses? 113
How many cranial nerves? 115
Trends in sensory system evolution 116
Ascending sensory pathways 119
Neuroembryology and the evolution of sensory systems 120
Evolution of new sensory receptors 122
Evolution of new primary, secondary, and higher order
sensory nuclei 122
Contents vii
The evolution of sensory specialists 123
Evolution of central sensory pathways 124
The evolution of new central sensory nuclei 125
The evolution of sensory maps 126
Loss of sensory receptors and central pathways 127
Mechanisms of sensory system evolution 130
References 131
5 Evolution of the forebrain in tetrapods 135
Toru Shimizu
Introduction 135
Evolution of tetrapods 137
Early tetrapods Ancestral amphibians 137
Early amniotes Ancestral reptiles 139
Synapsids Mammals 140
Sauropsids Reptiles 142
Sauropsids Birds 144
Conclusion 145
Forebrain organization of living tetrapods 145
Amphibian pattern 146
Mammalian pattern 152
Sauropsid pattern 156
Conclusion 161
Evolutionary history of the tetrapod forebrain 162
Early tetrapods 163
Early amniotes 163
Synapsids and sauropsids 165
Conclusion 169
Environmental pressures on the tetrapod forebrain 170
Anamniote pattern versus amniote pattern 171
Sauropsid pattern versus mammalian pattern 172
Conclusion 175
References 176
6 Neocortical macrocircuits 185
Rudolf Nieuwenhuys
Introduction 185
Major sensorimotor projections 186
Control systems 189
Reticular, greater limbic and general modulatory inputs to
neocortical circuitry 192
The ascending reticular system 192
The greater limbic system 193
Monoaminergic and cholinergic modulatory systems 194
viii Contents
Cortico subcortico cortical association systems 195
The thalamic association system 196
The striatal association system 198
The cerebellar association system 199
Summary 201
References 202
7 Hunting in barn owls: Peripheral and neurobiological specializations
and their general relevance in neural computation 205
Hermann Wagner
Introduction 205
Evolutionary position and geographical distribution of the barn owl 206
Hunting as a complex behavior 206
General comments 206
Formal description of the hunting situation 208
Adaptations of barn owls to hunting in the night 209
The barn owl s brain 212
Morphological adaptations of the owl s brain to hunting and
life at night 213
Physiological adaptations 216
Coincidence detection 218
Further brain adaptations subserving sound localization behavior 225
Differences in the representation of acoustic space in diurnal and
nocturnal owls 228
General meaning of coincidence detection and across frequency
integration 228
Conclusions 231
References 232
8 Evolution and devolution: The case of bolitoglossine salamanders 237
Gerhard Roth and David B. Wake
Introduction 237
The Bolitoglossini 238
The brain of salamanders and frogs 244
The visual system of bolitoglossines 249
Retina and retinofugal system 249
Tectum 250
The fate of other sensory systems 253
Causes and consequences of simplification in the context of
paedomorphosis 254
What do bolitoglossines tell us about evolution in general and brain
evolution in particular? 258
References 260
Contents ix
9 Evolutionary constraints of large telencephala 265
Gerd Rehkdmper, Heiko D. Frahm, and Michael D. Mann
Evolution What does that mean? 265
Brain and brain part size as a heuristic tool 266
What factors influence brain size or brain part size? 268
There is no brain size alteration 269
Brain size alterations are epiphenomena 269
Brain size is influenced by individual learning 270
Brain size and brain part size reflect adaptation 271
Definition of large telencephala 271
Mammals 272
Telencephala enlarged because of dominance of olfactory orientation . . . 272
Telencephala enlarged because of superior spatial cognition 272
Telencephala enlarged because of a voluminous isocortex 275
Isocortex (and therefore, telencephalon) enlarged because of
elaborated somatosensory areas together with a necessity of motor
coordination in a subterranean life 276
Telencephala enlarged because of multimodal integration 278
Birds 278
Telencephala enlarged because of olfaction 278
