Staff View: Forest Entomology and Pathology :

Forest Entomology and Pathology : : Volume 1: Entomology.

Saved in:

Bibliographic Details
:	D. Allison, Jeremy.
TeilnehmendeR:	Paine, Timothy D. Slippers, Bernard. Wingfield, Michael J.
Place / Publishing House:	Cham : : Springer International Publishing AG,, 2023. ©2023.
Year of Publication:	2023
Edition:	1st ed.
Language:	English
Online Access:	https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=30614341
Physical Description:	1 online resource (810 pages)
Tags:	Add Tag No Tags, Be the first to tag this record!

id	50030614341
ctrlnum	(MiAaPQ)50030614341 (Au-PeEL)EBL30614341 (OCoLC)1389556939
collection	bib_alma
record_format	marc
spelling	D. Allison, Jeremy. Forest Entomology and Pathology : Volume 1: Entomology. 1st ed. Cham : Springer International Publishing AG, 2023. ©2023. 1 online resource (810 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Intro -- Preface -- Contents -- Contributors -- 1 Introduction to and Importance of Insects -- 1.1 Introduction -- 1.2 What Is an Insect? -- 1.3 The Importance of Insects -- 1.3.1 Decomposition, Nutrient Recycling, and Soil Formation -- 1.3.2 Ecological Roles and Interactions -- 1.3.3 Insect Decline -- 1.4 Summary -- References -- 2 Form and Function -- 2.1 Insect Development -- 2.1.1 Eggs -- 2.1.2 Viviparity -- 2.1.3 Post-embryonic Development and Larval Morphology -- 2.1.4 Molting and Metamorphosis -- 2.2 Sensory Perception -- 2.3 Food Acquisition, Consumption and Utilization -- 2.4 Nervous System -- 2.5 Epidermis and Cuticle -- 2.6 Neuroendocrine System -- 2.7 Circulation and Immunity -- 2.8 Respiration and Gas Exchange -- 2.9 Locomotion -- 2.10 Excretion and Osmoregulation Systems -- 2.11 Reproduction -- 2.12 Conclusions -- References -- 3 Forest Arthropod Diversity -- 3.1 Introduction -- 3.1.1 Plant-Insect Coevolution as a Driver for Diversification -- 3.1.2 Wood as a Distinctive Forest Attribute and a Powerful Driver for Diversification -- 3.1.3 Latitudinal Gradient of Arthropod Diversity -- 3.2 Feeding Guilds of Arthropods Living in Forests -- 3.2.1 Phytophagous Arthropods -- 3.2.2 Zoophagous Arthropods -- 3.2.3 Saprophagous Arthropods -- 3.3 Functional Roles and Ecosystem Services -- 3.3.1 Regulating Primary Production -- 3.3.2 Decomposition and Nutrient Cycling -- 3.3.3 Seed Dispersal -- 3.3.4 Pollination -- 3.3.5 Top-Down Regulation of Phytophagous Arthropods -- 3.3.6 Food Provisioning and Medicines -- 3.4 Effects of Natural Disturbances on Forest Arthropods -- 3.4.1 Abiotic Disturbances -- 3.4.2 Biotic Disturbances -- 3.5 Effects of Forest Logging on Arthropods -- 3.5.1 Clear-Cuts -- 3.5.2 Salvage Logging -- 3.5.3 Partial Cuts -- 3.6 Conservation and Management -- 3.6.1 Protected Areas -- 3.6.2 Ecosystem-Based Forest Management. 3.6.3 Restoration -- 3.7 New Challenges -- References -- 4 Insect Ecology -- 4.1 Introduction -- 4.2 Insects Assume Many Roles in Forests -- 4.3 Species Interact in Many Ways -- 4.4 Life Histories Vary -- 4.4.1 K- and r-Selection: Forces in the Environment Dictate Reproductive Adaptations -- 4.4.2 Some Insects Specialize by Feeding on Trees in a Particular Condition -- 4.5 Abiotic Conditions Alter Insect Growth and Survival -- 4.5.1 Temperature Affects Behavior and Development -- 4.5.2 Precipitation Indirectly Affects Insects by Its Impacts on Trees -- 4.5.3 Extreme Weather Can Have Indirect Effects Through Trees -- 4.5.4 Climate and Weather Patterns Affect Population Density of Insects Regionally -- 4.6 Insect Population Growth Is a Function of Births, Deaths, and Movement -- 4.6.1 The Environment Can Support a Finite Number of Insects -- 4.6.2 Births -- 4.6.3 Deaths -- 4.6.4 Movement -- 4.6.5 A Tool to Measure Population Growth and Regulation -- 4.7 How Global Change Affects Insects in Forest Ecosystems -- References -- 5 Forest Insect Population Dynamics -- 5.1 Introduction -- 5.1.1 Forest Insects on Plantation Trees and on Evolutionarily Naïve Hosts -- 5.1.2 Outbreak Dynamics as an Emergent Property of Insect-Host-Natural Enemy Interactions -- 5.1.3 Introduction to Population Dynamics -- 5.2 Drivers of Population Volatility -- 5.2.1 Variation in the Intrinsic Growth Rate of Populations -- 5.2.2 Lagged Endogenous Feedbacks -- 5.2.3 Scramble Competition -- 5.3 Broad Patterns and Real-World Examples -- 5.3.1 Cyclical Dynamics -- 5.3.2 The Larch Budmoth in the European Alps -- 5.3.3 Tree-Killing Bark Beetles -- 5.3.4 Insect Population Dynamics in Managed Systems -- 5.4 Conclusion -- References -- 6 Forest Insect-Natural Enemy Interactions -- 6.1 Introduction -- 6.2 Natural Enemies -- 6.2.1 Predators -- 6.2.2 Parasitoids. 