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Full Description
Plant-Induced Systemic Resistance examines how intrinsic defense signaling and state-of-the-art biotechnologies can fortify crops while reducing reliance on chemical inputs. This rigorous treatment unpacks the biochemical circuitry of induced immunity, the networks coordinating defense, and the innovative molecular biology tools that empower durable protection under a variety of stress triggers. Against the backdrop of rising pest pressures, evolving resistance patterns, and environmental concerns, it presents a forward-looking framework for integrating host defenses within comprehensive crop protection initiatives.
This volume traces a clear trajectory from foundational concepts to precision management solutions, delivering data-driven methodologies, decision support tools, and scalable practices for sustainable agriculture, enriched by real-world case studies that illustrate adoption across research, extension, and industry contexts. Governance, regulatory considerations, and societal implications are woven throughout to ensure responsible innovation.
Bridging lab-derived knowledge with field-ready interventions, this essential resource opens avenues for interdisciplinary collaboration to bolster plant resilience against various biotic and abiotic stressors, expanding the toolkit for integrated crop protection.
Contents
1. Introduction to Integrated Crop Protection
2. Molecular Mechanisms and Data-Driven Insights
3. Enhancing Pathogen Resistance through Precision Strategies
4. Smart Pest Management and Herbivore Defense
5. Integrating Environmental Stress Tolerance with Precision Agriculture
6. Advanced Biotechnological and Digital Approaches
7. Practical Applications in Precision Crop Management
8. Challenges and Future Directions: From PISR to Smart Agriculture
9. Policy, Regulation, and the Future of Integrated Crop Protection
10. Conclusion: Charting the Future of Sustainable, Data-Driven Agriculture
