Auditory worlds: sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997
Gespeichert in:
| Weitere beteiligte Personen: | |
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| Format: | Buch |
| Sprache: | Englisch |
| Veröffentlicht: |
Weinheim
Wiley-VCH
2000
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| Schlagwörter: | |
| Links: | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018439115&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| Umfang: | XIX, 359 S. Ill., graph. Darst. |
| ISBN: | 3527275878 |
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Datensatz im Suchindex
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| adam_text | Contents
Preface XIII
Geoffrey A. Manley
List of Abbreviations XVII
Introduction 1
Geoffrey A. Manley and Georg Klump
1 Design plasticity in the evolution of the amniote hearing organ... 7
Geoffrey A. Manley
1.1 The origin of the amniote hearing organ, the basilar papilla 7
1.2 The origin and evolution of the mammalian cochlea 8
1.3 The origin and evolution of the hearing organ of archosaurs 10
1.4 The origin and evolution of the hearing organ of lepidosaurs 12
1.5 General evolutionary trends in the physiology
of amniote hearing organs 14
1.5.1 Functional principles seen in all auditory organs 14
1.5.2 Parallel trends in the evolution of amniote auditory organs 14
1.5.3 Specialization of hair-cell populations across the
papilla in birds and mammals 15
2 Comparative anatomy and physiology of hearing organs 18
2.1 Anatomy of the cochlea in birds 18
Franz Peter Fischer, Otto Gleich, Christine Koppl
and Geoffrey A. Manley
2.1.1 Anatomy and evolution of the avian basilar papilla 18
2.1.2 Basic structure of the avian hearing organ 20
2.1.3 The hair cells 22
2.1.4 Hair-cell ultrastructure and synapses 23
2.1.5 Gradients in hair-cell morphology 24
2.1.5.1 Gradients in the shape of the hair cells 25
2.1.5.2 Stereovillar bundle shape 26
2.1.5.3 Stereovillar bundle orientation 28
2.1.6 Hair-cell innervation 28
2.2 A special case of congenital hearing deficits:
The Waterslager canary 31
Otto Gleich
V
Contents
2.3 Micromechanical properties of chicken hair-cell bundles 33
Jutta Brix and Geoffrey A. Manley
2.4 Potassium concentration and its development in the chicken cochlea 34
Geoffrey A. Manley
2.5 Discharge activity of afferent fibres in the avian hearing organ 35
Otto Gleich, Christine Koppl and Geoffrey A. Manley
2.5.1 Spontaneous activity of afferent nerve fibres 36
2.5.2 Responses to simple tonal stimuli 38
2.5.3 Frequency selectivity 39
2.5.4 Excitation patterns on the starling hearing organ 41
2.5.5 Phase locking to tones 41
2.5.6 Birds and mammals - similarities and differences
in auditory organs 43
2.6 Function of the cochlear efferent system - a comparative approach 44
Alexander Kaiser, Geoffrey A. Manley and Grit Taschenberger
2.6.1 Why are birds valuable for studying hearing-organ efferents? 44
2.6.2 Comparative physiology of the avian efferent system 45
2.6.3 Putative efferent influences on otoacoustic emissions
in the barn owl 45
2.6.4 Input to avian cochlear efferents 48
2.6.5 Speculations on the functional significance of cochlear efferents 48
2.7 The lagenar macula and its neural connections to the brainstem 49
Geoffrey A. Manley and Alexander Kaiser
2.7.1 Efferent connections 50
2.7.2 Afferent connections 50
2.8 Anatomy of the cochlea and physiology of
auditory afferents in lizards 52
Christine Koppl and Geoffrey A. Manley
2.8.1 Basilar-papilla morphology in the bobtail lizard 52
2.8.2 Characteristics of primary auditory afferent fibres
in the bobtail lizard 54
2.8.3 A model of frequency tuning and tonotopic organization
in the bobtail lizard 56
2.8.4 Basilar-papilla morphology in the Tokay gecko 57
2.8.5 A model of frequency tuning and tonotopic organization
in the Tokay gecko 58
