Behavior and neurodynamics for auditory communication:
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Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Cambridge [u.a.]
Cambridge Univ. Pr.
2006
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Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | XXI, 361 S. Ill., graph. Darst. |
ISBN: | 0521829186 |
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adam_text | Behavior and Neurodynamics for
Auditory Communication
Edited by
JAGMEET S KANWAL
and
GUNTER EHRET
© 2008 AGI-Information Management Consultants
May be used for personal purporses only or by
libraries associated to dandelon com network
Contents
Preface AT/7
Contributors v/ v
PART 1 BEHAVIORAL AND ANATOMIC/
PHYSIOLOGIC ADAPTATIONS
1 Vocal mechanisms for avian communication 3
1 1 Introduction 3
1 2 Avian vocal systems 3
121 The syrinx 3
122 Thelabia 5
123 Svrinaeal membranes 6
viii Contents
1 8 Production, propagation, and perception
1 9 Future directions
References
2 The blind mole rat: an example of seismic communication
via acoustic channels
General overview
Properties of the vibratory signals
How are the seismic signals perceived?
Somatosensory or auditory?
Eleetrophysiologic experiments
Behavioral tests
Morphology
Discussion
Conclusion
Abbreviations
Acknowledgments
References
Audiovocal communication and social behavior in
mustached bats
3 1 Introduction
3 2 Social behaviors in captive free-flying bats
321 Maintenance and recording procedures
322 Scoring behaviors and calls
3 3 Results and discussion
331 Roosting structure, activity patterns, and
social interactions 63
332 Behavioral postures and associated calls 64
3321 Crouching behavior 64
3322 Marking behavior 64
3323 Grooming, licking, and
yawning behaviors 64
3324 Nipping behavior 65
3325 Wing-flicking behavior 65
3326 Boxing and poking behavior 65
3327 Wrestling and biting behavior 66
3328 Arching back and kissing behavior 66
3329 Inspection behavior 66
332 10 Flv-bv behavior 67
Contents ix
333 Behavioral context of simple syllabic calls 67
334 Inspection and appeasement 69
335 Territoriality and social dominance 70
3 4 Social interactions in caged bats 71
341 Recording procedures 71
3 5 Results and discussion 73
351 Natural aggression 73
352 Experimentally elicited aggression 74
3 6 Call types and acoustic signal design 77
3 7 Conclusions 81
Acknowledgments 81
References 82
4 Common rules of communication sound perception 85
4 1 Introduction 85
4 2 The basis: common psychoacoustical measures
and relations 87
421 Audiograms 87
422 Temporal summation 87
423 Frequency discrimination 88
424 Intensity discrimination 88
425 Duration discrimination 88
426 Spectral resolution, spectral summation 89
427 Pitch perception and discrimination 89
4 3 The six rules of communication sound perception 90
431 Rule 1: Perception is individualized to the
level of matched groups 90
432 Rule 2: Perception of acoustic meanings or
objects refers to IMDs between acoustic
patterns 90
433 Rule 3: Perception of acoustically expressed
levels of arousal and emotions refers to the
variations in acoustic patterns 92
434 Rule 4: The audible parameter space is
partitioned for the perception of three
basic meanings 93
4341 High-frequency group 96
4342 Broadband group 96
4343 Low-frequency group 96
Contents
435 Rule 5: The integrated extent of the ranges
activated in the audible parameter space is related
to the perception of the urgency of the response
436 Rule 6: Perceptions of categories from
continuums of acoustic patterns are built upon
natural perceptual boundaries
4361 Spectral dormant) structure
4362 Direction of frequency sweeps
(formant transitions)
4363 Duration of information-bearing
elements or parameters
4 4 Conclusions
Acknowledgments
References
Part 1 Behavioral and Physiologic Adaptations:
Summary and Discussion
Anatomic and physiologic adaptations
Behavioral adaptations and the perception of meaning
References
PART 2 NEURAL ADAPTATIONS AND PLASTICITY
5 Neural mechanisms of vocal communication:
interfacing with neuroendocrine mechanisms
5 1 Introduction
5 2 Hormonal control of vocalizations
5 3 Vocal-auditory coupling
5 4 Conclusion and future prospects
Acknowledgments
References
6 Processing of species-specific vocalizations in the
auditory brainstem and midbrain of Mexican free-tailed
bats (Tadarida brasiliensis)
6 1 Introduction
6 2 The importance of hearing for bats
6 3 The structure of the auditory brainstem and midbrain:
a brief overview
6 4 Representation of communication sounds in lower
auditorv nuclei
6 5 Processing of communication sounds is much more
complex in the inferior colliculus 143
6 6 Communication sounds elicit a unique spatio-temporal
pattern of activity in the ICC 147
6 7 Conclusion 150
Acknowledgments 151
References 151
7 A distributed cortical representation of social
communication calls 156
7 1 Introduction 156
7 2 The mammalian AC 157
721 Organization of the AC 158
722 Response properties of primary auditory
cortical neurons 160
7 3 The acoustic structure of complex sounds in
mustached bats 161
731 The structure of echolocation signals 161
732 The structure of social communication calls 161
7 4 The AC in mustached bats 162
741 Functional organization for echolocation 162
742 Neural mechanisms for pulse-echo representation 163
743 Neural mechanisms for call representation 164
7 5 Call responses in mustached bats 165
751 FM-CF combinations 167
752 FM-FM combinations: the time domain 169
753 CF/CF combinations: high-frequency domain 172
754 Harmonic complexity: low-frequency domain 172
76A hypothesis for the cortical representation of calls 175
761 Multiparametric distributed representations 175
762 Representation versus perception 180
7 7 Conclusions 182
Acknowledgments 183
References 183
8 Spatiotemporal processing in the guinea
pig auditory cortex 189
8 1 Introduction 189
8 2 Optical recording methods 189
8 3 Tonotopic organization in auditory cortical fields 191
8 4 Spatiotemporal representation of constant and
frequency-modulated tones
8 5 Responses in AI to vocalized sounds
8 6 Functional significance of the spatiotemporal
representation of sounds
8 7 Activity spreads to the higher auditory fields
8 8 Functional differences of the multiple auditory fields
8 9 Principal component analysis applied to optical signals
8 10 Conclusions
Acknowledgments
References
9 Hierarchic processing of communication sounds
in primates
9 1 Auditory communication as a pattern
recognition problem
9 2 Early parallel processing in the auditory cortex
9 3 Processing of sounds with intermediate complexity
931 Selectivity for BPN
932 Selectivity for parameters of frequency sweeps
9 4 Responses to species-specific calls
941 Nonlinear integration mechanisms
942 MC and spatial selectivity
9 5 Auditory belt projections to prefrontal cortex
9 6 Human imaging studies
9 7 Conclusions
References
10 Synaptic mechanisms and sensitive periods for
song learning 223
10 1 Sensitive periods for learned behavior 223
10 2 Neuronal and behavioral sensitive periods:
common themes 224
10 3 Sensitive periods for neural circuit plasticity:
search for mechanisms 224
10 4 Birdsong development: sensitive periods for a
learned behavior 227
10 5 The song system: a neural circuit for the learning
and production of birdsong 232
Contents xiii
10 6 What are the neural correlates of song plasticity
during sensorimotor learning? 236
10 7 The nucleus RA is an important site to search
for neuronal correlates of vocal plasticity 237
10 8 Neuronal codes for song in the nucleus RA 237
10 9 Extrinsic and intrinsic patterns of synaptic
connectivity in the nucleus RA 238
