Integrated management of insect pests : current and future developments / edited by Marcos Kogan, Elvis 'Short' Heinrichs.

Format:

Book

Contributor:

Kogan, M., editor.

Heinrichs, Elvis 'Short', editor.

Series:

Burleigh Dodds series in agricultural science ; 69.

Burleigh Dodds series in agricultural science ; 69

Language:

English

Subjects (All):

Insect pests--Control.

Insect pests.

Physical Description:

1 online resource (976 pages).

Edition:

1st ed.

Place of Publication:

Cambridge, England ; Philadelphia, Pennsylvania : Burleigh Dodds Science Publishing, 2020

Summary:

"This volume summarises current developments in integrated pest management (IPM), focussing on insect pests. Chapters discuss advances in understanding species and landscape ecology on which IPM is founded. The book then reviews advances in cultural, physical and, in particular, biological methods of control. Topics include developments in classical, conservation and augmentative biological control as well as the use of entomopathogenic fungi, viruses, nematodes and semiochemicals. The final parts of the book summarise current research on monitoring pesticide use as well as emerging classes of biopesticides"-- Provided by publisher.

Contents:

Intro

Integrated management of insect pests: Current and future developments

Contents

Series list

Acknowledgements

Introduction

Part 1 Ecological foundations of IPM

Chapter 1 Foundations of an IPM program: detection, identification, and quantification

1 Introduction

2 Detection and identification

3 Bioinformatics

4 The DNA transformation

5 Quantifying target organisms

6 Future trends and conclusion

7 Acknowledgements

8 References

Chapter 2 Advances in understanding species ecology: phenological and life cycle modeling of insect pests

2 Concepts of the systems approach

3 Steps and phases of phenology model development

4 Phenology modeling data sources and approaches

5 Phenology modeling platforms and software

6 Life cycle systems model for Drosophila suzukii

7 Conclusion

8 Acknowledgements

9 References

Chapter 3 Understanding agroecosystems and pest management: from chemical control to integrated biodiversity management

2 Understanding agroecosystems: the case of rice paddies

3 Rice paddy ecosystem species

4 The impact of chemical pest control on rice agroecosystems

5 The development of IPM programs

6 Assessing the impact of pest control measures

7 Integrated biodiversity management (IBM)

8 The challenge of invasive species: plant hoppers and hopper-borne diseases

9 The impact of climate change on pest dynamics

10 Conclusions

11 Acknowledgements

12 Where to look for further information

13 References

Chapter 4 Advances in understanding agroecosystems ecology and its applications in integrated pest management

2 Agroecosystem management for agroecosystem health

3 Agroecosystem services and pest management

4 Shifting from population to ecosystem management approaches.

5 Challenges

6 Case studies

8 Future trends

9 Where to look for further information

10 References

Chapter 5 Advances in understanding the ecology of invasive crop insect pests and their impact on IPM

2 Ecology of invasive species

3 Invasive species management strategies

4 Relationship of invasive species management to IPM

5 Future trends

6 Acknowledgements

7 Where to look for further information

Chapter 6 Plant-insect interactions, host-plant resistance, and integrated pest management

2 Defining plant resistance

3 Processes of plant resistance: host-plant selection

4 Processes of plant resistance: host-plant utilization

5 Phenotypic plasticity in plant resistance

6 Mechanistic bases of plant resistance and tolerance

7 Insect counter-defenses

8 Genetic basis of plant resistance

9 The use of plant resistance in IPM

10 Future trends

11 Conclusion

Part 2 Cultural and physical methods in IPM

Chapter 7 Advances in breeding crops resistant to insect pests: rice as a paradigm

2 Host plant resistance: an ecological approach to managing crop pests

3 Evaluating resistance on the basis of insect response (behavior)

4 Breeding for resistance to insects

5 Breeding rice for resistance to insect pests

6 Constraints on the development and deployment of insect-resistant plant technology

7 Future trends and conclusion

8 Where to look for further information

Chapter 8 The role and use of genetically engineered insect-resistant crops in integrated pest management systems

2 Current genetically engineered (GE) crops

3 Environmental aspects

4 Integration into IPM

5 Resistance management.

6 Future GE crops

Chapter 9 Biotechnology applications for integrated pest management

2 Biotechnology applications in integrated pest management (IPM)

3 Policy and regulatory issues surrounding biotechnology applications

4 Public acceptance of biotechnology products

5 Conclusion and future trends

6 Acknowledgement

Chapter 10 Advances in physical control methods in IPM

2 Pre-harvest situations

3 Post-harvest situations

4 Conclusions

5 References

Chapter 11 Robot-enhanced insect pest control: reality or fantasy?

