Behavioral neurobiology an integrative approach
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Oxford Univ. Press
2010
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| Ausgabe: | 2. ed. |
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| 100 | 1 | |a Zupanc, Günther K. H. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Behavioral neurobiology |b an integrative approach |c Günther K. H. Zupanc |
| 246 | 1 | 3 | |a Behavioural neurobiology |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a Oxford [u.a.] |b Oxford Univ. Press |c 2010 | |
| 300 | |a XIX, 371 S. |b Ill., graph. Darst. | ||
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| 650 | 4 | |a Animal behavior | |
| 650 | 4 | |a Comparative neurobiology | |
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| adam_text | Dedication v
About the author
vi
Foreword
vii
Preface
ix
1
introduction
ι
Introduction
1
Neuroethology: the synthesis of neurobiology and ethology
2
Choosing the right level of simplicity
3
Quantifying behavior: a prerequisite for neuroethologicai research
5
Finding the right model system
6
Summary
8
Recommended reading
9
Questions
9
Advanced topic
9
2
Fundamentals of neurobiology
11
Introduction
11
Cellular and subcellular composition of nervous systems
11
Cell theory versus
reticular
theory
11
Neurons and nervous systems
14
Axon ensheathment by myelin
15
Physiology and ionic basis of the electrical properties of neurons
17
Recording techniques
17
Resting potential
19
Generation of action potentials
21
Recording of propagating action potentials
22
Propagation of action potentials: myelinated versus unmyelinated
axons
24
Voltage-gated sodium channels
27
Synapses
29
Chemical synapse: structure and function
29
Neurotransmitters
32
xiv Contents
lonotropic versus
metabotropic receptors
33
Nicotinic acetylcholine
receptor molecular structure and function
35
Synaptic potentials
37
Electrical synapse
39
Sensory systems
41
Function of sensory organs
41
Receptor potentials and frequency coding
42
Neurobiological approaches in neuroethoiogy
42
Elucidation of
neuronal
connections
43
Localization of tissue constituents
45
Immunohistochemistry
46
In situ hybridization
48
Selective elimination of cells
50
Summary
51
Recommended reading
53
Questions
53
Advanced topic
54
3
Fundamentals of ethology
55
Introduction
55
Sign stimuli and releasing mechanisms
55
Supernormal stimuli
57
Law of heterogeneous summation
59
Gestalt
principle
60
Importance of condition of recipient
62
Motivational effect of releaser
63
Communication
64
Summary
71
Recommended reading
72
Questions
72
Advanced topic
73
4
The study of animal behavior a brief history
75
Introduction
75
The roots of the study of animal behavior
76
Aristotle and the Middle Ages
76
Mind-body dualism
77
The new era in the study of animal behavior
78
Evolutionary theory and comparative approaches
78
Experimental and objective approaches
78
Contents xv
The rise of ethology
79
Mechanistic schools
83
Relating
neuronal
activity to behavior: the establishment of neuroethology
87
The beginnings
87
The breakthroughs
92
The future
93
Summary
94
Recommended reading
95
Questions
95
Advanced topic
96
Spatial orientation and sensory guidance
97
Introduction
97
Classification of orienting movements
98
Orienting behavior without a nervous system
99
Cellular mechanisms of taxis behavior in paramecia
101
Phobotaxls
101
Galvanotaxis 103
Geotaxis in vertebrates
106
Effective physiological stimulus
107
Physiological properties of hair cells
109
Transduction mechanism
110
Echolocation in bats
1
11
The beginnings of echolocation research
112
Classification of bat ultrasound
114
FM
signals: distance estimation
115
CF signals:
Doppler
shift analysis
118
Adaptations of the auditory system
120
Counter-sonics: the prey s adaptations
122
Summary
124
Recommended reading
126
Questions
126
Advanced topic
127
Neuronal
control of motor output 1
28
introduction
128
Escape swimming in toad tadpoles
129
The behavior
129
A physiological approach to the study of swimming behavior
130
The spinal circuitry controlling swimming
132
Operation of the swimming circuitry
134
