Rhizosphere: Ecology, Management and Application highlights the use of the rhizosphere microbiome to improve plant and soil health, including strengthening stress resistance and remediating negatively impacted soils. The book focuses on current developments and applications of related low input management strategies in high-value crops as well as non-food plants. Further sections provide insights into the ecology and functions of these interactions, including evidence that plant microbiota is vital for plant growth and stress resilience and health. It highlights fundamental microbiome research to help readers better understand the dynamics within microbial communities and their interactions with various plant hosts and the environment.
Microbial-root associations are essential to assist plants under abiotic and biotic stresses and are necessary and beneficial to enhancing agricultural crop production. Numerous studies have enhanced our vision of the complex interactions between the plant, the associated microbial communities, and the environment. Further, microbe - microbe interactions allow the simulation microbial community interactions naturally, and is one of the many modern methods for the development of novel and effective metabolites.
- Includes insights on the sustainable use of valuable soil rhizobiome
- Explores the latest biotechnological developments in the harnessing of rhizosphere potential
- Proposes potential applications and microbial communities in modern agricultural systems, soil bioremediation and environmental restoration
- Assesses the role of the rhizosphere microbial communities in increasing the growth of crop plants
Sprache
Verlagsort
Verlagsgruppe
Elsevier Science & Techn.
Dateigröße
ISBN-13
978-0-443-16031-8 (9780443160318)
Schweitzer Klassifikation
1. Diversity of various symbiotic associations between microbes and host plants2. Amelioration of biotic stress by using rhizobacteria for Sustainable crop produce3. Microbes: Salient Tools in Achieving Ecosystem Approaches4. The role of rhizobacterial volatile compounds in increasing plant tolerance to biological and non-biological stresses5. Bioremediation Potential of Rhizosphere microbes: current perspectives6. Plant growth-promoting rhizobacteria (PGPR): their potential as antagonists and biological control agents7. Rhizospheric microbiome: Organization and bioinformatics studies8. Microbiome Biodiversity- current advancement and applications9. Microbial Consortium with multifunctional plant growth-promoting attributes: Future Perspective in Agriculture10. Nutrition and cultivation strategies of core Rhizosphere Microorganisms11. Bioengineering of rhizobiome towards sustainable agricultural production12. Rhizosphere Spatiotemporal analysis: a comprehensive study13. Azospirillum, a free-living nitrogen-fixing bacterium: Smart Agriculture and Sustainable Exploitation14. Plant-microbe interactions: Different perspectives in promoting plant growth and health15. Rhizosphere ecology and management for improving nutrient use efficiency and crop productivity16. Recent advances in discovery of new drugs from plant associated microbes17. Plant Health: feedback effect of root exudates and rhizobiome interactions18. Ecotypic adaption of plants and role of microbiota to ameliorate the environmental extremes using contemporary approaches19. Ecological and structural attributes of soil rhizobiome affecting plant soil feedbacks under biotic stress20. Bioinformatics study of role of rhizobiome to biologically control the pathogens of Vegetables21. Multi omics analysis of rhizosphere and plant Health22. Chemical profiling of metabolites of Bacillus Sps: A case study23. Achievements of Prof. Hiltner vis a vis the contributions towards rhizopshere science