6.2.3 Nematodes and Pathogens -- 6.3 Food Webs -- 6.4 The Forest Environment and Natural Enemies -- 6.5 Predator-Prey Relationships -- 6.5.1 Prey Finding -- 6.5.2 Prey Exploitation and the Components of Predation -- 6.6 Biological Control -- 6.6.1 Definition -- 6.6.2 Inoculative Biological Control -- 6.6.3 Inundative Biological Control -- 6.6.4 Conservation Biological Control -- 6.6.5 Classical Biological Control -- 6.7 Synthesis and Perspectives -- References -- 7 Forest Insect-Plant Interactions -- 7.1 The Ecology of Insect-Plant Interactions in Forests -- 7.2 The Plant Side-Tree Defenses Against Insects -- 7.2.1 Plant Defense Hypotheses -- 7.2.2 Defense, Resistance, Tolerance -- 7.2.3 Mode of Action: Chemical and Physical Defenses in Trees -- 7.2.4 Temporal Sequence: Constitutive, Induced and Primed Defenses in Trees -- 7.2.5 Effective Dose: Qualitative and Quantitative Defenses in Trees -- 7.2.6 Ecological Function: Direct and Indirect Defenses in Trees and Tri-Trophic Interactions -- 7.3 The Insect Side-How Insects Cope with Tree Defenses -- 7.3.1 A Note on Generalist and Specialist Insect Herbivores -- 7.3.2 Insect Feeding Guilds and Their Interaction with Tree Defenses -- 7.3.3 Insect Strategies to Cope with Tree Defenses -- 7.3.4 The Role of Symbiotic Microorganisms in Insect-Tree Interactions -- 7.4 Case Studies: Major Forest Pest Issues Worldwide -- 7.4.1 Native Pests Living on Co-Evolved Host Trees -- 7.4.2 Invasive Pests Attacking Evolutionary Naïve Host Trees -- 7.5 Conclusions and Future Prospects -- References -- 8 Insects and Forest Succession -- 8.1 Introduction-Foundations of "Succession" in Plant Ecology -- 8.2 Successional Changes in Forest Communities-Models and Mechanisms -- 8.2.1 Forest Stand Structure and Dynamics -- 8.2.2 Tree Ontogeny -- 8.3 Key Questions on Forest Insect Succession. 8.3.1 Observed Successional Patterns in Forest Arthropod Assemblages -- 8.3.2 Two or More Distinct Successional Stages in Forest Arthropod Communities? -- 8.3.3 Relationships Between Arthropod and Vegetation Diversity Through Forest Succession -- 8.3.4 What Insect Groups Depend on Late-Seral Forests? -- 8.3.5 Insect Succession Related to Tree Age and Size -- 8.3.6 Insect Succession on Coarse Woody Debris and Other Discrete Habitat Elements -- 8.4 Effects of Insects on Forest Succession -- 8.5 Conclusions -- References -- 9 Foliage Feeders -- 9.1 Introduction -- 9.2 Effects of Defoliation on Forest Trees -- 9.3 Monitoring for Defoliation and Changes in Defoliator Population Densities -- 9.4 Case Study 1: Winter Moth -- 9.4.1 Biology and Host Range -- 9.4.2 Geographical Range -- 9.4.3 Early Ecological Studies -- 9.4.4 Pathogens -- 9.4.5 Biological Control in North America -- 9.4.6 Population Ecology in North America -- 9.4.7 Recent European Studies -- 9.5 Case Study 2: Spongy Moth -- 9.5.1 Biology -- 9.5.2 Introduction to North America -- 9.5.3 Host Preferences -- 9.5.4 Impact on Forests and Trees -- 9.5.5 Spread of Spongy Moth -- 9.5.6 History of Spongy Moth Control -- 9.5.7 Population Ecology of Spongy Moth -- References -- 10 Bark Beetles -- 10.1 Introduction -- 10.2 Natural History -- 10.2.1 Feeding Ecology -- 10.2.2 Mating Systems -- 10.2.3 Social Behavior -- 10.2.4 Communication -- 10.2.5 Interspecific Interactions -- 10.3 Evolution and Diversity -- 10.3.1 Ten High Impact Bark Beetle Genera and Selected Case-Studies -- 10.4 Management and Control -- 10.4.1 Emerging Pests -- 10.4.2 Bark Beetle Management in a Changing World -- References -- 11 Ambrosia Beetles -- 11.1 Ambrosia Beetle Biology -- 11.1.1 Taxonomic Identity -- 11.1.2 Relationships with Fungi -- 11.2 Who Is the Host and Why Does It Matter?. 11.2.1 Biology of the Coevolutionary Units is Dictated by the Fungus -- 11.2.2 Mycangia -- 11.2.3 Relationships with Trees -- 11.2.4 Host Selection and Chemical Ecology -- 11.3 Economic Significance -- 11.3.1 Ambrosia Beetle Pests in Dead Trees -- 11.3.2 Global Change-Induced Damage by Ambrosia Beetles -- 11.3.3 Tree-Killing Invasive Species -- 11.3.4 Ambrosia Beetle Colonization Is a Sign of Tree Disease, not Its Cause -- 11.4 Questions for Further Research -- 11.4.1 Defense Against Invasive Ambrosia Beetles -- 11.4.2 Ecological Significance -- 11.4.3 Pests of the Future -- References -- 12 Woodborers in Forest Stands -- 12.1 Introduction -- 12.2 Natural History/Ecology of Woodborers -- 12.2.1 Woodborer Habitat -- 12.2.2 Live Tree Inhabitants -- 12.2.3 Generic Life Cycle -- 12.2.4 Importance of Symbionts -- 12.3 Population Regulation -- 12.3.1 Abiotic Factors -- 12.3.2 Biotic Factors -- 12.4 Ecological Roles -- 12.4.1 Nutrient Cycling -- 12.4.2 Forest Structure -- 12.4.3 Ecosystem Services -- 12.4.4 Woodborer Conservation -- 12.5 Chemical Ecology -- 12.6 Economically Important Species -- 12.7 Management of Woodborers -- 12.7.1 Native Species -- 12.7.2 Invasive Species -- 12.8 Summary -- References -- 13 Sap-Sucking Forest Pests -- 13.1 Introduction -- 13.2 Diversity and Biology of Sap-Sucking Insects with Emphasis on Importance for Forestry -- 13.2.1 Background -- 13.2.2 Aphids: Aphidomorpha -- 13.2.3 Jumping Plant Lice: Psylloidea -- 13.2.4 Scale Insects: Coccoidea -- 13.2.5 Other Hemipteran Superfamilies and Their Importance in Forestry -- 13.3 Biology and Ecology of Sap-Sucking Insects -- 13.3.1 General Models of Life History and Seasonal History -- 13.3.2 Feeding Ecology -- 13.3.3 Reproductive Strategies -- 13.3.4 Insect-Plant Interactions -- 13.4 Associated Organisms -- 13.4.1 Natural Enemies -- 13.4.2 Interaction with Ants. 13.4.3 Bees and Honey Production from Honeydew. Description based on publisher supplied metadata and other sources. Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. Electronic books. Paine, Timothy D. Slippers, Bernard. Wingfield, Michael J. Print version: D. Allison, Jeremy Forest Entomology and Pathology Cham : Springer International Publishing AG,c2023 9783031115523 ProQuest (Firm) https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=30614341 Click to View
language	English
format	eBook
author	D. Allison, Jeremy.
