Animal behaviour: concepts, methods, and applications
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York ; Oxford
Oxford University Press
[2017]
|
| Ausgabe: | International second edition |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | Includes bibliographical references |
| Beschreibung: | xxii, 458 Seiten Illustrationen |
| ISBN: | 9780190276782 |
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| 246 | 1 | 3 | |a Animal behavior |
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Datensatz im Suchindex
| _version_ | 1804177737497182208 |
|---|---|
| adam_text | Contents
Preface xiv
Chapter! The Science of Animal Behaviour 3
Animals and their behaviour are an integral part of human society 4
Recognising and defining behaviour 5
Measuring behaviour: elephant ethograms 5
Scientists study both the proximate mechanisms that generate behaviour and the ultimate reasons
why the behaviour evolved 7
Researchers have examined animal behaviour from a variety of perspectives over time 8
Darwin and adaptation 8
Early comparative psychology 8
Comparative psychology in North America 9
Behaviourism 9
Classical ethology 10
Interdisciplinary approaches 10
Chapter Summary and Beyond 11
Chapter 2 Methods for Studying Animal Behaviour 13
Animal behaviour scientists test hypotheses to answer research questions about behaviour 14
Hypothesis testing in wolf spiders 14
Generating hypotheses 16
Hypotheses from mathematical models 16
Researchers use observational, experimental and comparative methods to study behaviour 18
The observational method 18
The observational method and reproductive energetics of chimpanzees 18
The experimental method 20
The experimental method and jumping tadpoles 20
The comparative method 21
The comparative method and the evolution of burrowing behaviour in mice 22
Animal behaviour research requires ethical animal use 23
How research can affect animals 23
Sources of ethical standards 24
The three Rs 24
Contents
S cientific knowledge is generated and communicated to the scientific community via
peer-reviewed research 25
The primary literature 25
The secondary literature 26
Chapter Summary and Beyond 27
Chapters Evolution and the Study of Animal Behaviour 29
Evolution by natural selection favours behavioural adaptations that enhance fitness 30
Measures of her it ability 31
Great tit exploratory behaviour 31
Variation within a population 33
Frequency-dependent selection 34
Fitness and adaptation 35
Modes of natural selection describe population changes 36
Directional selection in juvenile ornate tree lizards 37
Disruptive selection in spadefoot toad tadpoles 38
Stabilising selection in juvenile convict cichlids 40
Studying adaptation: the cost-benefit approach 42
Individual and group selection have been used to explain cooperation 42
Sexual selection is a form of natural selection that focuses on the reproductive fitness of individuals
Sexual selection in widowbirds 44
Chapter Summary and Beyond 47
Chapter 4 Behavioural Genetics 49
Behaviours vary in their heritability 50
Behavioural variation is associated with genetic variation 52
Behavioural differences between wild-type and mutant-type fruit flies 53
Major and minor genes 53
Fire ant genotype and social organisation 54
Experimental manipulation of gene function: knockout studies 55
Anxiety-related behaviour and knockout of a hormone receptor in mice 55
QTL mapping to identify genes associated with behaviour 57
QTL mapping for aphid feeding behaviour 57
The environment influences gene expression and behaviour 58
Social environment and gene expression in fruit flies 58
Social environment and birdsong development 59
Social environment and gene expression in birds 60
Environmental effects on zebrafish aggression 61
Gene-environment interactions 62
Rover and sitter foraging behaviour in fruit flies 62
Genes can limit behavioural flexibility 66
Bold and shy personalities in streamside salamanders 66
Aggressive personalities in fishing spiders 67
Animal personalities: a model with fitness trade-offs 70
Chapter Summary and Beyond 73
Chapter 5 Sensory Systems and Behaviour 75
Animals acquire environmental information from their sensory systems 76
Chemosensory systems detect chemicals that are perceived as tastes and odours 77
Sweet and umami taste perception in rodents 78
Cuttlefish physiological response to odours 79
Photoreception allows animals to detect light and perceive objects as images 80
Colour vision in monarch butterflies 81
Ultraviolet plumage reflectance in birds 81
Infrared detection in snakes 82
Mechanoreceptors detect vibrations that travel through air, water or substrates 83
Ultrasonic song detection in moths 84
Long-distance communication in elephants 85
