Free download Chemical Ecology in Aquatic Systems By Christer Brönmark

Authors of: Chemical Ecology in Aquatic Systems By Christer Brönmark

Christer Brönmark

Lars-Anders Hansson

Table of Contents in Chemical Ecology in Aquatic Systems By Christer Brönmark

List of contributors  

 Chemical ecology in aquatic systems—an introduction  

Christer Brönmark and Lars-Anders Hansson

 1 Aquatic odour dispersal fi elds: opportunities and limits of detection,

communication, and navigation  

 Jelle Atema

 1.1 Odour dispersal: where are the molecules?  

 1.1.1 A question of scale  

 1.1.2 Odour plumes  

 1.1.3 Near-source coincidence  

 1.1.4 Boundary layers  

 1.2 Signal detection: accessing odour  

 1.2.1 Detection threshold  

 1.2.2 Signal-to-noise ratios  

 1.2.3 Intermittency: a patch in space is a pulse in time  

 1.2.4 Aquatic noses  

 1.3 Odour information currents  

 1.4 Navigation in odour fi elds  

 1.4.1 Odour-fl ow coincidence would signal the close proximity of the source  

 1.5 Conclusion  

 References 16

 2 Information conveyed by chemical cues  

 Eric von Elert

 2.1 Habitat and food fi nding  

 2.2 Induced defences in primary producers and bacteria  

 2.3 Induced defences in animal prey  

 2.3.1 Morphological changes  

 2.3.2 Life history and behavioural changes  

 2.4 Alarm cues in invertebrates  

 2.5 Alarm cues in vertebrates  

 2.6 Pheromones and quorum sensing  

 2.7 Dispersal and settlement cues  

 2.8 Pheromones  

 2.9 Conclusions  

 References  

 3 Pheromones mediating sex and dominance in aquatic animals  

 Thomas Breithaupt and Jörg D. Hardege

 3.1 What is a pheromone?  

 3.2 Production, transmission, and reception  

 3.3 Sex pheromones in fi sh—spying males and the evolution of chemical communication  

 3.3.1 The time course of reproductive behaviour in cyprinid fi sh  

 3.3.2 Exceptions from hormonal pheromone communication systems  

 3.4 Sex pheromones in crustaceans—indicators of female receptivity and triggers

 of mate guarding  

 3.5 Pheromones mediating dominance interactions  

 3.6 Pheromones mediating spawning without courtship— Arenicola marina  

 3.7 Pheromones mediating broadcast spawning  

 3.8 Future perspectives and applications of pheromone research  

 References  

 4 Chemical signals and kin biased behaviour  

 Gabriele Gerlach and Cornelia Hinz

 4.1 Living with relatives  

 4.1.1 Kin selection  

 4.1.2 Kin recognition  

 4.1.3 Evidence for kin recognition and kin associations in the aquatic

 environment  

 4.2 Chemical components involved in kin recognition  

 4.2.1 The role of MHC-molecules in the immune system  

 4.2.2 Infl uence of MHC-genotype on social interactions  

 4.2.3 MHC and social interactions in amphibians and fi sh  

 4.3 Concluding remarks  

 References 66

 5 The use of chemical cues in habitat recognition and settlement 72

 Gabriele Gerlach and Jelle Atema

 5.1 Olfactory driven choice of settlement habitat in invertebrates 73

 5.2 Habitat recognition in coral reef fi sh 75

 5.2.1 Imprinting 78

 5.2.2 Climate change and pollution impair habitat recognition 78

 5.3 Concluding remarks 79

 References 79

 6 Migration and navigation 82

 Ole B. Stabell

 6.1 Introduction 82

 6.2 Bottom-dwelling animals 82

 6.2.1 Invertebrate homing to specifi c sites after foraging 82

 6.2.2 Trail making and trail detection in benthic invertebrates 84

 6.2.3 Mechanisms of chemosensory trail detection in molluscs 85

vi CONTENTS

 6.3 Free-swimming animals 85

 6.3.1 Stationary behaviour and site fi delity 86

 6.3.2 Substrate marking by fi sh 86

