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Theory and Practice of Integrated Pest Management

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Theory and Practice of Integrated Pest Management

Ramesh Arora , Balwinder Singh & A.K. Dhawan

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The dominance of insects in the world fauna has made them the humanity s greatest rival for the world s food resources, both directly by eating the plants cultivated for food and indirectly as vectors of pathogens attacking these plants. Agricultural scientists and especially entomologists have strived hard to develop a diversity of cultural, mechanical, biological and chemical weapons during the last more than two centuries to gain dominance over insects. However, there is evidence that insect pest problems have escalated with an increasing cropping intensity and with the use of agrochemicals inherent in modern agriculture. Consequently, Indian plant protection scientists have intensified research on the development of pest management tactics and effective pest management systems have been designed for all the important crops in the country. This book, consisting of 29 chapters, draws together the diverse literature on the subject of insect pest management in agriculture and contains contributions written by scientists having extensive experience with insect pest problems in Indian agriculture. The first half of the book is devoted to the principles and components of pest management including factors affecting pest populations, construction of life tables, coevolution of insects and plants, pest forecasting, pesticides, IGRs, botanicals, entomopathogenic nematodes and molecular approaches, etc. The different tactics for the management of major insect pests of principal agricultural crops of India, viz. rice, maize, wheat, forage crops, cotton, sugarcane, vegetables, fruits, oilseeds, pulse crops, jute, mesta and tobacco have been discussed in the second half of the book. The book contains a wealth of information on all aspects of insect pest management in agriculture under Indian conditions and would prove indispensable for students, teachers and researchers in agricultural entomology in India and other Asian countries.

