NEW & Recommended by APS PRESS!

The purpose of this important book is to examine the development and exploitation (or potential for exploitation) of a range of non-chemical approaches to disease control, with a focus on the need for a greater understanding of crop ecology as the basis for effective disease control in the field. Chapters in the book, written by international experts in the subject area, include coverage of:

• biological control methods
• host-plant resistance
• the exploitation of tolerance
• and the use of bacteriophages

Carefully edited by Professor Dale Walters, widely respected for his work in the area of crop protection, Disease Control in Crops is an essential reference book for plant pathologists, microbiologists, plant and agricultural scientists and crop protection specialists, including those working within, and providing consultancy to, the agrochemical industries. Libraries in all universities and research establishments where biological sciences and agriculture are studied and taught should have copies of this publication on their shelves.

Contents

List of Contributors
Preface

Chapter 1: Introduction
1.1   The Importance of Plant Disease
1.2   Problems Associated With Controlling Plant Disease
1.3   Conclusions
1.4   Acknowledgements
1.5   References

Chapter 2: Managing Crop Disease Through Cultural Practices
2.1 Introduction
2.2 Reducing the Amount of Pathogen Inoculum
2.3 Reducing Pathogen Spread Within the Crop
2.4 Soil Amendments and Mulching
2.5 Suppressive Soils
2.6 Intercropping
2.7 Conclusions
2.8 Acknowledgements
2.9 References

Chapter 3: Biological Control Agents in Plant Disease Control
3.1 Introduction
3.2 Modes of Action
3.3 Production, Formulation and Application
3.4 Commercial Products Available and Uses
3.5 Factors Affecting Variable Efficacy and Constraints on Commercial Developments
3.6 Future Research Directions and Conclusions
3.7 References

Chapter 4: Induced Resistance for Plant Disease Control
4.1 Introduction
4.2 Induced Resistance in Practice
4.3 Costs Associated with Induced Resistance
4.4 Trade-offs Associated with Induced Resistance
4.5 Future Prospects
4.6 Acknowledgements
4.7 References

Chapter 5: The Use of Composts and Compost Extracts in Plant Disease Control
5.1 Introduction
5.2 Definitions of Composts, Composting, Compost Extracts and Compost Teas
5.3 Production of Composts and Compost Extracts/Teas
5.4 History of the Use of Composts and Compost Extracts in Crop Production
5.5 Current Use of Composts and Compost Extracts/Teas in Crop Production
5.6 Crop and Soil Health
5.7 Effects of Composts on Plant Disease
5.8 Effects of Compost Extracts/Teas on Plant Disease
5.9 Mechanisms Involved in the Suppression/Control of Plant Disease Using Composts and Compost Extracts/Teas
5.10 Conclusions and Future Work
5.11 References

Chapter 6: The Use of Host Plant Resistance in Disease Control
6.1 Introduction and Benefits of Resistance
6.2 Types of Resistance
6.3 Sources of Resistance
6.4 Breeding Methodology and Selection Strategies for Inbreeding Crops
6.5 Deployment of Resistance
6.6 Conclusion
6.7 References

Chapter 7: Crop Tolerance of Foliar Pathogens: Possible Mechanisms and Potential for Exploitation
7.1 Introduction
7.2 Concepts and Definitions – A Historical Perspective
7.3 Yield Formation
7.4 How Can Tolerance be Quantified?
7.5 Potential Crop Traits Conferring Tolerance
7.6 Is There a Physiological or Ecological Cost to Tolerance
7.7 Role of Modeling
7.8 Strategy for Improving Tolerance
7.9 Acknowledgements
7.10 References

Chapter 8: Plant Disease Control Through the Use of Variety Mixtures
8.1 Introduction
8.2 Trial Demonstrations of Mixtures
8.3 Mixtures Used in Practice
8.4 Conclusion
8.5 References

Chapter 9: Biofumigation for Plant Disease Control – From the Fundamentals to the Farming System
9.1 Introduction
9.2 The Glucosinolate – Myrosinase System
9.3 Modes of Utilization
9.4 Separating GSL-Related Suppression from other Effects of Biofumigants
9.5 Maximizing Biofumigation Potential
9.6 Release Efficiency, Fate and Activity of Hydrolysis Products in Soil
9.7 Ecological Considerations
9.8 Field Implementation
9.9 Summary
9.10 References

Chapter 10: Control of Plant Disease Through Soil Solarization
10.1 Introduction
10.2 Principles of Soil Solarization
10.3 Pathogen and Weed Control
10.4 Mechanisms of Control and Plant-Growth Improvement
10.5 Integrated Management
10.6 Modelling of Soil Solarization and Decision-Making Tools
10.7 Improvements by Intensifying Soil Heating
10.8 Implementation and Application
10.9 Special Uses of Solarizaion
10.10 Solarization and the MB Crisis
10.11 Concluding Remarks
10.12 References

Chapter 11: Plant Disease Control by Nutrient Management: Sulphur
11.1 Introduction
11.2 Sulphur-Induced Resistance – Agronomic, Physiological, and Molecular Aspects
11.3 Perspectives in Research
11.4 References

Chapter 12: Control of Plant Disease by Disguising the Leaf Surface
12.1 Introduction
12.2 Controlling Disease Using Film-Forming Polymers
12.3 Particle Films as Agents for Control of Plant Disease
12.4 Disrupting Spore Adhesion to the Leaf Surface
12.5 Conclusions
12.6 Acknowledgements
12.7 References

Chapter 13: Bacteriophages as Agents for the Control of Plant Pathogenic Bacteria
13.1 Introduction
13.2 Biological Control
13.3 Early Use of Bacteriophages in Agriculture
13.4 Recent Approaches for Using Phages in Plant Pathology
13.5 Challenges in Using Phages for Disease Control
13.6 Phages a Part of an Integrated Management Strategy
13.7 Summary
13.8 References

Chapter 14: Controlling Plant Disease Using Biological and Environmentally Friendly Approaches: Making it Work in Practice
14.1 Introduction
14.2 How Might Biologically Based Disease Control be Used in Crop Protection Practice?
14.3 Biologically Based Disease Control: Barriers to Implementation
14.4 Conclusions
14.5 Acknowledgements
14.6 References

Index

2009; 6.9" x 9.7" hardcover; 266 pages; (3 pounds); Item No. 69479

69479$199.99