3 Cochlear frequency maps and their specializations
in mammals and birds 60
3.1 Cochlear specializations in bats 61
Marianne Vater
3.1.1 Structure-function correlations in echolocating bats 61
3.1.2 Cochlear fine structure and immunocytochemistry 65
3.1.2.1 Receptor surface and tectorial membrane 66
3.1.2.2 Organization of OHCs and their attachments 67
3.1.2.3 Cochlear development in the horseshoe bat 69
VI
Contents
3.2 Cochlear maps in birds 70
Otto Gleich, Alexander Kaiser, Christine Koppl
and Geoffrey A. Manley
3.2.1 Frequency representation along the basilar papilla 70
3.2.2 Possible changes in function across the papilla s width 72
3.2.3 Development of body temperature in chickens
- Implications for the development of frequency maps 73
3.3 The auditory fovea of the barn owl 75
Christine Koppl
4 Models of the human auditory system 76
4.1 Psychoacoustically-based models of the inner ear 76
Hugo Fasti for Eberhard Zwicker*
4.1.1 A hydrodynamic model of the human cochlea 76
4.1.2 An electronic model of the human cochlea 77
4.1.3 A computer model of the human cochlea 79
4.2 Linear model of peripheral-ear transduction (PET) 81
Ernst Terhardt
4.2.1 Basic definitions and features 81
4.2.1.1 The ECR filter 82
4.2.1.2 The CTF filter 82
4.2.1.3 Temporal behaviour 83
4.2.2 Setting PET s parameters 84
4.2.2.1 The ECR filter 84
4.2.2.2 The CTF filters 84
4.2.3 Simulation of the threshold of hearing 86
4.2.4 Simulation of tuning curves 87
4.2.5 Scaling of characteristic frequencies 87
4.2.6 Digital computation 88
4.2.7 PET and gammatone 89
4.3 Nonlinear mechanics of the organ of Corti 90
Frank Boehnke
5 Active mechanics and otoacoustic emissions in animals and man ... 93
5.1 Otoacoustic emissions in lizards 93
Geoffrey A. Manley
5.1.1 The origin of lizard SOAE 95
5.1.2 The influence of changes in head temperature on lizard SOAE 97
5.1.3 Interactions between SOAE and external tones 99
5.1.3.1 Level suppression by external tones 99
5.1.3.2 Facilitation by external tones 100
5.1.3.3 Shifts in SOAE frequency due to external tones 101
5.1.4 Distortion-product otoacoustic emissions in lizards 102
5.2 Otoacoustic emissions in birds 103
Geoffrey A. Manley and Grit Taschenberger
5.2.1 Simultaneous-evoked emissions in the starling 103
VII
Contents
5.2.2 Spontaneous otoacoustic emissions in birds (SOAE) 103
5.2.3 Distortion-product OAE in the chicken, starling and owl 105
5.3 Otoacoustic emissions and cochlear mechanisms in mammals 106
Manfred Kossl
5.3.1 Acoustic distortions and the cochlear amplifier 108
5.3.2 Acoustic distortions and cochlear tuning 113
5.3.3 Enhanced auditory filters in bats 114
5.3.4 Distortion thresholds in mammals 119
5.4 Otoacoustic Emissions in human test subjects 120
Hugo Fasti for Eberhard Zwicker*
5.5 Properties of 2fj-f2 distortion product otoacoustic
emissions in humans 127
Thomas Janssen
5.5.1 Influence of frequency ratio f2/fa and level difference L1-L2 127
5.5.2 Stability of the DPOAE level 132
5.5.3 Relationship between DPOAE and hearing threshold in normal hearing 133
5.5.4 Suppression properties 135
5.6 Developing clinical applications of 2frf2
distortion-product otoacoustic emissions 136
Thomas Janssen
5.6.1 Monitoring cochlear dysfunction during recovery 136
5.6.2 Scanning of cochlear dysfunction in hearing loss ears with and
without tinnitus 138
5.6.3 Prediction of hearing threshold 140
5.6.4 DPOAE as a clinical tool 141
6 Neural processing in the brain 142
6.1 Auditory brainstem processing in bats 142
Marianne Vater
6.1.1 The cochlear nucleus: Origin of parallel ascending pathways 142
6.1.1.1 Cytoarchitecture of the cochlear nucleus 142
6.1.1.2 Inputs, tonotopy and intrinsic connectivity of the CN 143
6.1.1.3 Chemoarchitecture of the CN 145
6.1.1.4 Physiology of the cochlear nucleus 146
6.1.1.5 Central connections of the CN 147