spellingShingle	D. Allison, Jeremy. Forest Entomology and Pathology : Volume 1: Entomology. Intro -- Preface -- Contents -- Contributors -- 1 Introduction to and Importance of Insects -- 1.1 Introduction -- 1.2 What Is an Insect? -- 1.3 The Importance of Insects -- 1.3.1 Decomposition, Nutrient Recycling, and Soil Formation -- 1.3.2 Ecological Roles and Interactions -- 1.3.3 Insect Decline -- 1.4 Summary -- References -- 2 Form and Function -- 2.1 Insect Development -- 2.1.1 Eggs -- 2.1.2 Viviparity -- 2.1.3 Post-embryonic Development and Larval Morphology -- 2.1.4 Molting and Metamorphosis -- 2.2 Sensory Perception -- 2.3 Food Acquisition, Consumption and Utilization -- 2.4 Nervous System -- 2.5 Epidermis and Cuticle -- 2.6 Neuroendocrine System -- 2.7 Circulation and Immunity -- 2.8 Respiration and Gas Exchange -- 2.9 Locomotion -- 2.10 Excretion and Osmoregulation Systems -- 2.11 Reproduction -- 2.12 Conclusions -- References -- 3 Forest Arthropod Diversity -- 3.1 Introduction -- 3.1.1 Plant-Insect Coevolution as a Driver for Diversification -- 3.1.2 Wood as a Distinctive Forest Attribute and a Powerful Driver for Diversification -- 3.1.3 Latitudinal Gradient of Arthropod Diversity -- 3.2 Feeding Guilds of Arthropods Living in Forests -- 3.2.1 Phytophagous Arthropods -- 3.2.2 Zoophagous Arthropods -- 3.2.3 Saprophagous Arthropods -- 3.3 Functional Roles and Ecosystem Services -- 3.3.1 Regulating Primary Production -- 3.3.2 Decomposition and Nutrient Cycling -- 3.3.3 Seed Dispersal -- 3.3.4 Pollination -- 3.3.5 Top-Down Regulation of Phytophagous Arthropods -- 3.3.6 Food Provisioning and Medicines -- 3.4 Effects of Natural Disturbances on Forest Arthropods -- 3.4.1 Abiotic Disturbances -- 3.4.2 Biotic Disturbances -- 3.5 Effects of Forest Logging on Arthropods -- 3.5.1 Clear-Cuts -- 3.5.2 Salvage Logging -- 3.5.3 Partial Cuts -- 3.6 Conservation and Management -- 3.6.1 Protected Areas -- 3.6.2 Ecosystem-Based Forest Management. 3.6.3 Restoration -- 3.7 New Challenges -- References -- 4 Insect Ecology -- 4.1 Introduction -- 4.2 Insects Assume Many Roles in Forests -- 4.3 Species Interact in Many Ways -- 4.4 Life Histories Vary -- 4.4.1 K- and r-Selection: Forces in the Environment Dictate Reproductive Adaptations -- 4.4.2 Some Insects Specialize by Feeding on Trees in a Particular Condition -- 4.5 Abiotic Conditions Alter Insect Growth and Survival -- 4.5.1 Temperature Affects Behavior and Development -- 4.5.2 Precipitation Indirectly Affects Insects by Its Impacts on Trees -- 4.5.3 Extreme Weather Can Have Indirect Effects Through Trees -- 4.5.4 Climate and Weather Patterns Affect Population Density of Insects Regionally -- 4.6 Insect Population Growth Is a Function of Births, Deaths, and Movement -- 4.6.1 The Environment Can Support a Finite Number of Insects -- 4.6.2 Births -- 4.6.3 Deaths -- 4.6.4 Movement -- 4.6.5 A Tool to Measure Population Growth and Regulation -- 4.7 How Global Change Affects Insects in Forest Ecosystems -- References -- 5 Forest Insect Population Dynamics -- 5.1 Introduction -- 5.1.1 Forest Insects on Plantation Trees and on Evolutionarily Naïve Hosts -- 5.1.2 Outbreak Dynamics as an Emergent Property of Insect-Host-Natural Enemy Interactions -- 5.1.3 Introduction to Population Dynamics -- 5.2 Drivers of Population Volatility -- 5.2.1 Variation in the Intrinsic Growth Rate of Populations -- 5.2.2 Lagged Endogenous Feedbacks -- 5.2.3 Scramble Competition -- 5.3 Broad Patterns and Real-World Examples -- 5.3.1 Cyclical Dynamics -- 5.3.2 The Larch Budmoth in the European Alps -- 5.3.3 Tree-Killing Bark Beetles -- 5.3.4 Insect Population Dynamics in Managed Systems -- 5.4 Conclusion -- References -- 6 Forest Insect-Natural Enemy Interactions -- 6.1 Introduction -- 6.2 Natural Enemies -- 6.2.1 Predators -- 6.2.2 Parasitoids. 6.2.3 Nematodes and Pathogens -- 6.3 Food Webs -- 6.4 The Forest Environment and Natural Enemies -- 6.5 Predator-Prey Relationships -- 6.5.1 Prey Finding -- 6.5.2 Prey Exploitation and the Components of Predation -- 6.6 Biological Control -- 6.6.1 Definition -- 6.6.2 Inoculative Biological Control -- 6.6.3 Inundative Biological Control -- 6.6.4 Conservation Biological Control -- 6.6.5 Classical Biological Control -- 6.7 Synthesis and Perspectives -- References -- 7 Forest Insect-Plant Interactions -- 7.1 The Ecology of Insect-Plant Interactions in Forests -- 7.2 The Plant Side-Tree Defenses Against Insects -- 7.2.1 Plant Defense Hypotheses -- 7.2.2 Defense, Resistance, Tolerance -- 7.2.3 Mode of Action: Chemical and Physical Defenses in Trees -- 7.2.4 Temporal Sequence: Constitutive, Induced and Primed Defenses in Trees -- 7.2.5 Effective Dose: Qualitative and Quantitative Defenses in Trees -- 7.2.6 Ecological Function: Direct and Indirect Defenses in Trees and Tri-Trophic Interactions -- 7.3 The Insect Side-How Insects Cope with Tree Defenses -- 7.3.1 A Note on Generalist and Specialist Insect Herbivores -- 7.3.2 Insect Feeding Guilds and Their Interaction with Tree Defenses -- 7.3.3 Insect Strategies to Cope with Tree Defenses -- 7.3.4 The Role of Symbiotic Microorganisms in Insect-Tree Interactions -- 7.4 Case Studies: Major Forest Pest Issues Worldwide -- 7.4.1 Native Pests Living on Co-Evolved Host Trees -- 7.4.2 Invasive Pests Attacking Evolutionary Naïve Host Trees -- 7.5 Conclusions and Future Prospects -- References -- 8 Insects and Forest Succession -- 8.1 Introduction-Foundations of "Succession" in Plant Ecology -- 8.2 Successional Changes in Forest Communities-Models and Mechanisms -- 8.2.1 Forest Stand Structure and Dynamics -- 8.2.2 Tree Ontogeny -- 8.3 Key Questions on Forest Insect Succession. 