1.  Integrated Pest Management: Concept and Approaches Ramesh Arora and A.K. Dhawan

 1.1. Historical Perspective

 1.2. Definitions of IPM

 1.3. Essential Prerequisites for IPM

 1.4. Framework of IPM

 1.5. Decision Making Systems

 1.6. Implementation

 1.7. Perspectives in IPM

 1.8. Potential of IPM

2. Factors Affecting Insect-Pest Populations  P.S. Sarao and M.S. Mahal

 2.1. Abiotic Factors

 2.1.1. Temperature

 2.1.2. Moisture

 2.1.3. Rainfall

 2.1.4. Light

 2.1.5. Photoperiodicity

 2.1.6. Wind

 2.2. Biotic Factors

 2.2.1. Food

 2.2.2. Natural enemies

 2.3. Conclusion

3.  Construction of Life-Tables for Insect Species  M.S. Mahal

 3.1. Introduction

 3.2. Construction of Life-Table

 3.3. Field Life-Table

 3.4. Laboratory Life-Table

4.  Coevolution of Insects and Plants  Ramesh Arora

 4.1. Introduction

 4.2. Concept of Coevolution

 4.3. Host Plant Defense Strategies

 4.4. Strategies of Insects to Overcome Plant Defenses

 4.5. Theories of Insect-Plant Coevolution

 4.6. Examples of Coevolution

 4.7. Conclusions

5.  Role of Pesticides in Management of Crop Pests   Balwinder Singh

 5.1. Losses due to Pests

 5.2. Pesticide Development: Historical Perspective

 5.3. Global Pesticide Consumption Patterns

 5.4. Consumption of Pesticides in Punjab and India

 5.5. Problems Associated with Pesticides

 5.6. Conclusions

6.  Molecular Approaches in Entomological  Research  V.K. Gupta and Vikas Jindal

 6.1. Introduction

 6.2. Molecular Diagnostics/Markers

 6.3. Molecular Analysis

 6.4. Understanding Gene Functions-RNA Interference Technology

 6.5. Conclusions

7.  Potential of Insect Growth Regulators in Insect Pest Management  Gursharan Singh and K.S. Suri

 7.1. Insect Hormones

 7.2. Chitin Synthesis Inhibitors (CSIs)

 7.3. Future Prospects

8. Botanical Pesticides in Insect Pest Management Naveen Aggarwal

 8.1. Introduction

 8.2. Current Botanicals in Use

 8.2.1. Pyrethrum

 8.2.2. Neem

 8.2.3. Plant essential oils

 8.2.4. Rotenone

 8.2.5. Sabadilla

 8.2.6. Ryania

 8.2.7. Nicotine

 8.3. Potential New Botanicals

 8.4. Limitations of Botanical Pesticides

 8.5. Future Prospects

9. Pesticide Resistance: Monitoring, Mechanism and Management B.K. Kang

 9.1. Current Status

 9.2. Biochemical Mechanisms

 9.3. Management Strategies

 9.4. Conclusions

10. Recent Developments in Pesticide Formulation Technology P.S. Shera and Ramesh Arora

 10.1. Objectives of Pesticide Formulation

 10.2. Formulation Types and Codes

 10.3. Current Trends in Pesticide Formulation Technology

 10.4. New Generation Pesticide Formulations

 10.4.1.Suspension concentrates

 10.4.2. Emulsions

 10.4.3. Suspo-Emulisons

 10.4.4. Water dispersible granules

 10.4.5. Microemulsions

 10.4.6. Non-aqueous suspension concentrates

 10.4.7. Controlled release formulations

 10.4.8. Gel formulations

 10.4.9. Seed treatment formulations

 10.5. Conclusions

11. Pesticide Application Equipment I.P.S. Sandhu

 11.1. Introduction

 11.2. Particle Size in Relation to Effectiveness

 11.3. Ground Application of Insecticides

 11.4. Types of Sprayers

 11.4.1. Manually operated equipment

 11.4.2. Battery operated sprayers

 11.4.3. Power operated equipment

 11.4.4. Setting sprayer for given feed rate of liquid chemical

 11.5. Dusters

 11.6. Pumps for Spraying

 11.7. Nozzles

 11.8. Agitators for Chemicals

11.9. Seed Treatment Equipment

 11.10. Safety Measures

12. Role of Entomopathogenic nematodes in Insect Pest Management  Naveen Aggarwal

 12.1. Introduction

 12.2. Biogeographic Distribution

 12.3. Biology

 12.4. Host Range and Ecological Considerations

 12.5. Mass Production Technology

 12.6. Formulations

 12.7. Application Technology

 12.8. Successful Stories of EPNs against Agricultural Pests

 12.9. Safety and Regulatory Procedures

 12.10. Status of EPNs in India

 12.11. Conclusions

13. Implications of Biotype Development in Host Plant Resistance  D.R. Sharma and R.S. Gill

 13.1. Introduction

 13.2. Categories of Biotypes

 13.3. Distribution of Biotypes

 13.4. Development of Biotypes

14. Role of Insect Surveillance in Integrated Pest Management  D.S. Brar and Vijay Kumar

 14.1. Surveillance

 14.2. Economic Threshold Levels

 14.3. Status of Pest Survey/Surveillance

 14.4. Conclusion

15. Role of Insect-Pest Forecasting in Integrated Pest Management M.S. Mahal, Beant Singh, P.S. Sarao and Sandeep Singh

 15.1. Introduction

 15.2. Pre-requisite for the Development of Forecasting Models

 15.3. Modelling of Pest Populations

 15.4. Pest Forewarning Models

 15.5. Conclusions

16. Information Technology in Integrated Pest Management  A.K. Dhawan, G.K. Taggar and R.S. Gill

 16.1. Introduction

 16.2. Web-Based Interactive Systems

 16.3. Information Technology-Aided IPM Decisions Making