6.1.2 Superior olivary complex: the first stage of binaural interactions 148
6.1.2.1 Anatomy and connectivity of the principal nuclei of the SOC 149
6.1.2.2 Physiology of the SOC 150
6.1.2.3 Chemoarchitecture of the SOC 150
6.1.3 Lateral lemniscus 151
6.1.4 Inferior colliculus 151
6.2 Serotoninergic innervation of the auditory pathway in birds
and bats - implications for acoustical signal processing 152
Alexander Kaiser and Birgit Kuhn
VIII
Contents 6.3 Temporal processing in the lower brainstem 153
Benedikt Grothe
6.3.1 The role of neural delays in IID-coding of LSO cells 154
6.3.2 The role of inhibition in processing periodic stimuli 155
6.3.3 Temporal vs. spatial processing in the lower auditory brainstem 159
6.4 The barn owl as a model for high-resolution temporal
processing in the auditory system 161
Christine Koppl
6.4.1 Does phase locking improve in the nucleus magnocellularis? 161
6.4.2 Frequency-specific adaptations of neuronal brainstem circuits 163
6.4.2.1 Neuronal and synaptic morphology 163
6.4.2.2 Axonal delay lines between N. magnocellularis
and N. laminaris 164
6.5 Cortical physiology, sensorimotor interactions 165
Gerd Schuller
6.5.1 Auditory cortex in the horseshoe bat 165
6.5.1.1 Primary auditory field 166
6.5.1.2 Anterior dorsal field 167
6.5.1.3 Posterior dorsal field 167
6.5.1.4 Rostral dorsal field 167
6.5.1.5 Dorsal field of the dorsal auditory cortex 167
6.5.1.6 Ventral auditory field 168
6.5.2 Afferent and efferent connections of auditory cortical fields 168
6.5.2.1 Thalamocortical connections 168
6.5.2.2 Connection with other brain regions 169
6.5.3 The auditory cortex in the horseshoe bat:
Summary and conclusions 170
6.5.4 Audio-vocal interaction in horseshoe bats 171
6.5.5 Peripheral vocalization system in the horseshoe bat 173
6.5.6 Where in the brain can vocalization be elicited? 174
6.5.6.1 Paralemniscal tegmental area 175
6.5.6.2 Pretectal area 177
6.5.7 Functional implications of the acoustical afferent connections to
the pretectal area 178
6.5.8 Possible control of motor actions by efferent connections of the
pretectal area 180
6.5.9 Superior colliculus 181
6.5.10 Nucleus cuneiformis and adjacent lateral periaqueductal grey,
and vocalization 181
6.5.11 The descending vocalization system in the horseshoe bat:
summary and conclusions 183
6.6 The processing of biologically relevant sounds in the auditory
pathway of a non-human primate 184
Peter Miiller-Preuss and Detlev Ploog
6.6.1 The relationship of the auditory pathway to structures involved
in sound production: Anatomy and physiology 184
IX
Contents
6.6.2 Processing of species-specific vocalizations that are modulated
in amplitude 186
6.6.2.1 Processing of sounds masked by a preceding stimulus 187
6.6.2.2 Processing of artificial amplitude-modulated sounds 189
7 Comparative animal behaviour and psychoacoustics 193
7.1 The European starling as a model for understanding
perceptual mechanisms 193
Georg Klump, Ulrike Langemann and Otto Gleich
7.1.1 Auditory sensitivity: absolute thresholds 194
7.1.2 Frequency selectivity 195
7.1.3 Frequency discrimination 200
7.1.4 Temporal processing 204
7.1.4.1 Temporal resolution of the auditory system 204
7.1.4.2 Long term integration 207
7.1.4.3 Duration discrimination 208
7.1.5 Spectro-temporal integration: comodulation masking release 209
7.1.6 The processing of signals by the European starling s
auditory system- conclusions 211
7.2 Mechanisms underlying acoustic motion detection 212
Hermann Wagner
7.2.1 The problem underlying acoustic-motion detection 212
7.2.2 Recent psychophysical and neurological findings
on acoustic motion 213
7.2.3 Physiological correlates of acoustic motion detection
in the barn owl 213
7.3 Comparative echolocation behaviour in bats 215
Gerhard Neuweiler
7.3.1 Field studies 215
7.3.1.1 Horseshoe bats 216
7.3.1.2 Gleaning bats 219