8.3.1 Observed Successional Patterns in Forest Arthropod Assemblages -- 8.3.2 Two or More Distinct Successional Stages in Forest Arthropod Communities? -- 8.3.3 Relationships Between Arthropod and Vegetation Diversity Through Forest Succession -- 8.3.4 What Insect Groups Depend on Late-Seral Forests? -- 8.3.5 Insect Succession Related to Tree Age and Size -- 8.3.6 Insect Succession on Coarse Woody Debris and Other Discrete Habitat Elements -- 8.4 Effects of Insects on Forest Succession -- 8.5 Conclusions -- References -- 9 Foliage Feeders -- 9.1 Introduction -- 9.2 Effects of Defoliation on Forest Trees -- 9.3 Monitoring for Defoliation and Changes in Defoliator Population Densities -- 9.4 Case Study 1: Winter Moth -- 9.4.1 Biology and Host Range -- 9.4.2 Geographical Range -- 9.4.3 Early Ecological Studies -- 9.4.4 Pathogens -- 9.4.5 Biological Control in North America -- 9.4.6 Population Ecology in North America -- 9.4.7 Recent European Studies -- 9.5 Case Study 2: Spongy Moth -- 9.5.1 Biology -- 9.5.2 Introduction to North America -- 9.5.3 Host Preferences -- 9.5.4 Impact on Forests and Trees -- 9.5.5 Spread of Spongy Moth -- 9.5.6 History of Spongy Moth Control -- 9.5.7 Population Ecology of Spongy Moth -- References -- 10 Bark Beetles -- 10.1 Introduction -- 10.2 Natural History -- 10.2.1 Feeding Ecology -- 10.2.2 Mating Systems -- 10.2.3 Social Behavior -- 10.2.4 Communication -- 10.2.5 Interspecific Interactions -- 10.3 Evolution and Diversity -- 10.3.1 Ten High Impact Bark Beetle Genera and Selected Case-Studies -- 10.4 Management and Control -- 10.4.1 Emerging Pests -- 10.4.2 Bark Beetle Management in a Changing World -- References -- 11 Ambrosia Beetles -- 11.1 Ambrosia Beetle Biology -- 11.1.1 Taxonomic Identity -- 11.1.2 Relationships with Fungi -- 11.2 Who Is the Host and Why Does It Matter?. 11.2.1 Biology of the Coevolutionary Units is Dictated by the Fungus -- 11.2.2 Mycangia -- 11.2.3 Relationships with Trees -- 11.2.4 Host Selection and Chemical Ecology -- 11.3 Economic Significance -- 11.3.1 Ambrosia Beetle Pests in Dead Trees -- 11.3.2 Global Change-Induced Damage by Ambrosia Beetles -- 11.3.3 Tree-Killing Invasive Species -- 11.3.4 Ambrosia Beetle Colonization Is a Sign of Tree Disease, not Its Cause -- 11.4 Questions for Further Research -- 11.4.1 Defense Against Invasive Ambrosia Beetles -- 11.4.2 Ecological Significance -- 11.4.3 Pests of the Future -- References -- 12 Woodborers in Forest Stands -- 12.1 Introduction -- 12.2 Natural History/Ecology of Woodborers -- 12.2.1 Woodborer Habitat -- 12.2.2 Live Tree Inhabitants -- 12.2.3 Generic Life Cycle -- 12.2.4 Importance of Symbionts -- 12.3 Population Regulation -- 12.3.1 Abiotic Factors -- 12.3.2 Biotic Factors -- 12.4 Ecological Roles -- 12.4.1 Nutrient Cycling -- 12.4.2 Forest Structure -- 12.4.3 Ecosystem Services -- 12.4.4 Woodborer Conservation -- 12.5 Chemical Ecology -- 12.6 Economically Important Species -- 12.7 Management of Woodborers -- 12.7.1 Native Species -- 12.7.2 Invasive Species -- 12.8 Summary -- References -- 13 Sap-Sucking Forest Pests -- 13.1 Introduction -- 13.2 Diversity and Biology of Sap-Sucking Insects with Emphasis on Importance for Forestry -- 13.2.1 Background -- 13.2.2 Aphids: Aphidomorpha -- 13.2.3 Jumping Plant Lice: Psylloidea -- 13.2.4 Scale Insects: Coccoidea -- 13.2.5 Other Hemipteran Superfamilies and Their Importance in Forestry -- 13.3 Biology and Ecology of Sap-Sucking Insects -- 13.3.1 General Models of Life History and Seasonal History -- 13.3.2 Feeding Ecology -- 13.3.3 Reproductive Strategies -- 13.3.4 Insect-Plant Interactions -- 13.4 Associated Organisms -- 13.4.1 Natural Enemies -- 13.4.2 Interaction with Ants. 13.4.3 Bees and Honey Production from Honeydew.
author_facet	D. Allison, Jeremy. Paine, Timothy D. Slippers, Bernard. Wingfield, Michael J.
author_variant	a j d aj ajd
author2	Paine, Timothy D. Slippers, Bernard. Wingfield, Michael J.
author2_variant	t d p td tdp b s bs m j w mj mjw
author2_role	TeilnehmendeR TeilnehmendeR TeilnehmendeR
author_sort	D. Allison, Jeremy.
title	Forest Entomology and Pathology : Volume 1: Entomology.
title_sub	Volume 1: Entomology.
title_full	Forest Entomology and Pathology : Volume 1: Entomology.
title_fullStr	Forest Entomology and Pathology : Volume 1: Entomology.
title_full_unstemmed	Forest Entomology and Pathology : Volume 1: Entomology.
title_auth	Forest Entomology and Pathology : Volume 1: Entomology.
title_new	Forest Entomology and Pathology :
title_sort	forest entomology and pathology : volume 1: entomology.
publisher	Springer International Publishing AG,
publishDate	2023
physical	1 online resource (810 pages)
edition	1st ed.