Coordination of oscillator activity along the spinal cord
135
xvi Contents
Decision-making 1^6
Reflexive
decision-making
versus
dynamic decision-making
136
The neuronal
decision-making circuit in the leech 1
38
Summary 14^
Recommended reading 142
Questions 142
Advanced topic 142
Neuronal
processing of sensory information 1
44
introduction I44
Recognition of prey and predators in the toad
1
45
The model system
1
4^
The natural behavior
146
Dummy experiments
146
in search of feature detectors
150
The visual system
151
Recording experiments
152
Stimulation experiments
153
Connections with other brain regions
154
Directional localization of sound in the barn owl
155
The behavior
155
Experimental approach
157
Accuracy of orientation response
159
Physical parameters of sound involved in head orientation
160
The cochlear nucleus: parallel processing of time and intensity information
163
The laminar nucleus: computation of interaural time differences
167
The posterior lateral nucleus: computation of interaural intensity differences
169
The lateral shell: convergence of timing and Intensity information
171
External nucleus: formation of a map of auditory space
171
The final step in sensory processing: formation of an auditory-visual map
172
Summary
173
Recommended reading
175
Questions
176
Advanced topic
176
Sensorimotor integration: the jamming avoidance response
of the weakly electric fish Eigenmannia
177
Introduction
177
The system and its components
179
Electric organs and electroreceptors
179
Electrolocation
181
The jamming avoidance response
182
Contents xvii
Behavioral experiments
183
Determination of the sign of the frequency difference without internal reference
183
Behavioral rules governing the jamming avoidance response
185
Neuronal
implementation
191
Electrosensory processing I: electroreceptors
191
Electrosensory processing
il:
electrosensory lateral line lobe
192
Electrosensory processing III: torus semicircularis
194
Electrosensory processing IV: nucleus electrosensorius
195
Motor control
196
Reflections on the evolution of the jamming avoidance response
198
Summary
199
Recommended reading
200
Questions
201
Advanced topic
201
9
Neuromodulation:
the accommodation of motivational changes
in behavior
203
Introduction
203
Neural plasticity as the basis of motivational changes in behavior
205
Structural reorganization
205
Dendritic plasticity: seasonal changes in chirping behavior of weakly electric knifefish
206
Seasonal variation in dendritic morphology of
motoneurons
in white-footed mice
211
Structural reorganization mediated by glial cells
213
When to use structural reorganization ?
215
Biochemical switching
215
Modulation of the stomatogastric ganglion
215
Modulation of crayfish aggressive behavior
217
Modulation of the modulators
217
What makes modulators suitable for
neuromodulation?
218
When to use biochemical switching ?
219
Summary
219
Recommended reading
220
Questions
220
Advanced topic
221
Ί0
Circadian rhythms and biological clocks
222
Introduction
222
Demonstration of circadian rhythms
223
Temperature compensation of free-running periods
225
Entrainment of biological clocks by environmental cues
225
Molecular nature of the clock
229
Anatomical localization of biological clocks
234
xviii Contents
Summary 23^
Recommended reading 2^9
Questions 239
Advanced topic 240
11
Large-scale navigation: migration and homing
241
introduction 241
Modes of migration
242
Genetic control of migratory behavior 246
Homing
248
Approaches used to study animal migration and homing
249
Mechanisms of long-distance orientation in birds
250
Sun compass
250
Star compass
254
Magnetic compasses and maps
256
Olfactory navigation in homing pigeons
263
Homing in salmon
264
Life cycle of salmon
265
Precision of homing
267
Transplantation experiments
267
The olfactory imprinting hypothesis
268
Laboratory experiments
270
Imprinting to artificial substances
271
Ultrasonic tracking
272
Hormonal regulation of olfactory imprintings
273
The model
275
Possible
neuronal
mechanism of olfactory imprinting
276
Open-sea navigation: sun-compass orientation
276
Open-sea navigation: magnetoreception
276