10 10 The structure and function of RA subregions 239
10 11A cellular analysis of the nucleus RA during
sensorimotor learning 240
10 12 A functional synaptic analysis of the nucleus
RA during sensorimotor learning 241
10 1 3 Molecular effectors of synaptic and vocal plasticity 244
10 14 Alternative possibilities and further tests of the model 249
10 15 Conclusions 252
References 253
11 Neuronal substrates of sensory processing for song
perception and learning in songbirds: lessons from the
mormyrid electric fish 265
11 1 Introduction 265
112 Song perceptual processing and song learning 267
113 Eleetrosensory processing in the mormyrid
electric fish 271
114 The perceptual processing and memorization of song:
in search of a neuronal substrate 276
115 Implementing feedback evaluation: what do we learn
from comparing songbirds and the electric fish 282
I16 Conclusion 285
Acknowledgments 286
References 286
12 Cortical plasticity and auditory communication 294
12 1 Introduction 294
12 2 Experience-dependent plasticity of the auditory
cortex during early development 297
12 2 1 Critical role of sensory experience in early
cortical development 297
12 2 2 Normal development of cortical IBEs/IBPs
and tonotopic maps 298
xiv Contents
12 2 3 Cortical development in a distorted acoustic
environment
12 2 4 Impact of inner ear ablation on cortical
development
12 3 Experience-dependent plasticity of the auditory
cortex in adult animals
12 3 1 Enhancement of cortical representation
induced by acoustic signals alone
12 3 2 Enhanced cortical representation as a result
of learning 301
12 3 3 Cortical plasticity after localized hearing loss 303
12 4 Cortex-oriented plasticity in the central auditory
system: corticofugal modulation 304
12 4 1 Frequency-specific modulation of frequency
tuning and tonotopic maps 305
12 4 2 Modulation of IBEs/IBPs in different domains 307
12 4 3 Corticofugal modulation of response properties
of combination-sensitive neurons 308
12 4 4 Species-specific differences in corticofugal
modulation 308
12 5 Perspective of cortical plasticity for cortical coding
of vocalizations 309
12 6 Conclusion 313
References 313
13 Mesoscopic neurodynamics in auditory cortex during
auditory concept learning 319
13 1 Introduction 319
13 1 1 Traditional theoretical underpinnings of the
study of category learning 3 19
13 1 2 Eco-ethologic aspects ol categorization 320
13 1 3 Categorization and generalization 321
13 2 A new animal model of category learning 323
13 2 1 Categorization of modulation direction
in frequency-modulated tones 324
13 211 Stimuli 324
13 212 Apparatus and training paradigm 324
13 213 Behavioral results 325
13 2 2 Physiologic correlates of category learning 326
electrocorticograms 328
13 3 Conclusions 330
Acknowledgments 331
References 331
Part 2 Neural adaptations and plasticity: summary
and discussion 334
Auditory communication and hormones 334
Audiiory representations 336
Learning, memory and plasticity 339
References 342
Appendix 346
Basics of acoustic signal processing 346
Index 351
|
adam_txt |
Behavior and Neurodynamics for
Auditory Communication
Edited by
JAGMEET S KANWAL
and
GUNTER EHRET
© 2008 AGI-Information Management Consultants
May be used for personal purporses only or by
libraries associated to dandelon com network
Contents
Preface AT/7
Contributors v/ v
PART 1 BEHAVIORAL AND ANATOMIC/
PHYSIOLOGIC ADAPTATIONS
1 Vocal mechanisms for avian communication 3
1 1 Introduction 3
1 2 Avian vocal systems 3
121 The syrinx 3
122 Thelabia 5
123 Svrinaeal membranes 6
viii Contents
1 8 Production, propagation, and perception
1 9 Future directions
References
2 The blind mole rat: an example of seismic communication
via acoustic channels
General overview
Properties of the vibratory signals
How are the seismic signals perceived?
Somatosensory or auditory?