contents	Intro -- Preface -- Contents -- Contributors -- 1 Introduction to and Importance of Insects -- 1.1 Introduction -- 1.2 What Is an Insect? -- 1.3 The Importance of Insects -- 1.3.1 Decomposition, Nutrient Recycling, and Soil Formation -- 1.3.2 Ecological Roles and Interactions -- 1.3.3 Insect Decline -- 1.4 Summary -- References -- 2 Form and Function -- 2.1 Insect Development -- 2.1.1 Eggs -- 2.1.2 Viviparity -- 2.1.3 Post-embryonic Development and Larval Morphology -- 2.1.4 Molting and Metamorphosis -- 2.2 Sensory Perception -- 2.3 Food Acquisition, Consumption and Utilization -- 2.4 Nervous System -- 2.5 Epidermis and Cuticle -- 2.6 Neuroendocrine System -- 2.7 Circulation and Immunity -- 2.8 Respiration and Gas Exchange -- 2.9 Locomotion -- 2.10 Excretion and Osmoregulation Systems -- 2.11 Reproduction -- 2.12 Conclusions -- References -- 3 Forest Arthropod Diversity -- 3.1 Introduction -- 3.1.1 Plant-Insect Coevolution as a Driver for Diversification -- 3.1.2 Wood as a Distinctive Forest Attribute and a Powerful Driver for Diversification -- 3.1.3 Latitudinal Gradient of Arthropod Diversity -- 3.2 Feeding Guilds of Arthropods Living in Forests -- 3.2.1 Phytophagous Arthropods -- 3.2.2 Zoophagous Arthropods -- 3.2.3 Saprophagous Arthropods -- 3.3 Functional Roles and Ecosystem Services -- 3.3.1 Regulating Primary Production -- 3.3.2 Decomposition and Nutrient Cycling -- 3.3.3 Seed Dispersal -- 3.3.4 Pollination -- 3.3.5 Top-Down Regulation of Phytophagous Arthropods -- 3.3.6 Food Provisioning and Medicines -- 3.4 Effects of Natural Disturbances on Forest Arthropods -- 3.4.1 Abiotic Disturbances -- 3.4.2 Biotic Disturbances -- 3.5 Effects of Forest Logging on Arthropods -- 3.5.1 Clear-Cuts -- 3.5.2 Salvage Logging -- 3.5.3 Partial Cuts -- 3.6 Conservation and Management -- 3.6.1 Protected Areas -- 3.6.2 Ecosystem-Based Forest Management. 3.6.3 Restoration -- 3.7 New Challenges -- References -- 4 Insect Ecology -- 4.1 Introduction -- 4.2 Insects Assume Many Roles in Forests -- 4.3 Species Interact in Many Ways -- 4.4 Life Histories Vary -- 4.4.1 K- and r-Selection: Forces in the Environment Dictate Reproductive Adaptations -- 4.4.2 Some Insects Specialize by Feeding on Trees in a Particular Condition -- 4.5 Abiotic Conditions Alter Insect Growth and Survival -- 4.5.1 Temperature Affects Behavior and Development -- 4.5.2 Precipitation Indirectly Affects Insects by Its Impacts on Trees -- 4.5.3 Extreme Weather Can Have Indirect Effects Through Trees -- 4.5.4 Climate and Weather Patterns Affect Population Density of Insects Regionally -- 4.6 Insect Population Growth Is a Function of Births, Deaths, and Movement -- 4.6.1 The Environment Can Support a Finite Number of Insects -- 4.6.2 Births -- 4.6.3 Deaths -- 4.6.4 Movement -- 4.6.5 A Tool to Measure Population Growth and Regulation -- 4.7 How Global Change Affects Insects in Forest Ecosystems -- References -- 5 Forest Insect Population Dynamics -- 5.1 Introduction -- 5.1.1 Forest Insects on Plantation Trees and on Evolutionarily Naïve Hosts -- 5.1.2 Outbreak Dynamics as an Emergent Property of Insect-Host-Natural Enemy Interactions -- 5.1.3 Introduction to Population Dynamics -- 5.2 Drivers of Population Volatility -- 5.2.1 Variation in the Intrinsic Growth Rate of Populations -- 5.2.2 Lagged Endogenous Feedbacks -- 5.2.3 Scramble Competition -- 5.3 Broad Patterns and Real-World Examples -- 5.3.1 Cyclical Dynamics -- 5.3.2 The Larch Budmoth in the European Alps -- 5.3.3 Tree-Killing Bark Beetles -- 5.3.4 Insect Population Dynamics in Managed Systems -- 5.4 Conclusion -- References -- 6 Forest Insect-Natural Enemy Interactions -- 6.1 Introduction -- 6.2 Natural Enemies -- 6.2.1 Predators -- 6.2.2 Parasitoids. 6.2.3 Nematodes and Pathogens -- 6.3 Food Webs -- 6.4 The Forest Environment and Natural Enemies -- 6.5 Predator-Prey Relationships -- 6.5.1 Prey Finding -- 6.5.2 Prey Exploitation and the Components of Predation -- 6.6 Biological Control -- 6.6.1 Definition -- 6.6.2 Inoculative Biological Control -- 6.6.3 Inundative Biological Control -- 6.6.4 Conservation Biological Control -- 6.6.5 Classical Biological Control -- 6.7 Synthesis and Perspectives -- References -- 7 Forest Insect-Plant Interactions -- 7.1 The Ecology of Insect-Plant Interactions in Forests -- 7.2 The Plant Side-Tree Defenses Against Insects -- 7.2.1 Plant Defense Hypotheses -- 7.2.2 Defense, Resistance, Tolerance -- 7.2.3 Mode of Action: Chemical and Physical Defenses in Trees -- 7.2.4 Temporal Sequence: Constitutive, Induced and Primed Defenses in Trees -- 7.2.5 Effective Dose: Qualitative and Quantitative Defenses in Trees -- 7.2.6 Ecological Function: Direct and Indirect Defenses in Trees and Tri-Trophic Interactions -- 7.3 The Insect Side-How Insects Cope with Tree Defenses -- 7.3.1 A Note on Generalist and Specialist Insect Herbivores -- 7.3.2 Insect Feeding Guilds and Their Interaction with Tree Defenses -- 7.3.3 Insect Strategies to Cope with Tree Defenses -- 7.3.4 The Role of Symbiotic Microorganisms in Insect-Tree Interactions -- 7.4 Case Studies: Major Forest Pest Issues Worldwide -- 7.4.1 Native Pests Living on Co-Evolved Host Trees -- 7.4.2 Invasive Pests Attacking Evolutionary Naïve Host Trees -- 7.5 Conclusions and Future Prospects -- References -- 8 Insects and Forest Succession -- 8.1 Introduction-Foundations of "Succession" in Plant Ecology -- 8.2 Successional Changes in Forest Communities-Models and Mechanisms -- 8.2.1 Forest Stand Structure and Dynamics -- 8.2.2 Tree Ontogeny -- 8.3 Key Questions on Forest Insect Succession. 