Orientation in sea turtles
278
Life cycle of sea turtles
278
Orientation on the beach
280
Magnetic orientation
280
Orientation on land
280
Waves as an orientation cue
281
Summary
283
Recommended reading
285
Questions
286
Advanced topic
287
12
Communication: the neuroethology of cricket song
289
introduction
289
Biophysics of cricket songs
291
Contents xix
Mechanism of sound production
292
Neural control of sound production
293
Behavioral analysis of auditory communication
294
Perception of auditory signals
297
Song recognition by auditory
interneurons
299
Temperature coupling
302
The problem
302
The songs
303
Effect of temperature on calling song
304
Effect of temperature on calling song recognition
305
Summary
307
Recommended reading
308
Questions
309
Advanced topic
309
1 3
Cellular mechanisms of learning and memory
311
Introduction
311
Explicit and implicit memory systems
312
The cell biology of an implicit memory system: sensitization in Aplysia
314
Why Aplysiaf
315
The gill-withdrawal reflex
316
Neural circuit of the gill-withdrawal reflex
318
Molecular biology of short-term sensitization
318
Molecular biology of long-term sensitization
321
The cell biology of an explicit memory system: the hippocampus of mammals
323
Non-human models to study explicit memory
323
The structure of the hippocampus
324
Place cells in the hippocampus
325
Long-term potentiation
327
Molecular biology of long-term potentiation in the mammalian hippocampus
328
New neurons for new memories
330
Adult neurogenesis and memory formation in the hippocampus of rodents
330
Adult neurogenesis and spatial learning in the
avian
hippocampus
333
Summary
335
Recommended reading
336
Questions
337
Advanced topic
337
Glossary
339
References
342
Figure and table acknowledgements
352
index
361
|
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| discipline | Biologie |
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| id | DE-604.BV035837284 |
| illustrated | Illustrated |
| indexdate | 2025-02-03T17:28:01Z |
| institution | BVB |
| isbn | 9780199208302 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018695683 |
| oclc_num | 495596008 |
| open_access_boolean | |
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| owner_facet | DE-355 DE-BY-UBR DE-703 DE-11 DE-20 DE-19 DE-BY-UBM DE-188 DE-824 |
| physical | XIX, 371 S. Ill., graph. Darst. |
| publishDate | 2010 |
| publishDateSearch | 2010 |
| publishDateSort | 2010 |
| publisher | Oxford Univ. Press |
| record_format | marc |
| spellingShingle | Zupanc, Günther K. H. Behavioral neurobiology an integrative approach Animal behavior Comparative neurobiology Neuroethologie (DE-588)4138857-4 gnd Verhaltensphysiologie (DE-588)4187767-6 gnd Neurobiologie (DE-588)4041871-6 gnd Tiere (DE-588)4060087-7 gnd Verhalten (DE-588)4062860-7 gnd |
| subject_GND | (DE-588)4138857-4 (DE-588)4187767-6 (DE-588)4041871-6 (DE-588)4060087-7 (DE-588)4062860-7 |
| title | Behavioral neurobiology an integrative approach |
| title_alt | Behavioural neurobiology |
| title_auth | Behavioral neurobiology an integrative approach |
| title_exact_search | Behavioral neurobiology an integrative approach |
| title_full | Behavioral neurobiology an integrative approach Günther K. H. Zupanc |
| title_fullStr | Behavioral neurobiology an integrative approach Günther K. H. Zupanc |
| title_full_unstemmed | Behavioral neurobiology an integrative approach Günther K. H. Zupanc |
| title_short | Behavioral neurobiology |
| title_sort | behavioral neurobiology an integrative approach |
| title_sub | an integrative approach |
| topic | Animal behavior Comparative neurobiology Neuroethologie (DE-588)4138857-4 gnd Verhaltensphysiologie (DE-588)4187767-6 gnd Neurobiologie (DE-588)4041871-6 gnd Tiere (DE-588)4060087-7 gnd Verhalten (DE-588)4062860-7 gnd |
| topic_facet | Animal behavior Comparative neurobiology Neuroethologie Verhaltensphysiologie Neurobiologie Tiere Verhalten |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018695683&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT zupancguntherkh behavioralneurobiologyanintegrativeapproach AT zupancguntherkh behaviouralneurobiology |