Eleetrophysiologic experiments
Behavioral tests
Morphology
Discussion
Conclusion
Abbreviations
Acknowledgments
References
Audiovocal communication and social behavior in
mustached bats
3 1 Introduction
3 2 Social behaviors in captive free-flying bats
321 Maintenance and recording procedures
322 Scoring behaviors and calls
3 3 Results and discussion
331 Roosting structure, activity patterns, and
social interactions 63
332 Behavioral postures and associated calls 64
3321 Crouching behavior 64
3322 Marking behavior 64
3323 Grooming, licking, and
yawning behaviors 64
3324 Nipping behavior 65
3325 Wing-flicking behavior 65
3326 Boxing and poking behavior 65
3327 Wrestling and biting behavior 66
3328 Arching back and kissing behavior 66
3329 Inspection behavior 66
332 10 Flv-bv behavior 67
Contents ix
333 Behavioral context of simple syllabic calls 67
334 Inspection and appeasement 69
335 Territoriality and social dominance 70
3 4 Social interactions in caged bats 71
341 Recording procedures 71
3 5 Results and discussion 73
351 Natural aggression 73
352 Experimentally elicited aggression 74
3 6 Call types and acoustic signal design 77
3 7 Conclusions 81
Acknowledgments 81
References 82
4 Common rules of communication sound perception 85
4 1 Introduction 85
4 2 The basis: common psychoacoustical measures
and relations 87
421 Audiograms 87
422 Temporal summation 87
423 Frequency discrimination 88
424 Intensity discrimination 88
425 Duration discrimination 88
426 Spectral resolution, spectral summation 89
427 Pitch perception and discrimination 89
4 3 The six rules of communication sound perception 90
431 Rule 1: Perception is individualized to the
level of matched groups 90
432 Rule 2: Perception of acoustic meanings or
objects refers to IMDs between acoustic
patterns 90
433 Rule 3: Perception of acoustically expressed
levels of arousal and emotions refers to the
variations in acoustic patterns 92
434 Rule 4: The audible parameter space is
partitioned for the perception of three
basic meanings 93
4341 High-frequency group 96
4342 Broadband group 96
4343 Low-frequency group 96
Contents
435 Rule 5: The integrated extent of the ranges
activated in the audible parameter space is related
to the perception of the urgency of the response
436 Rule 6: Perceptions of categories from
continuums of acoustic patterns are built upon
natural perceptual boundaries
4361 Spectral dormant) structure
4362 Direction of frequency sweeps
(formant transitions)
4363 Duration of information-bearing
elements or parameters
4 4 Conclusions
Acknowledgments
References
Part 1 Behavioral and Physiologic Adaptations:
Summary and Discussion
Anatomic and physiologic adaptations
Behavioral adaptations and the perception of meaning
References
PART 2 NEURAL ADAPTATIONS AND PLASTICITY
5 Neural mechanisms of vocal communication:
interfacing with neuroendocrine mechanisms
5 1 Introduction
5 2 Hormonal control of vocalizations
5 3 Vocal-auditory coupling
5 4 Conclusion and future prospects
Acknowledgments
References
6 Processing of species-specific vocalizations in the
auditory brainstem and midbrain of Mexican free-tailed
bats (Tadarida brasiliensis)
6 1 Introduction
6 2 The importance of hearing for bats
6 3 The structure of the auditory brainstem and midbrain:
a brief overview
6 4 Representation of communication sounds in lower
auditorv nuclei
6 5 Processing of communication sounds is much more
complex in the inferior colliculus 143
6 6 Communication sounds elicit a unique spatio-temporal
pattern of activity in the ICC 147
6 7 Conclusion 150
Acknowledgments 151
References 151
7 A distributed cortical representation of social
communication calls 156
7 1 Introduction 156
7 2 The mammalian AC 157
721 Organization of the AC 158
722 Response properties of primary auditory
cortical neurons 160
7 3 The acoustic structure of complex sounds in
mustached bats 161
731 The structure of echolocation signals 161
732 The structure of social communication calls 161
7 4 The AC in mustached bats 162
741 Functional organization for echolocation 162
742 Neural mechanisms for pulse-echo representation 163
743 Neural mechanisms for call representation 164
7 5 Call responses in mustached bats 165
