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Full Description
In the face of escalating climate challenges and increasing biotic pressures, modern agriculture demands innovative, sustainable, and eco-friendly solutions. Microbial Synergies: Advanced Strategies for Plant Stress Alleviation delves into the transformative potential of microbial consortia and microbiome-based technologies in fortifying plants against biotic stresses and boosting crop resilience.
This comprehensive volume brings together cutting-edge research and practical insights on how microbial partnerships ranging from arbuscular mycorrhizal fungi (AMF) to diazotrophic bacteria and plant growth-promoting rhizobacteria (PGPR) can be harnessed to manage plant diseases, stimulate defense systems, and enhance nutrient acquisition. Through advanced strategies such as rhizosphere engineering, microbiome modulation, and nanobiotechnology, this book highlights the pivotal role of microbes in promoting plant health and productivity.
Key chapters explore microbial elicitors of plant immunity, mechanisms of pathogen suppression, the revitalization of suppressive soils, and the integration of microbial nanofertilizers for sustainable agriculture. Each chapter reflects the synergy between scientific innovation and practical application, making it a valuable resource for researchers, students, agricultural professionals, and policymakers.
Key highlights of the book
Explores the role of microbial consortia in managing plant biotic stresses and promoting growth.
Highlights innovative microbiome engineering and rhizosphere modulation techniques.
Integrates microbial nanotechnology for sustainable agriculture and environmental safety.
Offers mechanistic insights and real-world applications for resilient crop systems.
Contents
1. Microbial Consortia: An Efficient Method to Eliminate Biotic Stresses in Field Crops 2. Microbiome Engineering a New Frontier in Phytopathogen Control 3. Microbial Consortiums for Efficient Biocontrol of Root and Foliar Plant Diseases 4. Microbial Consortia: Elicitor of Defence System Under Biotic Stress in the Field 5. Role of AMF in Stress Tolerance and Plant Growth Promotion 6. Revitalisation of Suppressive Soil by Employing Microbial Consortia in Crops 7. Bio-Stimulation Defense Systems and Hormone Synthesis in Plants Against Damaging Pests Through Microbial Consortia 8. Mechanism of Microbial Consortium in Suppression of Growth and Development of Biotic Stress in Rice 9. Diazotrophic Bacteria from Non-Leguminous Plants as Potential Players in Green Agriculture: Isolation and Plant Growth Promoting Traits 10. Role of Plant Growth Promoting Bacteria in Plant Disease Management 11. Rhizosphere Engineering: A Novel Aspect in Biotic Stress Management 12. Role of Microbial Synthesis of Nano Fertilisers in Sustainable Agriculture 13. Biotic Stress Management in Crops Through Rhizosphere Microbial Interventions 14. Applications of Nanocomposites in Water Treatment