Telencephala enlarged because of spatial cognition 279
Telencephala enlarged because of isocortical equivalents 280
Domesticated animals 283
Again: Theories of brain size and brain composition 285
Conclusions 288
References 289
PART II COGNITION: FROM NEURAL BASIS TO BEHAVIOR
10 Brain and cognitive function in teleost fishes 297
Leo S. Demski and Joel A. Beaver
Introduction 297
Studies on cognition in fishes 298
Brain lesions and cognitive behavior in fishes 300
Telencephalon: Nonspatial learning 300
Telencephalon: Spatial learning 301
Cerebellum 302
Tectum 303
Relative brain size and development: Implications for cognitive
function in fishes 304
Studies in minnows (Cypriniformes) 304
Blind and sighted characins 306
x Contents
The cichlids of the African great lakes 306
Coral reef percomorphs 307
Microcircuitry of telencephalic enhancements in selected percomorphs .... 311
Area dorsalis telencephali pars lateralis (dorsal part) 313
Area dorsalis telencephali pars centralis 317
Area dorsalis telencephali pars medialis 319
Behavioral studies on the enlarged telencephalon of percomorphs 321
Summary and conclusions 323
References 325
11 Cognition in insects: The honeybee as a study case 333
Randolf Menzel, Martin Giurfa, Bertram Gerber, and Frank Hellstern
Introduction: Brain, behavior, and biology of honeybees 333
Behavior and biology of honeybees 333
Design of an insect brain 335
Elementary and configural forms of learning in classical conditioning 338
The preparation: Classical conditioning of the proboscis
extension reflex 338
A cognitive approach to memory dynamics 340
The elementary configural distinction 342
Cognitive aspects of elementary forms of conditioning? 342
Configural forms of conditioning 345
Learning in the natural context 346
Context dependent learning and retrieval 346
Serial order in a spatiotemporal domain 348
The representation of space in navigation 350
Visual discrimination learning in honeybees: Generalization,
categorization, and concept formation 354
Conclusion 359
Basic cognition with a small brain 359
The ecological niche and basic cognition 360
References 362
12 Insect brain 367
Nicholas J. Strausfeld
Introduction 367
General features of segmental ganglia 368
The protocerebrum and the preoral brain . . 372
Evolutionary considerations 372
General organization of the protocerebrum 373
The mushroom bodies 375
Structure 375
Evolution of mushroom bodies in insects 377
Relationship to primary sensory neuropils 378
Contents xi
Mushroom body physiology 381
Roles of mushroom bodies 382
The central complex 384
Evolutionary considerations 384
Organization of the central complex 384
Central complex function 385
Comparisons of brain regions amongst arthropods 389
Mushroom bodies 389
The central complex 390
Insect and vertebrate brains compared 392
Equivalence of insect and vertebrate embryonic forebrain 392
The adult brain 393
References 395
13 Conservation in the neurology and psychology of cognition
in vertebrates 401
Euan M. Macphail
Introduction: Complexity in brains and behaviour 401
Species differences in intelligence 402
Birds and mammals compared 403
The basal ganglia 405
Paleostriatal lesions and classical conditioning in the pigeon 407
The archistriatum 409
Posteromedial archistriatum: Fear and avoidance 409
Anterior and intermediate archistriatum: Parallels with isocortex 411
Cortex 411
Olfactory cortex 411
Hippocampal complex 412
Isocortical analogues/homologues 416
Conclusions 426
References 427
14 Multimodal areas of the avian forebrain—Blueprints
for cognition? 431
Onur Giintiirkiin and Daniel Durstewitz
The theme 431
Working memory and prefrontal cortex 432
Avian brain and cognition 434
Details of the machine 437
The decline of a memory store 439
Simulation of the machine 442
Looking inside 449
References 450
xii Contents
15 Cognition of birds as products of evolved brains 451
Juan D. Delius, Martina Siemann, Jacky Emmerton and Li Xia
Introduction 451
Categorization 456
Concepts 461
Transitivity 467
Numerosity 472
Epilogue 477
References 483
16 What can the cerebral cortex do better than other parts
