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This book will explain the physiochemical processes determining the rhizosphere as soil and the soil compartment influenced by the activity of plant roots and the consequences of plant nutrition. It will provide a thorough review of recent developments in plant rhizosphere components and their interaction.
Key Features:
- Book will highlight the plant-microbe interactions responsible for the maintenance of soil fertility, plant nutrition, and also the remediation of contaminated soil for sustainable agricultural systems. Presents a compilation of current knowledge of plant-microbe interactions and the plant and microbial processes upon which they depend. The insight gained from these analyses will impact studies of plant development and responses to the environment.
- Examines the chemical changes in the rhizosphere which are associated with microbe-plant interactions and the biochemical mechanisms behind them. eBook Project Approval Meeting title information sheet v3.5
- Considers metametabolomics targeted at the phytobiome as a future approach
- aimed at unravelling the complexities of chemical communication in the rhizosphere between roots and surrounding microbes.
Table of Contents
1. Plant rhizosphere advances: Introduction, background, recent
developments.
This chapter will cover basic Introduction, overview and recent development
of plant rhizosphere.
2. Underground Botany: Stretching the interface of life in rhizosphere
This chapter will cover a basic underground botany and multifaceted
interactions between plant roots, root exudates, microbial metabolites, the
root microbiome and the soil management of the multicomponent complexity
of the rhizosphere.
3. Plant rhizosphere chemistry
This chapter will cover a chemical interaction & communication within
rhizomicrobes, Chemical interaction & communication between
rhizomicrobes and roots, metabolic events in rhizosphere and rhizosphere
metabolomics.
4. Rhizosphere microbiota mitigate biotic stress in plants
This chapter will cover a different type of biotic stress in plants, Role of
microbes in mitigated plant biotic stress, rhizomicrobiota interaction with
plant pathogens, Role of PGPR’s in biotic stress mitigation and omics of
Rhizosphere microbiota mitigate biotic stress.
5. Rhizosphere microbiota mitigate abiotic stress in plants
This chapter will cover Impact of abiotic stress on plant system, role of
microbes in abiotic stress, Biochemical and molecular mechanisms involved
eBook Project Approval Meeting title information sheet v3.5
in microbe mediated abiotic stress protection, role of Arbuscular mycorrhizal
fungi in abiotic stress management.
6. Role of Protein secretion in root microbe interaction
This chapter will cover types of proteins secreted in rhizosphere, role protein
in rhizosphere communication, rhizosphere proteomics and Future
prospects of rhizosphere proteomics.
7. Nanoparticles and rhizosphere microbiota
This chapter will cover the nanoparticles in agriculture, nanoparticle
properties and interaction with microbes, effect of nanoparticles on
rhizosphere microbiota, rhizosphere community interaction in presence of
nanoparticles.
8. Role of root architecture on microbes and interaction with them
This chapter will cover the root types and morphology, Impact of soil on root
architecture and root and soil types and their association with microbes.
9. Omics in revealing rhizomicrobiota interaction
This chapter will cover details of plant rhizomicrobiome, omics in deciphering root
microbe interaction, genomics and metagenomics in plant microbe interaction and
root microbe interaction Metabolomics and future prospects.