 16.4. Applications of Decision Support Systems (DSS) in Insect Pest Management

 16.5. Applications of Expert Systems (EXS) in Insect Pest Management

 16.6. Application of Expert Support Systems (ESS) in Insect Pest management

 16.7. Conclusion

17. Management of Insect Pests of Cotton: Retrospect and Prospect A.K. Dhawan, Vijay Kumar and P.S. Shera

 17.1. Introduction

 17.2. Changing Insect Pest Scenario

 17.3. Management Options

 17.3.1. Varietal resistance

 17.3.2. Cultural, mechanical and physical control

 17.3.3. Behavioural/biorational methods

 17.3.4. Microbial control

 17.3.5. Biological control

 17.3.6. Botanical pesticides

 17.3.7. Chemical control

 17.3.8. Integrated pest management

 17.3.9. Insecticide resistance management

 17.4. Future Management Strategies

18. Integrated Management of Insect-Pests in Rice  P.S. Sarao and M.S. Mahal

 18.1. Introduction

 18.2. Components of IPM

 18.2.1. Varietal resistance

 18.2.2. Cultural methods

 18.2.3. Biological control

 18.2.4. Behaviour modifying chemicals

 18.2.5. Chemical control

 18.2.6. Botanicals

 18.2.7. Biopesticides

 18.3. Conclusions

19.  Emerging Technologies for Integrated Pest Management in Forage Crops  Ramesh Arora

 19.1. Losses Caused by Insect Pests

 19.2. Gram Caterpillar

 19.3. Stem Borer

 19.4. Sorghum Shoot fly

 19.5. Cabbage Semi-looper

 19.6. Bihar Hairy Caterpillar

 19.7. Lucerne Weevil

 19.8. Grasshoppers

 19.9. Sorghum Midge

 19.10. Aphids

 19.11. Blister Beetle

 19.12. Chafer Beetles

 19.13. Sugarcane Leafhopper

 19.14. Jassids

 19.15. Thrips

 19.16. Leaf-miners

 19.17. Alfalfa Seed Chalcid

 19.18. Future Research Needs

20. Management of Insect Pest Complex in Maiz Vijay Kumar and Uma Kanta

 20.1. Introduction

 20.2. Stem Borer

 20.3. Pink Stem Borer

 20.4. Shoot Fly or Stem Fly

 20.5. Armyworm

 20.6. Corn Earworm

 20.7. Hairy Caterpillar/Silk Cutter

 20.8. Cutworm

 20.9. Climbing Cutworm

 20.10. Sugarcane Leaf Hopper or Pyrilla

 20.11. Maize Jassid

 20.12. Cereal Thrips

 20.13. Cotton Grey Weevil

 20.14. Pentatomid Bug

 20.15. Phadka Grasshopper

21. Changing Scenario of Insect Pests of Wheat and their Management  Beant Singh

 21.1. Termites or White Ants

 21.2. Aphids

 21.3. Armyworm

 21.4. American Pod Borer

 21.5. Pink Stem Borer

 21.6. Brown Wheat Mite

 21.7. Root Aphid

22. Management of Insect Pests in Citrus  P.K. Arora and D.R. Sharma

 22.1. Citrus Psylla

 22.2. Citrus Leafminer

 22.3. Whitefly Complex

 22.4. Mealy Bugs

 22.5. Citrus Aphids

 22.6. Citrus Thrips

 22.7. Lemon Caterpillar

 22.8. Fruit Sucking Moth

 22.9. Fruit Fly

 22.10. California Red Scale

 22.11. Citrus Leaf-Folder

 22.12. Bark Caterpillar

 22.13. American Bollworm

 22.14. Conclusions

23.  Management of Insect Pests in Fruit Crops other than Citrus  D.R. Sharma, P.K. Arora and Sandeep Singh

 23.1. Introduction

 23.2. Cultural Control

 23.3. Mechanical and Physical Control

 23.4. Biological Control

 23.5. Plant Resistance

 23.6. Reproductive or Autocidal Control

 23.7. Regulatory Control

 23.8. Chemical Control

 23.9. Conclusion

24. Management of Insect Pests of Vegetable Crops in Net House   Sandeep Kaur

 24.1. Introduction

 24.2. Physical Control

 24.3. Cultural Control

 24.4. Mechanical Control

 24.5. Biological Control

 24.6. Botanical Control

25. Management of Insect Pests of Oilseeds Crops   Sarwan Kumar

 25.1. Rapeseed-Mustard

 25.2. Sunflower

 25.3. Groundnut

 25.4. Sesamum

 25.5. Linseed

 25.6. Technology Transfer in Oilseeds

26. Integrated Management of Insect Pests of Rabi Pulses  G.K. Taggar and Ravinder Singh

 26.1. Insect Pest Problems in Chickpea

 26.2. Insect Pest Problems in Lentil

 26.3. Insect Pest Problems in Field Peas

 26.4. Conclusions

27. Integrated Pest Management in Kharif Pulses  Ravinder Singh, G.K. Taggar and H.K. Cheema

 27.1. Losses Caused by Key Insect Pests

 27.2. Whitefly

 27.3. Green Jassid

 27.4. Tobacco Caterpillar

 27.5. Bihar hairy Caterpillar

 27.6. Green Semilooper

 27.7. Bean Mite

 27.8. Gram Pod Borer

 27.9. Tur Pod Fly

 27.10. Legume Pod Borer

 27.11. Pea blue Butterfly

 27.12. Plume Moth

 27.13. Leaf Binder

 27.14. Pod bug or Green Bean Bug

 27.15. Blister Beetle

 27.16. Future Research Needs

 27.17. Constraints and Policies in Adoption of IPM in Pulses

28. Pest Management in Jute and Mesta   T. Ramasubramanian and S. Satpathy

 28.1. Introduction

 28.2. Pest Management in Jute

 28.3. Pest Management in Mesta

 28.4. Future Strategies

29. Management of Insect Pests of Tobacco  A.D. Patel, D.M. Mehta and L.V. Ghetiya

 29.1. Introduction

 29.2. Soil Pests

 29.3. Above-Ground Pests

 29.4. Storage Pest

 29.5. Tobacco in Pest Management

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