of the brain? 491
Almut Schtiz
Introduction 491
Basic connectivity of the isocortex 492
The cerebral cortex and cognition 494
Comparative aspects 497
Brain size and connectivity 497
Allocortex and reptilian cortex 498
References 499
17 Evolution and complexity of the human brain: Some organizing
principles 501
Michel A. Hofman
Introduction 501
Evolution of brain size 502
Encephalization in primates 505
General constraints on brain evolution 507
Evolution and geometry of the cerebral cortex 510
Design principles of neuronal organization 514
Biological limits to information processing 515
Concluding remarks 518
References 519
18 The evolution of neural and behavioral complexity 523
Harry J. Jerison
Introduction 523
Vigilance and attention: An old fashioned view 525
Costs and attention 526
Costs and brains 531
Brain size in living vertebrates: Allometry and encephalization 533
Exceptions 535
Early avian and mammalian encephalization 539
Contents xiii
Progressive encephalization in mammals 542
More on neural information 544
Neural and behavioral complexity 546
Why some brains are big: What do big brains do? 547
References 551
19 The evolution of consciousness 555
Gerhard Roth
Phenomenology of consciousness 556
The neurobiological basis of the different states and appearances
of consciousness 558
Cognition and consciousness in animals 564
Animal brains and human brain 568
Consciousness and language 577
Conclusions 579
References 580
Index 583
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| indexdate | 2024-07-09T18:44:49Z |
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| publisher | Wiley [u.a.] |
| record_format | marc |
| spelling | Brain evolution and cognition ed. by Gerhard Roth ... New York [u.a.] Wiley [u.a.] 2001 XIII, 597 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Cerveau - Évolution Cognitie gtt Cognition Evolutie gtt Hersenen gtt Brain Evolution Brain anatomy & histology Brain physiology Cognition physiology Evolution Physiology, Comparative Kognition (DE-588)4031630-0 gnd rswk-swf Bewusstsein (DE-588)4006349-5 gnd rswk-swf Gehirn (DE-588)4019752-9 gnd rswk-swf Evolution (DE-588)4071050-6 gnd rswk-swf Bewusstsein (DE-588)4006349-5 s Gehirn (DE-588)4019752-9 s Evolution (DE-588)4071050-6 s DE-604 Kognition (DE-588)4031630-0 s Roth, Gerhard 1942-2023 Sonstige (DE-588)118191152 oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009127142&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Brain evolution and cognition Cerveau - Évolution Cognitie gtt Cognition Evolutie gtt Hersenen gtt Brain Evolution Brain anatomy & histology Brain physiology Cognition physiology Evolution Physiology, Comparative Kognition (DE-588)4031630-0 gnd Bewusstsein (DE-588)4006349-5 gnd Gehirn (DE-588)4019752-9 gnd Evolution (DE-588)4071050-6 gnd |
| subject_GND | (DE-588)4031630-0 (DE-588)4006349-5 (DE-588)4019752-9 (DE-588)4071050-6 |
| title | Brain evolution and cognition |
| title_auth | Brain evolution and cognition |
| title_exact_search | Brain evolution and cognition |
| title_full | Brain evolution and cognition ed. by Gerhard Roth ... |
| title_fullStr | Brain evolution and cognition ed. by Gerhard Roth ... |
| title_full_unstemmed | Brain evolution and cognition ed. by Gerhard Roth ... |
| title_short | Brain evolution and cognition |
| title_sort | brain evolution and cognition |
| topic | Cerveau - Évolution Cognitie gtt Cognition Evolutie gtt Hersenen gtt Brain Evolution Brain anatomy & histology Brain physiology Cognition physiology Evolution Physiology, Comparative Kognition (DE-588)4031630-0 gnd Bewusstsein (DE-588)4006349-5 gnd Gehirn (DE-588)4019752-9 gnd Evolution (DE-588)4071050-6 gnd |
| topic_facet | Cerveau - Évolution Cognitie Cognition Evolutie Hersenen Brain Evolution Brain anatomy & histology Brain physiology Cognition physiology Evolution Physiology, Comparative Kognition Bewusstsein Gehirn |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009127142&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT rothgerhard brainevolutionandcognition |