Catfish track the wake of their prey 86
Substrate-borne vibrations 88
Antiions detect substrate-borne vibrations 89
Some animals can detect electric or magnetic fields 89
Electroreception 91
Sharks detect electric fields 91
Magnetoreception 92
Predator and prey sensory systems co-evolve 94
Insect tympanal organs: an evolved antipredator adaptation 94
Predator-prey sensory system co-evolution: bats and moths 95
Chapter Summary and Beyond 97
Chapter 6 Communication 99
Communication occurs when a specialised signal from one individual influences
the behaviour of another 100
Honeybees and the waggle dance 100
Odour or the waggle dance in bees 101
VI
Contents
Auditory signals: alarm calls 102
Titmouse alarm calls 103
Information or influence? 104
The environment influences the evolution of signals 105
Temperature affects ant chemical signals 105
Habitat light environment affects fish visual signals 107
Habitat structure affects bowerbird auditory signals 108
Signals often accurately indicate signaller phenotype and environmental conditions 109
Signals as accurate indicators: theory 110
Aposematic colouration in frogs 111
Courtship signalling in spiders 112
Aggressive display and male condition in fighting fish 114
Signals can be inaccurate indicators when the fitness interests of signaller and receiver differ 115
Batesian mimicry and Ensatina salamanders 116
Aggressive mimicry in fangblenny fish 117
Intraspecific deception: false alarm calls 118
Topi antelope false alarm calls 119
Capuchin monkeys and inaccurate signals 120
Communication can involve extended phenotype signals 122
Bowerbirds construct and decorate bowers 123
Sticklebacks decorate their nests 123
Communication networks affect signaller and receiver behaviour 124
Squirrel eavesdropping 124
Eavesdropping in tüngara frogs 125
Audience effects in fighting fish 127
Chapter Summary and Beyond 128
Chapter 7 Learning, Neuroethology and Cognition 131
Learning allows animals to adapt to their environment 132
Improved foraging efficiency in salamanders 132
Evolution of learning 132
Green frog habituation to intruder vocalisations 133
Learning is associated with neurological changes 135
Neurotransmitters and learning in chicks 135
Dendritic spines and learning in mice 136
Avian memory of stored food 138
Animals learn associations between stimuli and responses 140
Classical conditioning 140
Pavlovian conditioning for mating opportunities in Japanese quail 141
Contents
vii
Fish learn novel predators 142
Operant conditioning 144
Learning curves in macaques 144
Trial-and-error learning in bees 145
Social interactions facilitate learning 146
Learned antipredator behaviours in prairie dogs 146
Learning about food patches 147
Social information use in sticklebacks 148
Teaching 149
Ptarmigan hens teach chicks their diet 150
Tandem running in ants 150
Social learning can lead to the development of animal traditions and culture 152
Behavioural tradition in wrasse 153
Animals vary in their cognitive abilities 154
Tool use in capuchin monkeys 154
Problem solving and insight learning 155
Insight learning in keas 156
Numerical competency in New Zealand robins 157
Cognition and brain architecture in birds 158
Brain size and cognition in guppies 159
Chapter Summary and Beyond 160
Chapter 8 Foraging Behaviour 163
Animals find food using a variety of sensory modalities 164
Bees use multiple senses to enhance foraging efficiency 164
Gray mouse lemurs use multiple senses to find food 166
Visual predators find cryptic prey more effectively by learning a search image 167
Cryptic colouration reduces predator efficiency in trout 168
Blue jays use a search image to find prey 168
The optimal diet model predicts the food types an animal should include in its diet 170
The diet model 171
A graphical solution 171
i
Diet choice in northwestern crows 174
Ant foraging: the effect of nutrients 175
The optimal patch-use model predicts how long a forager should exploit a food patch 176
The optimal patch-use model 176
Patch use by ruddy ducks 178
Optimal patch model with multiple costs 179
Fruit bat foraging on heterogeneous patches 179
viii
Contents
Kangaroo rat foraging with variable predation costs 180
Incomplete information and food patch estimation 183
Bayesian foraging bumblebees 184
Some animals obtain food from the discoveries of others 186
Spice finch producer-scrounger game 187
Chapter Summary and Beyond 191
Chapter 9 Antipredator Behaviour 193
Animals reduce predation risk by avoiding detection 194
Predator avoidance by cryptic colouration in crabs 194
Predators and reduced activity in lizards 196
Prey take evasive or aggressive action when detected 198
Startle display in butterflies 199