7.3.1.3 FM-bats 221
7.3.2 Insect abundance and prey selectivity 222
7.3.3 Time windows for echo perception 224
7.4 Echolocation behaviour and comparative psychoacoustics in bats ... 226
Sabine Schmidt
7.4.1 Texture perception by echolocation 226
7.4.2 Discrimination of target structure by the gleaning bat, M. lyra 227
7.4.3 A broadband spectral analysis model for texture perception 228
7.4.3.1 Outline of the model 228
7.4.3.2 Implications of the model 229
7.4.4 Perceptual categories for auditory imaging 230
7.4.4.1 Prevalence of absolute pitch 230
7.4.4.2 Collective pitch versus spectral pitches and timbre 232
7.4.4.3 Spontaneous classification of complex tones - evidence for
collective pitch perception in the ultrasonic range 233
X
Contents
7.4.4.4 Frequency resolution and auditory filter shape in M. lyra 235
7.4.4.5 Perception of spectral pitches - corroboration of the broadband
spectral-analysis model 237
7.4.4.6 Focused perception of single partials in complex tones 239
7.4.5 Psychoacoustical frequency and time-domain constants in bats 240
7.4.5.1 Discrimination performance in the frequency domain 240
7.4.5.2 Time constants in echolocating bats 241
8 The human aspect I: Human psychophysics 246
8.1 The presentation of stimuli in psychoacoustics 246
Hugo Fasti
8.2 Masking effects 247
Hugo Fasti
8.2.1 Post masking (forward masking) 247
8.2.2 Binaural Masking-Level Differences 249
8.3 Basic hearing sensations 251
Hugo Fasti
8.3.1 Pitch 251
8.3.2 Pitch strength 255
8.3.3 Fluctuation strength 257
8.4 Loudness and noise evaluation 258
Hugo Fasti
8.4.1 Loudness evaluation 258
8.4.2 Physical measurement of loudness and psychoacoustic annoyance . 261
8.4.3 Loudness of speech 262
8.4.4 Evaluation of road traffic noise 263
8.4.5 Evaluation of aircraft noise 264
8.4.6 Evaluation of railway noise 266
8.5 Perceived differences and quality judgments of piano sounds 268
Miriam N. Valenzuela
8.5.1 Perceived differences between piano sounds 268
8.5.2 Influence of sharpness on quality judgments of piano sounds 272
8.6 Identification and segregation of multiple auditory objects 274
Uwe Baumann
8.7 The role of accentuation of spectral pitch in auditory
information processing 278
Claus von Rticker
8.7.1 Spectral pitch as a primary auditory contour 278
8.7.2 Accentuation as a cue for segregation 279
8.7.3 Physical signal parameters evoking accentuation 279
8.7.4 Improved perception of vowels by accentuation 280
8.7.5 Thresholds for the accentuation of part tones in harmonic sounds ... 283
8.7.6 Accentuation of pitch - discussion and outlook 285
XI
Contents
9 Hearing impairment: Evaluation and rehabilitation 286
Karin Schorn and Hugo Fasti
9.1 Psychoacoustic tests for clinical use 286
9.1.1 Amplitude resolution - AL-test 286
9.1.2 Frequency selectivity - psychoacoustical tuning curves 288
9.1.3 Frequency discrimination - Af measurement 290
9.1.4 Temporal integration 290
9.1.5 Temporal resolution 291
9.1.6 Melodic pattern discrimination test 293
9.2 Objective tests for clinical use 294
9.2.1 Delayed evoked otoacoustic emissions (DEOAE) for screening 294
9.2.2 Delayed-evoked and distortion-product otoacoustic
emissions for hearing threshold determination 295
9.2.3 Delayed-evoked and distortion-product otoacoustic
emissions as an objective TTS measurement 295
9.2.4 Evoked-response audiometry (ERA) for hearing
threshold determination 296
9.2.5 Evoked-response audiometry (ERA) for hearing aid fitting 298
9.3 Rehabilitation with hearing aids, cochlear implants and tactile aids 299
9.3.1 Psychoacoustic basis of hearing aid fitting 299
9.3.2 Hearing aid fitting with in-situ measurement 299
9.3.3 Hearing aid fitting - earmold modifications with vents and horns.... 301
9.3.4 Hearing aid fitting with loudness scaling 302
9.3.5 Hearing aid fitting with speech in noise 304
9.3.6 Experimental Hearing Aid 307