751 FM-CF combinations 167
752 FM-FM combinations: the time domain 169
753 CF/CF combinations: high-frequency domain 172
754 Harmonic complexity: low-frequency domain 172
76A hypothesis for the cortical representation of calls 175
761 Multiparametric distributed representations 175
762 Representation versus perception 180
7 7 Conclusions 182
Acknowledgments 183
References 183
8 Spatiotemporal processing in the guinea
pig auditory cortex 189
8 1 Introduction 189
8 2 Optical recording methods 189
8 3 Tonotopic organization in auditory cortical fields 191
8 4 Spatiotemporal representation of constant and
frequency-modulated tones
8 5 Responses in AI to vocalized sounds
8 6 Functional significance of the spatiotemporal
representation of sounds
8 7 Activity spreads to the higher auditory fields
8 8 Functional differences of the multiple auditory fields
8 9 Principal component analysis applied to optical signals
8 10 Conclusions
Acknowledgments
References
9 Hierarchic processing of communication sounds
in primates
9 1 Auditory communication as a pattern
recognition problem
9 2 Early parallel processing in the auditory cortex
9 3 Processing of sounds with intermediate complexity
931 Selectivity for BPN
932 Selectivity for parameters of frequency sweeps
9 4 Responses to species-specific calls
941 Nonlinear integration mechanisms
942 MC and spatial selectivity
9 5 Auditory belt projections to prefrontal cortex
9 6 Human imaging studies
9 7 Conclusions
References
10 Synaptic mechanisms and sensitive periods for
song learning 223
10 1 Sensitive periods for learned behavior 223
10 2 Neuronal and behavioral sensitive periods:
common themes 224
10 3 Sensitive periods for neural circuit plasticity:
search for mechanisms 224
10 4 Birdsong development: sensitive periods for a
learned behavior 227
10 5 The song system: a neural circuit for the learning
and production of birdsong 232
Contents xiii
10 6 What are the neural correlates of song plasticity
during sensorimotor learning? 236
10 7 The nucleus RA is an important site to search
for neuronal correlates of vocal plasticity 237
10 8 Neuronal codes for song in the nucleus RA 237
10 9 Extrinsic and intrinsic patterns of synaptic
connectivity in the nucleus RA 238
10 10 The structure and function of RA subregions 239
10 11A cellular analysis of the nucleus RA during
sensorimotor learning 240
10 12 A functional synaptic analysis of the nucleus
RA during sensorimotor learning 241
10 1 3 Molecular effectors of synaptic and vocal plasticity 244
10 14 Alternative possibilities and further tests of the model 249
10 15 Conclusions 252
References 253
11 Neuronal substrates of sensory processing for song
perception and learning in songbirds: lessons from the
mormyrid electric fish 265
11 1 Introduction 265
112 Song perceptual processing and song learning 267
113 Eleetrosensory processing in the mormyrid
electric fish 271
114 The perceptual processing and memorization of song:
in search of a neuronal substrate 276
115 Implementing feedback evaluation: what do we learn
from comparing songbirds and the electric fish 282
I16 Conclusion 285
Acknowledgments 286
References 286
12 Cortical plasticity and auditory communication 294
12 1 Introduction 294
12 2 Experience-dependent plasticity of the auditory
cortex during early development 297
12 2 1 Critical role of sensory experience in early
cortical development 297
12 2 2 Normal development of cortical IBEs/IBPs
and tonotopic maps 298
xiv Contents
12 2 3 Cortical development in a distorted acoustic
environment
12 2 4 Impact of inner ear ablation on cortical
development
12 3 Experience-dependent plasticity of the auditory
cortex in adult animals
12 3 1 Enhancement of cortical representation
induced by acoustic signals alone
12 3 2 Enhanced cortical representation as a result
of learning 301
12 3 3 Cortical plasticity after localized hearing loss 303
12 4 Cortex-oriented plasticity in the central auditory
system: corticofugal modulation 304
12 4 1 Frequency-specific modulation of frequency
tuning and tonotopic maps 305
12 4 2 Modulation of IBEs/IBPs in different domains 307
12 4 3 Corticofugal modulation of response properties
of combination-sensitive neurons 308