Many behaviours represent adaptive trade-offs involving predation risk 200
Increased vigilance decreases feeding time 200
Vigilance and predation risk in elk 201
Rich but risky 202
Environmental conditions and predation risk in foraging redshanks 203
Predation risk and patch quality in ants 205
Mating near predators in water striders 206
Mating and refuge use in fiddler crabs 208
Living in groups can reduce predation risk 209
The dilution effect and killifish 209
The selfish herd and vigilance behaviour 210
Group size effect and the selfish herd hypothesis in doves 210
Some animals interact with predators to deter attack 212
Predator harassment in ground squirrels 212
Mobbing owl predators 214
Pursuit deterrence and alarm signal hypotheses 215
Tail-flagging behaviour in deer 216
Chapter Summary and Beyond 217
Chapter 10 Dispersal and Migration 219
Dispersal reduces resource competition and inbreeding 220
Density-dependent dispersal in adult springtails 220
Food-related natal dispersal in northern goshawks 221
Inbreeding avoidance in voles 222
Contents
ix
Reproductive success and public information affect breeding dispersal behaviour 224
Reproductive success and breeding dispersal in dragonflies 224
Public information and breeding dispersal in kittiwakes 226
Individuals migrate in response to changes in the environment 228
Migration and changing resources 229
Resource variation and migration in neotropical birds 229
Heritability of migration behaviour in Eurasian blackcaps 231
The evolution of migration: a model 231
Competition and migratory behaviour of newts 232
Maintenance of polymorphism in migratory behaviour 234
Alternative migratory behaviours in dippers: test of hypotheses 234
Environmental cues and compass systems are used for orientation when migrating 235
Compass systems 236
Antennae and the sun compass system in monarchs 236
The magnetic compass in sea turtles 240
Multimodal orientation 240
Bicoordinate navigation allows individuals to identify their location relative to a goal 242
Bicoordinate navigation and magnetic maps in sea turtles 242
Bicoordinate navigation in birds 243
Homing migration in salmon 245
Chapter Summary and Beyond 246
Chapter 11 Habitat Selection, Territoriality and Aggression 249
Resource availability and the presence of others can influence habitat selection 250
The ideal free distribution model 250
The ideal free distribution model and guppies 251
The ideal free distribution model and pike 253
Cuckoos assess habitat quality 254
Conspecific attraction 255
Conspecific attraction and Allee effects in grasshoppers 256
Conspecific cueing in American redstarts 258
Individual condition and environmental factors affect territoriality 259
Body condition affects territoriality in damselflies 259
Environmental factors and territory size in parrotfish 261
Hormones influence aggression 262
Winner-challenge effect in the California mouse 263
Challenge hypothesis and bystanders in fish 264
Juvenile hormone and wasp aggression 264
Contents
Game theory models explain how the decisions of opponents and resource value
affect fighting behaviour 266
The hawk-dove model 267
Wrestling behaviour in red-spotted newts 268
Game theory assessment models 269
Fiddler crab contests over burrows 270
Chapter Summary and Beyond 273
Chapter 12 Mating Behaviour 275
Sexual selection favours characteristics that enhance reproductive success 276
Why two sexes? 277
Bateman s hypothesis and parental investment 278
Weapon size and mating success in dung beetles 279
Ornaments and mate choice in peafowl 279
Male mate choice in pipefish 281
The origin of sexually selected traits: the sensory bias hypothesis in guppies 283
Females select males to obtain direct material benefits 284
Female choice and nuptial gifts in fireflies 285
Female choice and territory quality in lizards 286
Female mate choice can evolve via indirect benefits to offspring 287
Fisherian runaway and good genes 287
Mate choice for good genes in tree frogs 289
Good genes and immune system function in birds 290
Mate choice fitness benefits in spiders 291
Sexual selection can also occur after mating 293
Mate guarding in warblers 293
Sperm competition in tree swallows 294
Cryptic female choice 295
Inbreeding avoidance via cryptic female choice in spiders 295
Mate choice by females favours alternative reproductive tactics in males 297
The evolution of alternative reproductive tactics 297
Conditional satellite males in tree frogs 298
ESS and sunfish sneaker males 299
Mate choice is affected by the mating decisions of others 300
Mate copying in guppies 301
Mate copying in fruit flies 301
The benefit of mate copying 302
Nonindependent mate choice by male mosquitofish 302
Chapter Summary and Beyond 304