8.3.1 Observed Successional Patterns in Forest Arthropod Assemblages -- 8.3.2 Two or More Distinct Successional Stages in Forest Arthropod Communities? -- 8.3.3 Relationships Between Arthropod and Vegetation Diversity Through Forest Succession -- 8.3.4 What Insect Groups Depend on Late-Seral Forests? -- 8.3.5 Insect Succession Related to Tree Age and Size -- 8.3.6 Insect Succession on Coarse Woody Debris and Other Discrete Habitat Elements -- 8.4 Effects of Insects on Forest Succession -- 8.5 Conclusions -- References -- 9 Foliage Feeders -- 9.1 Introduction -- 9.2 Effects of Defoliation on Forest Trees -- 9.3 Monitoring for Defoliation and Changes in Defoliator Population Densities -- 9.4 Case Study 1: Winter Moth -- 9.4.1 Biology and Host Range -- 9.4.2 Geographical Range -- 9.4.3 Early Ecological Studies -- 9.4.4 Pathogens -- 9.4.5 Biological Control in North America -- 9.4.6 Population Ecology in North America -- 9.4.7 Recent European Studies -- 9.5 Case Study 2: Spongy Moth -- 9.5.1 Biology -- 9.5.2 Introduction to North America -- 9.5.3 Host Preferences -- 9.5.4 Impact on Forests and Trees -- 9.5.5 Spread of Spongy Moth -- 9.5.6 History of Spongy Moth Control -- 9.5.7 Population Ecology of Spongy Moth -- References -- 10 Bark Beetles -- 10.1 Introduction -- 10.2 Natural History -- 10.2.1 Feeding Ecology -- 10.2.2 Mating Systems -- 10.2.3 Social Behavior -- 10.2.4 Communication -- 10.2.5 Interspecific Interactions -- 10.3 Evolution and Diversity -- 10.3.1 Ten High Impact Bark Beetle Genera and Selected Case-Studies -- 10.4 Management and Control -- 10.4.1 Emerging Pests -- 10.4.2 Bark Beetle Management in a Changing World -- References -- 11 Ambrosia Beetles -- 11.1 Ambrosia Beetle Biology -- 11.1.1 Taxonomic Identity -- 11.1.2 Relationships with Fungi -- 11.2 Who Is the Host and Why Does It Matter?. 11.2.1 Biology of the Coevolutionary Units is Dictated by the Fungus -- 11.2.2 Mycangia -- 11.2.3 Relationships with Trees -- 11.2.4 Host Selection and Chemical Ecology -- 11.3 Economic Significance -- 11.3.1 Ambrosia Beetle Pests in Dead Trees -- 11.3.2 Global Change-Induced Damage by Ambrosia Beetles -- 11.3.3 Tree-Killing Invasive Species -- 11.3.4 Ambrosia Beetle Colonization Is a Sign of Tree Disease, not Its Cause -- 11.4 Questions for Further Research -- 11.4.1 Defense Against Invasive Ambrosia Beetles -- 11.4.2 Ecological Significance -- 11.4.3 Pests of the Future -- References -- 12 Woodborers in Forest Stands -- 12.1 Introduction -- 12.2 Natural History/Ecology of Woodborers -- 12.2.1 Woodborer Habitat -- 12.2.2 Live Tree Inhabitants -- 12.2.3 Generic Life Cycle -- 12.2.4 Importance of Symbionts -- 12.3 Population Regulation -- 12.3.1 Abiotic Factors -- 12.3.2 Biotic Factors -- 12.4 Ecological Roles -- 12.4.1 Nutrient Cycling -- 12.4.2 Forest Structure -- 12.4.3 Ecosystem Services -- 12.4.4 Woodborer Conservation -- 12.5 Chemical Ecology -- 12.6 Economically Important Species -- 12.7 Management of Woodborers -- 12.7.1 Native Species -- 12.7.2 Invasive Species -- 12.8 Summary -- References -- 13 Sap-Sucking Forest Pests -- 13.1 Introduction -- 13.2 Diversity and Biology of Sap-Sucking Insects with Emphasis on Importance for Forestry -- 13.2.1 Background -- 13.2.2 Aphids: Aphidomorpha -- 13.2.3 Jumping Plant Lice: Psylloidea -- 13.2.4 Scale Insects: Coccoidea -- 13.2.5 Other Hemipteran Superfamilies and Their Importance in Forestry -- 13.3 Biology and Ecology of Sap-Sucking Insects -- 13.3.1 General Models of Life History and Seasonal History -- 13.3.2 Feeding Ecology -- 13.3.3 Reproductive Strategies -- 13.3.4 Insect-Plant Interactions -- 13.4 Associated Organisms -- 13.4.1 Natural Enemies -- 13.4.2 Interaction with Ants. 13.4.3 Bees and Honey Production from Honeydew.
isbn	9783031115530 9783031115523
callnumber-first	Q - Science
callnumber-subject	QL - Zoology
callnumber-label	QL1-991
callnumber-sort	QL 11 3991
genre	Electronic books.
genre_facet	Electronic books.
url	https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=30614341
illustrated	Not Illustrated
oclc_num	1389556939
work_keys_str_mv	AT dallisonjeremy forestentomologyandpathologyvolume1entomology AT painetimothyd forestentomologyandpathologyvolume1entomology AT slippersbernard forestentomologyandpathologyvolume1entomology AT wingfieldmichaelj forestentomologyandpathologyvolume1entomology
status_str	n
ids_txt_mv	(MiAaPQ)50030614341 (Au-PeEL)EBL30614341 (OCoLC)1389556939
carrierType_str_mv	cr
is_hierarchy_title	Forest Entomology and Pathology : Volume 1: Entomology.