12 4 4 Species-specific differences in corticofugal
modulation 308
12 5 Perspective of cortical plasticity for cortical coding
of vocalizations 309
12 6 Conclusion 313
References 313
13 Mesoscopic neurodynamics in auditory cortex during
auditory concept learning 319
13 1 Introduction 319
13 1 1 Traditional theoretical underpinnings of the
study of category learning 3 19
13 1 2 Eco-ethologic aspects ol categorization 320
13 1 3 Categorization and generalization 321
13 2 A new animal model of category learning 323
13 2 1 Categorization of modulation direction
in frequency-modulated tones 324
13 211 Stimuli 324
13 212 Apparatus and training paradigm 324
13 213 Behavioral results 325
13 2 2 Physiologic correlates of category learning 326
electrocorticograms 328
13 3 Conclusions 330
Acknowledgments 331
References 331
Part 2 Neural adaptations and plasticity: summary
and discussion 334
Auditory communication and hormones 334
Audiiory representations 336
Learning, memory and plasticity 339
References 342
Appendix 346
Basics of acoustic signal processing 346
Index 351 |
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genre | (DE-588)4006432-3 Bibliografie gnd-content |
genre_facet | Bibliografie |
id | DE-604.BV021624997 |
illustrated | Illustrated |
index_date | 2024-07-02T14:54:56Z |
indexdate | 2024-07-09T20:40:12Z |
institution | BVB |
isbn | 0521829186 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014839990 |
oclc_num | 255009311 |
open_access_boolean | |
owner | DE-M49 DE-BY-TUM |
owner_facet | DE-M49 DE-BY-TUM |
physical | XXI, 361 S. Ill., graph. Darst. |
publishDate | 2006 |
publishDateSearch | 2006 |
publishDateSort | 2006 |
publisher | Cambridge Univ. Pr. |
record_format | marc |
spelling | Behavior and neurodynamics for auditory communication ed. by Jagmeet S. Kanwal ... Cambridge [u.a.] Cambridge Univ. Pr. 2006 XXI, 361 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Kommunikation - Tiere - Artikulation Animal behavior Sound production by animals Tiere (DE-588)4060087-7 gnd rswk-swf Verhalten (DE-588)4062860-7 gnd rswk-swf Akustische Kommunikation (DE-588)4409921-6 gnd rswk-swf Neurophysiologie (DE-588)4041897-2 gnd rswk-swf (DE-588)4006432-3 Bibliografie gnd-content Tiere (DE-588)4060087-7 s Akustische Kommunikation (DE-588)4409921-6 s Neurophysiologie (DE-588)4041897-2 s DE-604 Verhalten (DE-588)4062860-7 s Kanwal, Jagmeet S. edt HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014839990&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Behavior and neurodynamics for auditory communication Kommunikation - Tiere - Artikulation Animal behavior Sound production by animals Tiere (DE-588)4060087-7 gnd Verhalten (DE-588)4062860-7 gnd Akustische Kommunikation (DE-588)4409921-6 gnd Neurophysiologie (DE-588)4041897-2 gnd |
subject_GND | (DE-588)4060087-7 (DE-588)4062860-7 (DE-588)4409921-6 (DE-588)4041897-2 (DE-588)4006432-3 |
title | Behavior and neurodynamics for auditory communication |
title_auth | Behavior and neurodynamics for auditory communication |
title_exact_search | Behavior and neurodynamics for auditory communication |
title_exact_search_txtP | Behavior and neurodynamics for auditory communication |
title_full | Behavior and neurodynamics for auditory communication ed. by Jagmeet S. Kanwal ... |
title_fullStr | Behavior and neurodynamics for auditory communication ed. by Jagmeet S. Kanwal ... |
title_full_unstemmed | Behavior and neurodynamics for auditory communication ed. by Jagmeet S. Kanwal ... |
title_short | Behavior and neurodynamics for auditory communication |
title_sort | behavior and neurodynamics for auditory communication |
topic | Kommunikation - Tiere - Artikulation Animal behavior Sound production by animals Tiere (DE-588)4060087-7 gnd Verhalten (DE-588)4062860-7 gnd Akustische Kommunikation (DE-588)4409921-6 gnd Neurophysiologie (DE-588)4041897-2 gnd |
topic_facet | Kommunikation - Tiere - Artikulation Animal behavior Sound production by animals Tiere Verhalten Akustische Kommunikation Neurophysiologie Bibliografie |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014839990&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT kanwaljagmeets behaviorandneurodynamicsforauditorycommunication |