Contents
XJ
Chapter 13 Mating Systems 307
Sexual jconflict and environmental conditions affect the evolution of mating systems 308
The evolution of mating systems 308
Mating systems in reed warblers 311
Biparental care favours the evolution of monogamy 313
California mouse monogamy 313
Monogamy and biparental care in poison frogs 314
Monogamy without biparental care: snapping shrimp 316
Polygyny and polyandry evolve when one sex can defend multiple mates or
the resources they seek 318
Female defense polygyny in horses 318
Resource defense polygyny in blackbirds 319
Resource defense polygyny in carrion beetles 320
Male dominance polygyny: the evolution of leks—hotspots or hotshots? 321
Lekking behavior in the great snipe 322
Peafowl leks 322
Polyandry and sex-role reversal 324
The presence of social associations distinguishes polygynandry from promiscuity 325
Polygynandry in European badgers 325
Promiscuity and scramble competition: seaweed flies and red squirrels 326
Social and genetic mating systems differ when extra-pair mating occurs 327
Extra-pair mating in juncos 328
Marmot extra-pair mating 329
Chapter Summary and Beyond 331
Chapter 14 Parental Care 333
Parental care varies among species and reflects life history trade-offs 334
Life history variation in fish 335
Sexual conflict is the basis for sex-biased parental care 336
Female-biased parental care 336
Paternity uncertainty and parental care in boobies 336
The evolution of male-only care 337
Paternity uncertainty and male-only care in sunfish 338
Paternity assurance and male care in water bugs 338
Parental care involves fitness trade-offs between current and future reproduction 340
Parent-offspring conflict theory 340
Predation risk and parental care in golden egg bugs 341
Egg guarding and opportunity costs of parental care in frogs 343
xii
Contents
Current versus future reproduction in treehoppers 344
Incubation of eider eggs as a trade-off 346
Brood reduction, and parent-offspring conflict 346
Hatch asynchrony and brood reduction in blackbirds 348
Brood reduction in fur seals 348
Brood parasitism reduces the cost of parental care and can result in a co-evolutionary arms race 351
Conspecific brood parasitism in ducks 351
Interspecific brood parasitism and co-evolution 352
Acceptance or rejection of brown-headed cowbird eggs by hosts 353
Hormones regulate parental care 353
Prolactin and maternal care in rats 353
Prolactin and incubation in penguins 354
Juvenile hormones and parental care in earwigs 355
Chapter Summary and Beyond 357
Chapter 15 Sociality 359
Sociality evolves when the net benefits of close associations exceed the costs 360
Foraging benefits: reduced search times for food in minnows 360
Antipredator benefits: vigilance in mixed-species flocks 361
Movement benefits: efficient aerodynamics in flight 362
The costs of sociality 363
Group size and food competition in red colobus and red-tailed guenons 364
Sociality and disease transmission in guppies 365
Dominance hierarchies reduce the social costs of aggression 366
Dominance hierarchies and crayfish 366
Stable dominance hierarchies in baboons 367
Kin selection favours cooperation among relatives 369
Hamilton’s rule 369
Belding s ground squirrel alarm calls 370
Altruism in turkeys 371
Kin discrimination 373
Kin discrimination via direct familiarisation in sticklebacks 373
Kin discrimination via indirect familiarisation in cockroaches 374
Kinship and ecological constraints favour cooperative reproduction 375
The evolution of cooperative breeding in vertebrates 375
Cooperative breeding in meerkats 376
Helpers at the nest: cooperative reproduction in long-tailed tits 377
Habitat saturation: helping behaviour in Seychelles warblers 377
Social queuing in clownfish 378
Eusocial insects: the evolution of sterile castes 380
Haplodiploidy hypothesis 380
Kin selection and the ecological constraint hypothesis 381
Division of labour hypothesis in ant castes 381
Cooperative behaviour among unrelated individuals involves byproduct
mutualisms or reciprocity 383
Direct reciprocity 383
Food sharing in vampire bats 384
Allogrooming in Japanese macaques 385
Tit-for-tat in red-winged blackbirds 386
Indirect reciprocity 387
Reputations and cleaner fish 388
Chimpanzee image scores 388
Chapter Summary and Beyond 390
Glossary 393
Bibliography 401
Answers to Scientific Process Box “Evaluate” Questions 435
Credits 437
Index 439
Focusing on big-picture concepts and the nature of scientific inquiry, Animal
Behaviour: Concepts, Methods, and Applications, Second International Edition,
gives students the tools that they need in order to understand and evaluate
research examples and develop higher-order critical-thinking skills.