author2_original_writing_str_mv	noLinkedField noLinkedField noLinkedField
marc_error	Info : MARC8 translation shorter than ISO-8859-1, choosing MARC8. --- [ 856 : z ]
_version_	1792331071061229568
fullrecord	<?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>11864nam a22004693i 4500</leader><controlfield tag="001">50030614341</controlfield><controlfield tag="003">MiAaPQ</controlfield><controlfield tag="005">20240229073850.0</controlfield><controlfield tag="006">m o d \| </controlfield><controlfield tag="007">cr cnu\|\|\|\|\|\|\|\|</controlfield><controlfield tag="008">240229s2023 xx o \|\|\|\|0 eng d</controlfield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">9783031115530</subfield><subfield code="q">(electronic bk.)</subfield></datafield><datafield tag="020" ind1=" " ind2=" "><subfield code="z">9783031115523</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(MiAaPQ)50030614341</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(Au-PeEL)EBL30614341</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)1389556939</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">MiAaPQ</subfield><subfield code="b">eng</subfield><subfield code="e">rda</subfield><subfield code="e">pn</subfield><subfield code="c">MiAaPQ</subfield><subfield code="d">MiAaPQ</subfield></datafield><datafield tag="050" ind1=" " ind2="4"><subfield code="a">QL1-991</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">D. Allison, Jeremy.</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Forest Entomology and Pathology :</subfield><subfield code="b">Volume 1: Entomology.</subfield></datafield><datafield tag="250" ind1=" " ind2=" "><subfield code="a">1st ed.</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">Cham :</subfield><subfield code="b">Springer International Publishing AG,</subfield><subfield code="c">2023.</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">©2023.</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (810 pages)</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">computer</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">online resource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Intro -- Preface -- Contents -- Contributors -- 1 Introduction to and Importance of Insects -- 1.1 Introduction -- 1.2 What Is an Insect? -- 1.3 The Importance of Insects -- 1.3.1 Decomposition, Nutrient Recycling, and Soil Formation -- 1.3.2 Ecological Roles and Interactions -- 1.3.3 Insect Decline -- 1.4 Summary -- References -- 2 Form and Function -- 2.1 Insect Development -- 2.1.1 Eggs -- 2.1.2 Viviparity -- 2.1.3 Post-embryonic Development and Larval Morphology -- 2.1.4 Molting and Metamorphosis -- 2.2 Sensory Perception -- 2.3 Food Acquisition, Consumption and Utilization -- 2.4 Nervous System -- 2.5 Epidermis and Cuticle -- 2.6 Neuroendocrine System -- 2.7 Circulation and Immunity -- 2.8 Respiration and Gas Exchange -- 2.9 Locomotion -- 2.10 Excretion and Osmoregulation Systems -- 2.11 Reproduction -- 2.12 Conclusions -- References -- 3 Forest Arthropod Diversity -- 3.1 Introduction -- 3.1.1 Plant-Insect Coevolution as a Driver for Diversification -- 3.1.2 Wood as a Distinctive Forest Attribute and a Powerful Driver for Diversification -- 3.1.3 Latitudinal Gradient of Arthropod Diversity -- 3.2 Feeding Guilds of Arthropods Living in Forests -- 3.2.1 Phytophagous Arthropods -- 3.2.2 Zoophagous Arthropods -- 3.2.3 Saprophagous Arthropods -- 3.3 Functional Roles and Ecosystem Services -- 3.3.1 Regulating Primary Production -- 3.3.2 Decomposition and Nutrient Cycling -- 3.3.3 Seed Dispersal -- 3.3.4 Pollination -- 3.3.5 Top-Down Regulation of Phytophagous Arthropods -- 3.3.6 Food Provisioning and Medicines -- 3.4 Effects of Natural Disturbances on Forest Arthropods -- 3.4.1 Abiotic Disturbances -- 3.4.2 Biotic Disturbances -- 3.5 Effects of Forest Logging on Arthropods -- 3.5.1 Clear-Cuts -- 3.5.2 Salvage Logging -- 3.5.3 Partial Cuts -- 3.6 Conservation and Management -- 3.6.1 Protected Areas -- 3.6.2 Ecosystem-Based Forest Management.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.6.3 Restoration -- 3.7 New Challenges -- References -- 4 Insect Ecology -- 4.1 Introduction -- 4.2 Insects Assume Many Roles in Forests -- 4.3 Species Interact in Many Ways -- 4.4 Life Histories Vary -- 4.4.1 K- and r-Selection: Forces in the Environment Dictate Reproductive Adaptations -- 4.4.2 Some Insects Specialize by Feeding on Trees in a Particular Condition -- 4.5 Abiotic Conditions Alter Insect Growth and Survival -- 4.5.1 Temperature Affects Behavior and Development -- 4.5.2 Precipitation Indirectly Affects Insects by Its Impacts on Trees -- 4.5.3 Extreme Weather Can Have Indirect Effects Through Trees -- 4.5.4 Climate and Weather Patterns Affect Population Density of Insects Regionally -- 4.6 Insect Population Growth Is a Function of Births, Deaths, and Movement -- 4.6.1 The Environment Can Support a Finite Number of Insects -- 4.6.2 Births -- 4.6.3 Deaths -- 4.6.4 Movement -- 4.6.5 A Tool to Measure Population Growth and Regulation -- 4.7 How Global Change Affects Insects in Forest Ecosystems -- References -- 5 Forest Insect Population Dynamics -- 5.1 Introduction -- 5.1.1 Forest Insects on Plantation Trees and on Evolutionarily Naïve Hosts -- 5.1.2 Outbreak Dynamics as an Emergent Property of Insect-Host-Natural Enemy Interactions -- 5.1.3 Introduction to Population Dynamics -- 5.2 Drivers of Population Volatility -- 5.2.1 Variation in the Intrinsic Growth Rate of Populations -- 5.2.2 Lagged Endogenous Feedbacks -- 5.2.3 Scramble Competition -- 5.3 Broad Patterns and Real-World Examples -- 5.3.1 Cyclical Dynamics -- 5.3.2 The Larch Budmoth in the European Alps -- 5.3.3 Tree-Killing Bark Beetles -- 5.3.4 Insect Population Dynamics in Managed Systems -- 5.4 Conclusion -- References -- 6 Forest Insect-Natural Enemy Interactions -- 6.1 Introduction -- 6.2 Natural Enemies -- 6.2.1 Predators -- 6.2.2 Parasitoids.