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作者 Voelckel, Claudia
書名 Annual Plant Reviews, Insect-Plant Interactions : Insect-Plant Interactions
出版項 Hoboken : John Wiley & Sons, Incorporated, 2014
©2014
國際標準書號 9781118829813 (electronic bk.)
9780470670361
book jacket
版本 1st ed
說明 1 online resource (437 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
系列 Annual Plant Reviews Ser
Annual Plant Reviews Ser
附註 Intro -- Annual Plant Reviews Volume 47 -- Contents -- List of Contributors -- Preface -- References -- 1 Plants Recognize Herbivorous Insects by Complex Signalling Networks -- 1.1 Introduction -- 1.1.1 The feeding behaviour of insects is an important determinant of the plants defence response -- 1.1.2 insect-associated elicitors are specific elicitors of plant responses to insect feeding or egg deposition -- 1.2 Resistance (R) genes in the perception of piercing-sucking insects -- 1.3 Modification of elicitors by plant enzymes -- 1.4 Changes in Vm, Ca2+ influx and reactive oxygen intermediate generation are early cellular events induced in plants by insect feeding -- 1.5 Shared signal transduction components in microbe and insect elicitor perception -- 1.6 Regulation of phytohormone accumulation and signalling during insect feeding -- 1.6.1 Jasmonic acid -- 1.6.2 Ethylene -- 1.6.3 Salicylic acid -- 1.7 Interconnection of the phytohormone system in plants -- 1.8 Conclusions and perspectives -- Acknowledgements -- References -- 2 Herbivore Oral Secretions are the First Line of Protection Against Plant-Induced Defences -- 2.1 Introduction -- 2.2 Origin of herbivore secretions and initiation of contact with the host plant -- 2.2.1 Piercing-sucking herbivores -- 2.2.2 Chewing herbivores -- 2.3 How do herbivores deliver effectors to the host plant? -- 2.4 Examples of HAMPs and effectors -- 2.4.1 Piercing-sucking herbivores -- 2.4.2 Chewing herbivores -- 2.5 Effectors and host targets -- 2.6 Effectors and the host plant diet -- 2.7 Metagenomes: The interkingdom crossroads of the host plant, herbivore, and microbiome -- Acknowledgements -- References -- 3 Insect Detoxification and Sequestration Strategies -- 3.1 Introduction -- 3.2 Diverse roles of insect cytochromes P450 -- 3.2.1 Furanocoumarin detoxification by Papilio spp. and others
3.2.2 Monoterpene detoxification and pheromone biosynthesis in pine bark beetles -- 3.2.3 Gossypol and CYP6AE14 in Helicoverpa armigera -- 3.2.4 Cactophilic Drosophila and alkaloid detoxification -- 3.3 Cyanogenic glucosides -- 3.4 Glucosinolates -- 3.5 O-glucosides and leaf beetles -- 3.6 Pyrrolizidine alkaloids -- 3.7 Glycosylation of host plant compounds -- 3.8 Non-protein amino acids -- 3.9 Iridoid glucosides -- 3.10 Cardenolides -- 3.11 Conclusions -- Acknowledgements -- References -- 4 Plant Semiochemicals - Perception and Behavioural Responses By Insects -- 4.1 Introduction -- 4.2 A semiochemicals route to the neuron -- 4.2.1 Surfing the surface - A matter of chemo-physical interaction -- 4.2.2 Odorant binding proteins, chemosensory proteins -- 4.2.3 Eliciting signals - Odorant receptors and sensory neuron responses to odorants -- 4.2.4 The clean-up company - Odorant-degrading enzymes -- 4.2.5 Odour perception - Summary -- 4.3 Behavioural responses of insects to plant volatiles -- 4.3.1 Biotic habitat factors influencing plant odour dispersal and insect orientation -- 4.3.2 Biotic factors affecting plant odour emission -- 4.3.3 'Wise' responses to plant odours? The impact of odour experience on insect behaviour -- 4.3.4 Sick insects and their responses to plant odour -- 4.3.5 Age-dependency of insect responses to plant odour -- 4.3.6 Adjusting the responses to plant odour according to the needs -- 4.4 Conclusions -- References -- 5 Plant Transcriptomic Responses to Herbivory -- 5.1 Introduction -- 5.2 Mechanical wounding, feeding mode and HAMPs -- 5.3 Wounding rates and salivary gland applications -- 5.4 Responses to insects from different feeding guilds -- 5.4.1 Chewing herbivores -- 5.4.2 Piercing-sucking herbivores -- 5.4.3 The pitfalls of the generalist-specialist paradigm
5.5 A meta-analysis of microarray studies on transcriptomic responses to herbivory -- 5.6 Simultaneous attack or multiple feeding -- 5.7 Transcriptomics responses to herbivory - An outlook -- 5.7.1 Open questions -- 5.7.2 New tools and approaches -- Acknowledgements -- References -- 6 Transcriptome Responses in Herbivorous Insects Towards Host Plant and Toxin Feeding -- 6.1 Introduction -- 6.2 Challenges for insect herbivores and inducible responses -- 6.2.1 Phytohormones -- 6.2.2 Plant defensive chemicals- Toxins and deterrents -- 6.2.3 Proteinaceous effectors -- 6.2.4 Plant nutrients -- 6.2.5 Whole plant, tissue and organ feeding -- 6.2.6 Common expression signatures and specific differences -- 6.3 Genomic responses to plant and toxin feeding- An outlook -- 6.3.1 Open questions -- 6.3.2 New tools and approaches -- Acknowledgements -- References -- 7 Quantitative Genetics and Genomics of Plant Resistance to Insects -- 7.1 Introduction -- 7.2 Metabolites -- 7.2.1 Glucosinolates -- 7.2.2 Maysin -- 7.2.3 Tomato trichome chemistry -- 7.2.4 Saponins -- 7.3 Physical defences -- 7.4 Signal transduction variation -- 7.5 Physiology -- 7.6 Why have genetic variation in defence? -- 7.7 Summary -- References -- 8 Costs of Resistance in Plants: from Theory to Evidence -- 8.1 The cost-benefit paradigm -- 8.1.1 Hypotheses of plant defence -- 8.1.2 Why do plants have induced defences? -- 8.2 Measuring fitness costs and benefits of plant defence traits -- 8.2.1 Generating trait variation -- 8.2.2 The empirical evidence for costs of resistance -- 8.3 Ecologically relevant settings -- 8.3.1 Competition -- 8.3.2 Nutrient availability -- 8.3.3 Multiple enemies -- 8.3.4 Enemies vs. mutualists -- 8.4 Conclusions -- References -- 9 Plant-Mediated Interactions Among Insects Within a Community Ecological Perspective -- 9.1 Introduction to plant-mediated species interactions