2 Finding pests

3 Low-level intelligence

4 Autonomous entities

5 Future trends and conclusion

6 Where to look for further information

7 References

Part 3 Biological methods in IPM

Chapter 12 Advances in classical biological control to support IPM of perennial agricultural crops

2 Developing a classical biological control programme for managing invasive insect pests

3 Case study: classical biological control of Asian citrus psyllid in California

4 Benefits of classical biological control for IPM of insect pests in perennial crops

Chapter 13 Advances in conservation biological control and habitat management for IPM

2 Approaches to pest management

3 The common ground between conservation biological control and habitat management

4 The need for conservation biological control and habitat management

5 Case studies of conservation biological control and habitat management supporting IPM.

6 Methodological themes in conservation biological control and habitat management

7 Conclusion and future trends

Chapter 14 Advances in augmentative biological control in integrated pest management

2 Augmentative biological control: background

3 Augmentative biological control: diversity and availability

4 Augmentative biological control: its role in IPM

5 Augmentative biological control: examples of easy and complicated programmes

6 Augmentative biological control: why farmers use it

Chapter 15 Integrated pest management (IPM) in greenhouse and other protected environments

2 Scouting for pests and beneficials

3 Plant-mediated IPM systems

4 Realities of IPM in the developing world

5 Other novel IPM practices and future developments

6 Conclusion

Chapter 16 Advances in microbial control in integrated pest management: entomopathogenic fungi

2 The life cycle and potential of entomopathogenic fungi

3 Current products based on entomopathogenic fungi

4 Methods of IPM using entomopathogenic fungi

5 Case studies

6 Regulation and registration factors

7 Future trends

Chapter 17 Advances in microbial control in IPM: entomopathogenic viruses

2 A brief global review of commercialised registered baculoviruses

3 Entomopathogenic viruses in IPM systems

4 Usage of baculoviruses: challenges and solutions

5 Baculovirus biopesticide case studies

6 Current and future trends

8 Where to look for further information.

9 References

Chapter 18 Advances in use of entomopathogenic nematodes in integrated pest management

2 Foraging and infection behavior

3 Production technology

4 Formulation and application technology

5 Commercialization and targets

6 Factors affecting efficacy

7 Methods to improve efficacy

8 Future trends and conclusion

Part 4 Chemical methods in IPM

Chapter 19 Chemical control in IPM systems: advances in selective pesticides and application systems

2 Selective pesticides

3 Dose selection and timing of chemical pesticide treatments

4 Changes in pesticide application technology

5 Biopesticides

6 Baculoviruses and their application

7 Bacterial biopesticide application

8 Application of entomopathogenic nematodes

9 Release of predators and parasitoids

10 Using pheromones

12 Acknowledgement

13 Where to look for further information

14 References

Chapter 20 Ecological impacts of pesticides and their mitigation within IPM systems

2 Increased pest problems with pesticide use

3 Mitigation of pesticide impacts

4 Case study: diamondback moth

Chapter 21 Monitoring and minimizing health risks related to pesticides

2 Data-collection approaches and limitations

3 Policy responses to the global pesticide poisoning crisis

4 Case study: smallholder cotton farming in the Republic of Benin

5 Recent surveys in Benin

6 Conclusions

Chapter 22 Peptide-based biopesticides

2 Addressing the issues

3 Case studies and reviews of key research.

4 Summary: how research can contribute to sustainable agriculture.

Notes:

Includes bibliographical references and index.

Description based on print version record.

ISBN:

1-78676-262-5

1-000-72738-6

1-78676-263-3

1-000-72710-6