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">6.2.3 Nematodes and Pathogens -- 6.3 Food Webs -- 6.4 The Forest Environment and Natural Enemies -- 6.5 Predator-Prey Relationships -- 6.5.1 Prey Finding -- 6.5.2 Prey Exploitation and the Components of Predation -- 6.6 Biological Control -- 6.6.1 Definition -- 6.6.2 Inoculative Biological Control -- 6.6.3 Inundative Biological Control -- 6.6.4 Conservation Biological Control -- 6.6.5 Classical Biological Control -- 6.7 Synthesis and Perspectives -- References -- 7 Forest Insect-Plant Interactions -- 7.1 The Ecology of Insect-Plant Interactions in Forests -- 7.2 The Plant Side-Tree Defenses Against Insects -- 7.2.1 Plant Defense Hypotheses -- 7.2.2 Defense, Resistance, Tolerance -- 7.2.3 Mode of Action: Chemical and Physical Defenses in Trees -- 7.2.4 Temporal Sequence: Constitutive, Induced and Primed Defenses in Trees -- 7.2.5 Effective Dose: Qualitative and Quantitative Defenses in Trees -- 7.2.6 Ecological Function: Direct and Indirect Defenses in Trees and Tri-Trophic Interactions -- 7.3 The Insect Side-How Insects Cope with Tree Defenses -- 7.3.1 A Note on Generalist and Specialist Insect Herbivores -- 7.3.2 Insect Feeding Guilds and Their Interaction with Tree Defenses -- 7.3.3 Insect Strategies to Cope with Tree Defenses -- 7.3.4 The Role of Symbiotic Microorganisms in Insect-Tree Interactions -- 7.4 Case Studies: Major Forest Pest Issues Worldwide -- 7.4.1 Native Pests Living on Co-Evolved Host Trees -- 7.4.2 Invasive Pests Attacking Evolutionary Naïve Host Trees -- 7.5 Conclusions and Future Prospects -- References -- 8 Insects and Forest Succession -- 8.1 Introduction-Foundations of "Succession" in Plant Ecology -- 8.2 Successional Changes in Forest Communities-Models and Mechanisms -- 8.2.1 Forest Stand Structure and Dynamics -- 8.2.2 Tree Ontogeny -- 8.3 Key Questions on Forest Insect Succession.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">8.3.1 Observed Successional Patterns in Forest Arthropod Assemblages -- 8.3.2 Two or More Distinct Successional Stages in Forest Arthropod Communities? -- 8.3.3 Relationships Between Arthropod and Vegetation Diversity Through Forest Succession -- 8.3.4 What Insect Groups Depend on Late-Seral Forests? -- 8.3.5 Insect Succession Related to Tree Age and Size -- 8.3.6 Insect Succession on Coarse Woody Debris and Other Discrete Habitat Elements -- 8.4 Effects of Insects on Forest Succession -- 8.5 Conclusions -- References -- 9 Foliage Feeders -- 9.1 Introduction -- 9.2 Effects of Defoliation on Forest Trees -- 9.3 Monitoring for Defoliation and Changes in Defoliator Population Densities -- 9.4 Case Study 1: Winter Moth -- 9.4.1 Biology and Host Range -- 9.4.2 Geographical Range -- 9.4.3 Early Ecological Studies -- 9.4.4 Pathogens -- 9.4.5 Biological Control in North America -- 9.4.6 Population Ecology in North America -- 9.4.7 Recent European Studies -- 9.5 Case Study 2: Spongy Moth -- 9.5.1 Biology -- 9.5.2 Introduction to North America -- 9.5.3 Host Preferences -- 9.5.4 Impact on Forests and Trees -- 9.5.5 Spread of Spongy Moth -- 9.5.6 History of Spongy Moth Control -- 9.5.7 Population Ecology of Spongy Moth -- References -- 10 Bark Beetles -- 10.1 Introduction -- 10.2 Natural History -- 10.2.1 Feeding Ecology -- 10.2.2 Mating Systems -- 10.2.3 Social Behavior -- 10.2.4 Communication -- 10.2.5 Interspecific Interactions -- 10.3 Evolution and Diversity -- 10.3.1 Ten High Impact Bark Beetle Genera and Selected Case-Studies -- 10.4 Management and Control -- 10.4.1 Emerging Pests -- 10.4.2 Bark Beetle Management in a Changing World -- References -- 11 Ambrosia Beetles -- 11.1 Ambrosia Beetle Biology -- 11.1.1 Taxonomic Identity -- 11.1.2 Relationships with Fungi -- 11.2 Who Is the Host and Why Does It Matter?.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">11.2.1 Biology of the Coevolutionary Units is Dictated by the Fungus -- 11.2.2 Mycangia -- 11.2.3 Relationships with Trees -- 11.2.4 Host Selection and Chemical Ecology -- 11.3 Economic Significance -- 11.3.1 Ambrosia Beetle Pests in Dead Trees -- 11.3.2 Global Change-Induced Damage by Ambrosia Beetles -- 11.3.3 Tree-Killing Invasive Species -- 11.3.4 Ambrosia Beetle Colonization Is a Sign of Tree Disease, not Its Cause -- 11.4 Questions for Further Research -- 11.4.1 Defense Against Invasive Ambrosia Beetles -- 11.4.2 Ecological Significance -- 11.4.3 Pests of the Future -- References -- 12 Woodborers in Forest Stands -- 12.1 Introduction -- 12.2 Natural History/Ecology of Woodborers -- 12.2.1 Woodborer Habitat -- 12.2.2 Live Tree Inhabitants -- 12.2.3 Generic Life Cycle -- 12.2.4 Importance of Symbionts -- 12.3 Population Regulation -- 12.3.1 Abiotic Factors -- 12.3.2 Biotic Factors -- 12.4 Ecological Roles -- 12.4.1 Nutrient Cycling -- 12.4.2 Forest Structure -- 12.4.3 Ecosystem Services -- 12.4.4 Woodborer Conservation -- 12.5 Chemical Ecology -- 12.6 Economically Important Species -- 12.7 Management of Woodborers -- 12.7.1 Native Species -- 12.7.2 Invasive Species -- 12.8 Summary -- References -- 13 Sap-Sucking Forest Pests -- 13.1 Introduction -- 13.2 Diversity and Biology of Sap-Sucking Insects with Emphasis on Importance for Forestry -- 13.2.1 Background -- 13.2.2 Aphids: Aphidomorpha -- 13.2.3 Jumping Plant Lice: Psylloidea -- 13.2.4 Scale Insects: Coccoidea -- 13.2.5 Other Hemipteran Superfamilies and Their Importance in Forestry -- 13.3 Biology and Ecology of Sap-Sucking Insects -- 13.3.1 General Models of Life History and Seasonal History -- 13.3.2 Feeding Ecology -- 13.3.3 Reproductive Strategies -- 13.3.4 Insect-Plant Interactions -- 13.4 Associated Organisms -- 13.4.1 Natural Enemies -- 13.4.2 Interaction with Ants.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">13.4.3 Bees and Honey Production from Honeydew.</subfield></datafield><datafield tag="588" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources.</subfield></datafield><datafield tag="590" ind1=" " ind2=" "><subfield code="a">Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries. </subfield></datafield><datafield tag="655" ind1=" " ind2="4"><subfield code="a">Electronic books.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Paine, Timothy D.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Slippers, Bernard.</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Wingfield, Michael J.</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Print version:</subfield><subfield code="a">D. Allison, Jeremy</subfield><subfield code="t">Forest Entomology and Pathology</subfield><subfield code="d">Cham : Springer International Publishing AG,c2023</subfield><subfield code="z">9783031115523</subfield></datafield><datafield tag="797" ind1="2" ind2=" "><subfield code="a">ProQuest (Firm)</subfield></datafield><datafield tag="856" ind1="4" ind2="0"><subfield code="u">https://ebookcentral.proquest.com/lib/oeawat/detail.action?docID=30614341</subfield><subfield code="z">Click to View</subfield></datafield></record></collection>

Forest Entomology and Pathology : : Volume 1: Entomology.

Similar Items