9.3.7 Cochlear implantation - Preliminary test, intra- and
postoperative control 308
9.3.8 Speech processing with cochlear implant 309
9.3.9 Tactile Hearing Aids 310
10 References (Work of the collaborative research centre 204) 312
11 References (Work outside the collaborative research centre 204) 337
12 Appendices 349
12.1 Institutes involved in the collaborative research centre 204 349
12.2 Projects supported by the collaborative research centre 204 350
12.3 Members and coworkers of the collaborative research centre 204 ... 352
12.4 Doctoral (D) and habilitation (H) theses of the
collaborative research centre 204 355
12.5 Guest scientists of the collaborative research centre 204 358
12.6 International and industrial cooperations of the
collaborative research centre 204 360
XII
|
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| author2 | Manley, Geoffrey A. |
| author2_role | edt |
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| discipline | Biologie |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV024462842 |
| illustrated | Illustrated |
| indexdate | 2024-12-20T13:55:58Z |
| institution | BVB |
| institution_GND | (DE-588)2180976-8 |
| isbn | 3527275878 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018439115 |
| oclc_num | 231846538 |
| open_access_boolean | |
| owner | DE-83 DE-11 DE-188 |
| owner_facet | DE-83 DE-11 DE-188 |
| physical | XIX, 359 S. Ill., graph. Darst. |
| publishDate | 2000 |
| publishDateSearch | 2000 |
| publishDateSort | 2000 |
| publisher | Wiley-VCH |
| record_format | marc |
| spellingShingle | Auditory worlds sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997 Hören (DE-588)4025405-7 gnd Gehörorgan (DE-588)4137367-4 gnd Physiologie (DE-588)4045981-0 gnd Anatomie (DE-588)4001895-7 gnd Tierphysiologie (DE-588)4060126-2 gnd Wirbeltiere (DE-588)4066376-0 gnd Informationsverarbeitung (DE-588)4161678-9 gnd |
| subject_GND | (DE-588)4025405-7 (DE-588)4137367-4 (DE-588)4045981-0 (DE-588)4001895-7 (DE-588)4060126-2 (DE-588)4066376-0 (DE-588)4161678-9 (DE-588)4143413-4 |
| title | Auditory worlds sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997 |
| title_auth | Auditory worlds sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997 |
| title_exact_search | Auditory worlds sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997 |
| title_full | Auditory worlds sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997 Deutsche Forschungsgemeinschaft. Ed. by Geoffrey A. Manley ... |
| title_fullStr | Auditory worlds sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997 Deutsche Forschungsgemeinschaft. Ed. by Geoffrey A. Manley ... |
| title_full_unstemmed | Auditory worlds sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997 Deutsche Forschungsgemeinschaft. Ed. by Geoffrey A. Manley ... |
| title_short | Auditory worlds |
| title_sort | auditory worlds sensory analysis and perception in animals and man final report of the collaborative research centre 204 nachrichtenaufnahme und verarbeitung im horsystem von vertebraten munich 1983 1997 |
| title_sub | sensory analysis and perception in animals and man ; final report of the Collaborative Research Centre 204, "Nachrichtenaufnahme und -verarbeitung im Hörsystem von Vertebraten (Munich)", 1983 - 1997 |
| topic | Hören (DE-588)4025405-7 gnd Gehörorgan (DE-588)4137367-4 gnd Physiologie (DE-588)4045981-0 gnd Anatomie (DE-588)4001895-7 gnd Tierphysiologie (DE-588)4060126-2 gnd Wirbeltiere (DE-588)4066376-0 gnd Informationsverarbeitung (DE-588)4161678-9 gnd |
| topic_facet | Hören Gehörorgan Physiologie Anatomie Tierphysiologie Wirbeltiere Informationsverarbeitung Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018439115&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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