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Full Description
This book provides an understanding of the intricate structure of the plant-microbe interface for increasing plant performance in an environmentally sustainable way. Plant microbiomes, often known as the bacteria associated with plants such as rhizospheric, phyllosphere, and entophytic, are essential components of plant life. Importance of plant microbiomes is a trustworthy strategy for sustainability to handle upcoming food shortages and restore soil health. Understanding the relationships between plants and microorganisms is advancing with the concept of profiling plant-associated microbiomes (genome assemblies of all bacteria). Through a number of ways, the microbiota increases the plant's ability to adapt to changing environmental conditions. Therefore, it is crucial to solving the riddle of plant-microbe dynamics using cutting-edge technologies to comprehend the function of metabolites and signal route mechanisms. Recent developments in omics technologies for unravelling plant-microbe dynamic interactions and other novel phytotechnologies for soil health improvement are discussed at length in this volume, as well as novel methods for improved agricultural and environmental sustainability. Teachers, academics, plant biologists, and researchers will all find this book interesting. Students studying agriculture, microbiology, biotechnology, ecology, soil science, and environmental sciences at the undergraduate and graduate levels can also use the book as supplemental reading material.
Contents
Chapter 1: Revisiting the Plant-Microbe Aid for Sustainable Agriculture.- Chapter 2: Plant-Microbe Interaction.- Chapter 3: Rhizosphere and Plant Microbe Interfaces.- Chapter 4: Rhizosphere Engineering for Sustainable Agriculture.- Chapter 5: Genetic Diversity of Culturable Plant Growth-Promoting Rhizobacteria.- Chapter 6: PGPR in Agriculture.- Chapter 7: PGPR.- Chapter 8: Rhizosphere, Mycorrhizosphere, and Hyphosphere as Distinct Niches for Microbiomes for Agricultural Sustainability.- Chapter 9: Endosymbiont Microbiomes and Their Effects on Plant Growth.- Chapter 10: Plant Growth Promoting Rhizobacteria in Phytoremediation of Environmental Contaminants.- Chapter 11: Phytoremediation of Heavy Metals Contaminated Soil Using Plant Growth Promoting Rhizobacteria.- Chapter 12: Plant Growth Promoting Rhizobacterial Enzyme Dynamics in Soil Remediation.- Chapter 13: Plant Growth Promoting Rhizobacteria to Bioremediation of Nitrile Pollution in Crop Lands for Enhancing Crop Productivity.- Chapter 14: Stress Determination in Plants.- Chapter 15: Mitigating Abiotic Stress in Plants Using Various Alleviators.- Chapter 16: Microbes-Mediated Defense Responses in Plants Under Biotic and Abiotic Stresses.- Chapter 17: Nanotoxicity of Engineered Nanomaterials and Its Impact on Plant Growth Promoting Rhizobacteria.- Chapter 18: Plant Nano Toxicology.- Chapter 19: Microbial Nanotechnology.- Chapter 20: Integrating Omics Approaches for Abiotic Stress Tolerance.- Chapter 21: Exploration of Trichoderma for Dual Functions as Biopesticide and Biofertilizers.- Chapter 22: Cyanobacteria in Sustainable Agriculture.- Chapter 23: Cyanobacteria and Crop Plants.- Chapter 24: Regulation of Phosphorus and Nitrogen Conversion by Cyanobacteria and Its Importance in Saline-Alkali Soil.- Chapter 25: Nano-Biofertilizer Formulations for Sustainable Agriculture.- Chapter 26: Plant-Microbe Interaction for Sustainable Agriculture and Environment.