 6.3.3 Feeding migration and homing for reproduction 88

 6.3.4 Homing theories 89

 6.3.5 Chemical cues involved in site marking and site detection 90

 6.3.6 Long distance homing and navigation 91

 6.4 Concluding remarks 92

 References 93

 7 Death from downstream: chemosensory navigation and predator–prey processes 96

 Marc Weissburg

 7.1 Plumes—a very brief review 96

 7.2 Navigational strategies 99

 7.3 Ecological consequences 103

 7.4 Chemosensory guidance at different scales 106

 7.5 Concluding remarks 107

 References 108

 8 The taste of predation and the defences of prey 111

 Linda Weiss , Christian Laforsch , and Ralph Tollrian

 8.1 Predation drives evolution of prey 111

 8.1.1 Modes of predator detection 111

 8.1.2 Chemical cues as indicators of general and acute predation threat 113

 8.1.3 Predator-induced defences 114

 8.1.4 Multi-predator environments 115

 8.2 Daphnia as a model organism for studies of the ecology and evolution

 of phenotypic plasticity 116

 8.2.1 Inducible defences in Daphnia 116

 8.2.2 Mechanisms of kairomone perception and information

 processing in Daphnia 118

 8.2.3 Receptors and integration of chemical cues 119

 8.2.4 Neuronal signalling 120

 8.2.5 Cellular components 121

 8.2.6 Developmental time frames 122

 8.3 Synopsis and future directions 123

 References 123

 9 The evolution of alarm substances and disturbance cues in aquatic animals 127

 Douglas P. Chivers , Grant E. Brown , and Maud C.O. Ferrari

 9.1 Alarm substances 127

 9.1.1 The taxonomic distribution of alarm substances 127

 9.1.2 The conservation of alarm substances 128

 9.2 The chemistry of alarm substances 129

 9.3 The ecology of alarm substances 130

 9.4 The evolution of alarm substances 132

 9.4.1 Predation-centred hypotheses 133

 9.4.2 Immune system-centred hypotheses for the evolution of alarm substances 134

 9.4.3 Multiple selection pressures? 135

CONTENTS vii

 9.5 Disturbance cues 135

 9.5.1 The taxonomic distribution of disturbance cues 135

 9.5.2 The chemistry of disturbance cues 136

 9.5.3 Evolution of disturbance signals 136

 9.6 Next steps 136

 References 137

 10 Scaling up infochemicals: ecological consequences of chemosensory

assessment of predation risk 140

 Andrew M. Turner and Scott D. Peacor

 10.1 From trait response to community level effects: an overview

of the process 141

 10.2 Population-level processes 142

 10.2.1 Predator effect on prey growth rate through induced

 changes in foraging 142

 10.2.2 Predator effect on within-population variation

 in growth and size 144

 10.2.3 Predator effect on prey life history 144

 10.2.4 Demographic consequences of trait shifts 144

 10.3 Community- and ecosystem-level effects of infochemicals

 in aquatic systems 145

 10.3.1 Trophic cascades 146

 10.3.2 Interspecifi c competition 146

 10.3.3 Effects of multiple predators: facilitation and inhibition 147

 10.3.4 Linked trait modifi cations 147

 10.3.5 Nutrient translocation 148

 10.3.6 Ecological effi ciency across productivity gradients 149

 10.3.7 Theoretical implications 149

 10.4 Scaling up the effects of infochemicals 150

 10.4.1 Does sensory mode affect species’ interactions? 150

 10.4.2 Predator diet 151

 10.4.3 Predator identity 151

 10.4.4 Chemical cues as an experimental tool 152

 10.4.5 Environmental constraints on sensory perception 152

 10.5 Conclusion 154

 References 154

 11 Neuroecology of predator–prey interactions 158

 Charles D. Derby and Richard K. Zimmer

 11.1 Natural histories and trophic ecologies of spiny lobsters and blue crabs 159