Each concept is illustrated using research from the primary literature with an
emphasis on the methods of the featured studies.
To help students understand the significance of what they are studying, each
chapter contains examples of how various people and groups are applying
the concepts in animal behaviour research to societal problems and issues.
The following resources are available to instructors who adopt the International
Second Edition of Animal Behaviour:
♦ A digital image library containing every illustration, photo, figure
caption, graph, and table from the text
• PowerPoint-based lecture notes with key concepts and featured
research studies
♦ A test bank of 200+ multiple-choice questions
• Answers and notes for the questions that appear at the end of every
chapter of the text
This version of the text has been adapted and customized. Not for sale in the USA or Canada.
|
| any_adam_object | 1 |
| author | Nordell, Shawn E. Valone, Thomas J. |
| author_facet | Nordell, Shawn E. Valone, Thomas J. |
| author_role | aut aut |
| author_sort | Nordell, Shawn E. |
| author_variant | s e n se sen t j v tj tjv |
| building | Verbundindex |
| bvnumber | BV044433465 |
| classification_rvk | WT 1000 WT 2000 |
| ctrlnum | (OCoLC)1002229709 (DE-599)BVBBV044433465 |
| dewey-full | 591.5 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 591 - Specific topics in natural history of animals |
| dewey-raw | 591.5 |
| dewey-search | 591.5 |
| dewey-sort | 3591.5 |
| dewey-tens | 590 - Animals |
| discipline | Biologie |
| edition | International second edition |
| format | Book |
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| id | DE-604.BV044433465 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T07:52:50Z |
| institution | BVB |
| isbn | 9780190276782 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029834817 |
| oclc_num | 1002229709 |
| open_access_boolean | |
| owner | DE-11 DE-355 DE-BY-UBR |
| owner_facet | DE-11 DE-355 DE-BY-UBR |
| physical | xxii, 458 Seiten Illustrationen |
| publishDate | 2017 |
| publishDateSearch | 2017 |
| publishDateSort | 2017 |
| publisher | Oxford University Press |
| record_format | marc |
| spelling | Nordell, Shawn E. Verfasser aut Animal behaviour concepts, methods, and applications Shawn E. Nordell (Washington University in St. Louis), Thomas J. Valone (Saint Louis University) Animal behavior International second edition New York ; Oxford Oxford University Press [2017] © 2017 xxii, 458 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references Verhaltensforschung (DE-588)4062862-0 gnd rswk-swf Verhalten (DE-588)4062860-7 gnd rswk-swf Tiere (DE-588)4060087-7 gnd rswk-swf Verhaltensforschung (DE-588)4062862-0 s DE-604 Tiere (DE-588)4060087-7 s Verhalten (DE-588)4062860-7 s Valone, Thomas J. Verfasser aut Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029834817&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029834817&sequence=000002&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Nordell, Shawn E. Valone, Thomas J. Animal behaviour concepts, methods, and applications Animal behavior Verhaltensforschung (DE-588)4062862-0 gnd Verhalten (DE-588)4062860-7 gnd Tiere (DE-588)4060087-7 gnd |
| subject_GND | (DE-588)4062862-0 (DE-588)4062860-7 (DE-588)4060087-7 |
| title | Animal behaviour concepts, methods, and applications |
| title_alt | Animal behavior |
| title_auth | Animal behaviour concepts, methods, and applications |
| title_exact_search | Animal behaviour concepts, methods, and applications |
| title_full | Animal behaviour concepts, methods, and applications Shawn E. Nordell (Washington University in St. Louis), Thomas J. Valone (Saint Louis University) |
| title_fullStr | Animal behaviour concepts, methods, and applications Shawn E. Nordell (Washington University in St. Louis), Thomas J. Valone (Saint Louis University) |
| title_full_unstemmed | Animal behaviour concepts, methods, and applications Shawn E. Nordell (Washington University in St. Louis), Thomas J. Valone (Saint Louis University) |
| title_short | Animal behaviour |
| title_sort | animal behaviour concepts methods and applications |
| title_sub | concepts, methods, and applications |
| topic | Animal behavior Verhaltensforschung (DE-588)4062862-0 gnd Verhalten (DE-588)4062860-7 gnd Tiere (DE-588)4060087-7 gnd |
| topic_facet | Animal behavior Verhaltensforschung Verhalten Tiere |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029834817&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029834817&sequence=000002&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
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