Biometeorology in Integrated Pest Management

Author： Hatfield Jerry

Publisher： Elsevier Science‎

Publication year： 2012

E-ISBN: 9780323147965

P-ISBN(Paperback): 9780123328502

P-ISBN(Hardback): 9780123328502

Subject： S433 plant pest and its control

Language： ENG

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Description

Biometeorology in Integrated Pest Management is a resulting book from a conference with the same title held at the University of California in 1980. This book presents integrated pest management (IPM) in different viewpoints and perspectives. It serves as a helpful exchange of ideas to strengthen the research in integrated pest management.
From a biometeorological viewpoint, the microclimate of agricultural systems is introduced in this book to describe the environment in which pests live. The first few chapters in this book discuss IPM in the perspective of biometeorology. Some of the topics include crop canopies (general heat exchange and wind movement), microclimate (instrumentation, techniques, and simulation), and microclimatic stress (remote sensing). The following section of the book focuses on plant pathology. The subject areas covered in this section include radiation quality and plant diseases; management of plant pathogens; and plant canopy modification and impact on plant disease.
The last section focuses on weed science. The interaction of weeds to other pests, effects of light and temperature on weed growth, and weed seed germination are some of the topics discussed in this part.
This book is a good source of reference to both students and professionals in the field of biometeorology, entomology, and agriculture. Other interested parties in the research of integrated pest management will also find this book helpful in their endeavors.

Chapter

Front Cover

pp.： 1 – 4

Biometeorology in Integrated Pest Management

pp.： 4 – 5

pp.： 5 – 6

Table of Contents

pp.： 6 – 8

Contributors

pp.： 8 – 10

Preface

pp.： 10 – 12

Chapter 1. General Heat Exchange in Crop Canopies: A Review

pp.： 12 – 28

Chapter 2. Wind Movement within Canopies

pp.： 28 – 54

Chapter 3. Instrumentation and Techniques for Microclimate Measurements

pp.： 54 – 76

Chapter 4. Simulation of Microclimates

pp.： 76 – 112

Chapter 5. Remote Sensing of Microclimatic Stress

pp.： 112 – 158

Chapter 6. Modification of the Microclimate via Management

pp.： 158 – 182

Chapter 7. Overall Approach to Insect Problems in Agriculture

pp.： 182 – 204

Chapter 8. Insect Movement in the Atmosphere

pp.： 204 – 222

Chapter 9. Nocturnal Activity of the Tobacco Budworm and Other Insects

pp.： 222 – 240

Chapter 10. Risk-Based Design of Meteorological Networks for Integrated Pest Management

pp.： 240 – 254

Chapter 11. The Management of Plant Pathogens

pp.： 254 – 278

Chapter 12. Radiation Quality and Plant Diseases

pp.： 278 – 318

Chapter 13. Role of Biometeorology in Integrated Pest Management: Soil-Plant-Water Relations and Disease

pp.： 318 – 338

Chapter 14. Modification of Plant Canopy and Its Impact on Plant Disease

pp.： 338 – 354

Chapter 15. Interactions between Weeds and Other Pests in the Agro-Ecosystem

pp.： 354 – 418

Chapter 16. Effects of Light and Temperature on Weed/Crop Growth and Competition

pp.： 418 – 432

Chapter 17. Microhabitat Variation in Relation to Weed Seed Germination and Seedling Emergence

pp.： 432 – 460

Chapter 18. Utilizing Meteorological Data for Modeling Crop and Weed Growth

pp.： 460 – 474

Chapter 19. Interactions among Weeds, Other Pests, and Conifers in Forest Regeneration

pp.： 474 – 498

Subject Index

pp.： 498 – 500

Scientific Name Index

pp.： 500 – 503

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