 11.2 Chemical attraction mediating search for live, intact prey 161

 11.3 Chemical attraction mediating search for a ‘free lunch’—fresh carrion 162

 11.4 Chemical stimulation and suppression of feeding 163

 11.5 Chemical defences and their effect on ingestion 165

 11.6 Neural mechanisms underlying the detection and recognition of feeding

stimulants and deterrents 167

 11.7 Conclusions and future directions 168

 References 169

viii CONTENTS

 12 Why is the jack of all trades a master of none? Studying the evolution

of inducible defences in aquatic systems 172

 Ulrich K. Steiner and Josh R. Auld

 12.1 Extrinsic factors and the evolution of inducible defences 174

 12.1.1 Environmental fl uctuation 174

 12.1.2 Environmental cues 175

 12.1.3 Evolutionary arms race: inducible defences and inducible offences 177

 12.2 Internal factors and the evolution of inducible defences 177

 12.2.1 Reversibility and time lag of induced defence 177

 12.2.2 Benefi ts and costs of induced defence 178

 12.2.3 Adaptive and passive induced defence 178

 12.2.4 Multiple benefi ts and antagonistic induced defence 179

 12.2.5 Cost of plasticity and evolutionary time limits 179

 12.3 Genetic variation in and genetic basis of induced defences 180

 12.4 Conclusions 181

 References 181

 13 How to explore the sometimes unusual chemistry of aquatic defence chemicals 184

 Geo rg Pohnert

 13.1 The role of primary metabolites in chemical defence 185

 13.1.1 Natural product symbiosis 186

 13.2 General chemical properties and biosynthesis of bioactive metabolites 188

 13.2.1 Structure elucidation 189

 13.2.2 Determination of ecologically relevant concentrations and localization

of defence metabolites 190

 13.3 Conclusions 192

 References 193

 14 Allelochemical interactions among aquatic primary producers 196

 Elisabeth M. Gross , Catherine Legrand , Karin Rengefors , and Urban Tillmann

 14.1 The quagmires of allelopathy—what defi nes allelopathic interactions? 196

 14.2 Out and gone—what is an effi cient way to distribute allelochemicals? 197

 14.3 Exploitative versus interference competition  

 14.4 Evolution of allelopathy  

 14.4.1 Benefi ts and costs of bioactivity against primary producers  

 14.4.2 Does allelopathy benefi t single cells or the many individuals in a

genetically diverse population?  

 14.4.3 Coevolution of donor and target—an arms race?  

 14.5 Are aquatic systems different from terrestrial habitats?  

 14.6 Will disentangling the molecular mechanisms solve the riddles of allelopathy?  

 14.7 Conclusions  

 References  

 15 Chemical defences against herbivores  

 Henrik Pavia , Finn Baumgartner , Gunnar Cervin , Swantje Enge , Julia Kubanek ,

Göran M. Nylund , Erik Selander , J. Robin Svensson , and Gunilla B. Toth

 15.1 Theories of chemical defences  

 15.2 Cost of chemical defence

 15.3 Induced herbivore resistance in aquatic primary producers  

 15.4 Herbivore performance and fi tness effects of chemical defences  

 15.5 Invasion ecology and chemical defences  

 15.6 New approaches and future directions  

 15.6.1 Metabolomics 226

 15.6.2 Proteomics  

 15.6.3 Transcriptomics  

 15.6.4 Consumer aspect  

 15.6.5 A changing world  

 References  

 16 Chemical defences against predators  

 Cynthia Kicklighter

 17 Infodisruption: pollutants interfering with the natural chemical information

conveyance in aquatic systems  

 18 Aquatic chemical ecology: new directions and challenges for the future 272

 Christer Brönmark and Lars-Anders Hansson

 Index  

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