9.1.1 Plant-based insect community structure -- 9.1.2 Plant-mediated species interactions -- 9.2 Plant-mediated species interactions among herbivores -- 9.2.1 Specificity of plant responses to herbivores -- 9.2.2 Asymmetric plant-mediated effects on herbivore performance -- 9.2.3 Plant-mediated effects on herbivore oviposition -- 9.3 Three trophic level interactions -- 9.3.1 Attraction of natural enemies -- 9.3.2 Herbivore diversity affects plant-mediated interactions with natural enemies -- 9.4 Aboveground-belowground interactions -- 9.5 Herbivore-pollinator interactions -- 9.6 Plant-mediated species interactions in a community -- 9.6.1 Plant-mediated interactions involving multiple herbivores -- 9.6.2 Carnivores affecting plant-mediated interactions incommunities -- 9.6.3 Plant-mediated interactions beyond individual plants -- 9.7 Synthesis in the context of plant fitness and future directions -- References -- 10 The Altitudinal Niche-Breadth Hypothesis in Insect-Plant Interactions -- 10.1 Introduction - Variation of niche-breadth along ecological gradients -- 10.2 Herbivorous insects, from specialists to generalists -- 10.3 Evidence for an altitudinal gradient in niche-breadth and climatic variability -- 10.3.1 Does environmental variability increase with increasing altitude? -- 10.3.2 Does variability in host-plant population size increase with increasing altitude? -- 10.4 The altitudinal niche-breadth paradigm -- 10.4.1 Pollinators -- 10.4.2 Herbivores, plant quality and plant defences -- 10.4.3 Predator effects on herbivores -- 10.5 Outlook - Other factors influencing altitudinal niche breadth evolution studies -- 10.5.1 Phylogenetic constraints and correlated life-history traits -- 10.5.2 Phylogeography -- 10.5.3 Phytophagous insect abundance -- 10.5.4 Range size -- 10.5.5 Non-linear relationship along the altitudinal clines -- 10.6 Conclusion
Acknowledgements -- References -- 11 Revisiting Plant-Herbivore Co-Evolution in the Molecular Biology Era -- 11.1 Introduction -- 11.2 Glucosinolates in the Brassicaceae -- 11.3 Benzoxazinoids in the Poaceae -- 11.4 Evolution from primary metabolism -- 11.5 Convergent evolution of defence pathways -- 11.6 Rapid adaptation through modular biosynthetic pathways -- 11.7 Specialist herbivores have evolved to detoxify secondary metabolites -- 11.8 Costs of plant resistance -- 11.9 Molecular phylogenetic evidence for co-evolution -- 11.10 The benefits of metabolic pathway co-regulation -- 11.11 Modification of secondary metabolites as a form of defensive priming -- 11.12 Use of secondary metabolites as defensive signals -- 11.13 Conclusion and future prospects -- References -- Index -- Supplemental Images
This latest volume in Wiley Blackwell's prestigious Annual Plant Reviews brings together articles that describe the biochemical, genetic, and ecological aspects of plant interactions with insect herbivores.. The biochemistry section of this outstanding volume includes reviews highlighting significant findings in the area of plant signalling cascades, recognition of herbivore-associated molecular patterns, sequestration of plant defensive metabolites and perception of plant semiochemicals by insects. Chapters in the genetics section are focused on genetic mapping of herbivore resistance traits and the analysis of transcriptional responses in both plants and insects. The ecology section includes chapters that describe plant-insect interactions at a higher level, including multitrophic interactions, investigations of the cost-benefit paradigm and the altitudinal niche-breadth hypothesis, and a re-evaluation of co-evolution in the light of recent molecular research. Written by many of the world's leading researchers in these subjects, and edited by Claudia Voelckel and Georg Jander, this volume is designed for students and researchers with some background in plant molecular biology or ecology, who would like to learn more about recent advances or obtain a more in-depth understanding of this field.  This volume will also be of great use and interest to a wide range of plant scientists and entomologists and is an essential purchase for universities and research establishments where biological sciences are studied and taught. To view details of volumes in Annual Plant Reviews, visit: www.wiley.com/go/apr Also available from Wiley: Plant Defense Dale Walters 9781405175890 Herbicides and Plant Physiology, 2nd Edn Andrew Cobb & John Reade 9781405129350
Description based on publisher supplied metadata and other sources
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2020. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries
鏈接 Print version: Voelckel, Claudia Annual Plant Reviews, Insect-Plant Interactions : Insect-Plant Interactions Hoboken : John Wiley & Sons, Incorporated,c2014 9780470670361
主題 Insect-plant relationships.;Entomology.;Plant cells and tissues
Electronic books
Alt Author Jander, Georg
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