Description
Book SynopsisSection-I. Fundamentals of Climate Change and Microbial Community Dynamics.- Chapter 1. Microbial Symbiosis in Diverse and Changing Climatic Conditions.- Chapter 2. Exploring the Potential of Natural and Synthetic Microbial Carbon Dioxide Fixation Pathways for Catalyzing Climate Action.- Chapter 3. Climate-Driven Shift in Plant-Microbe Dynamics: A Comprehensive Review.- Chapter 4. Microbial Communities in Changing Climate: Challenges and Opportunities.- Section-II. Climate Resilience in Agroecosystem.- Chapter 5. Significance of plant growth-promoting rhizobacteria in alleviating drought stress in crop plants under changing climate for sustainable agriculture production.- Chapter 6. Disentangling the Contribution of Plant Genetics in Rhizomicrobiome Recruitment for Climate Resilient Agroecosystems.- Chapter 7. Plant Growth-Promoting Bacteria-Mediated Climatic Stress Tolerance in Plants.- Chapter 8. Climate Change and Soil Ecosystems: Impacts on Microbial Communities, Pathogen Dynamics, and Agricultural Sustainability.- Section-III. Microbial Solutions for Climate Resilience: Plant Interactions, Biofortification, and Extremophiles.- Chapter 9. Role of Soil Microbial Communities in Nutrient Homeostasis and Climate Resilience.- Chapter 10. Pseudomonas fluorescens: An influencer for food crop biofortification by siderophore-mediated iron acquisition.- Chapter 11. Extremophiles in Climate Change Mitigation: Harnessing Resilient Microbes for a Sustainable Future.- Section IV. Microbial Responses to Climate Change: Carbon Sequestration, Cryosphere Ecology, and Antimicrobial Resistance.- Chapter 12. Carbon Sequestration and Rhizoremediation: Strategies for Managing Xenobiotic Compounds and Restoring Ecological Balance.- Chapter 13. Glacial cryosphere, its microbial ecology and the impact of climate change.- Chapter 14. Climate change and antimicrobial resistance.- Section V. Conclusion.- Chapter 15. Resilience of Microorganisms in the Face of Climate Change: Key Conclusions.
