Phytomicrobiome and Stress Regulation, a volume in the Microbiome Research in Plants and Soil series, provides an in-depth examination of how plant-associated microbial communities mitigate various stresses. The book explores the complexities of abiotic and biotic stresses faced by plants, emphasizing the importance of the phytobiome in stress alleviation. This comprehensive overview sheds light on the significant role that microbial composition and diversity play in driving ecological functions and enhancing plant resilience. In addition to addressing stress mitigation, the book highlights advances in applied crop microbiology and the dynamic responses of microbial communities to environmental changes.It underscores the impact of these communities on soil functioning and ecosystem health, making it a critical resource for understanding future climate change scenarios and their implications for plant health. Through detailed studies and evidence-based insights, the book aims to foster a more complete understanding of the intricate relationship between plants and their microbial allies.
- Highlights current research into the resilience of phytomicrobiomes to biotic and abiotic stresses and the related benefit to plants
- Explains the benefits to agricultural productivity by improving soil structure, increasing ecosystem nutrient availability, and developing new intervention for insect pests
- Presents the dynamisms of below- and above- ground microbiome in stress mitigation
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Verlagsort
Dateigröße
ISBN-13
978-0-443-33595-2 (9780443335952)
Schweitzer Klassifikation
PART 1: MICROBIOME AND STRESS1. Crop Microbiomes: Structure and function2. Metabolites of Chemical Signaling Pathways from Crop-Microbe Interactions3. Crop microbiome mediates stress tolerance through antioxidant mechanism4. Soil Microbiome Diversity and stress regulation5. Regulation of metabolites in plants by stress tolerant PGPR6. Metabolomics as a Tool to Study Responses of Plant Growth Promoting Rhizobacteria to stress7. Volatile compound of Microbiome induces stress tolerance8. Recent advances in genetics of microbiomes9. Functional genomics of phytomicrobiomesPART 2: ABIOTIC STRESS10. Role of crop microbiomes in crop production under changing climate - Past, present and future11. Response of crop microbiomes to drought12. Exploring relationship between crop microbiomes and plant nutrient stress13. Response of phytomicrobiomes to nanopollution14. Effect of cold stress on phytomicrobiomes15. Impact of Heavy metals on crop microbiomes16. Impact of waterlogging on phytomicrobiomes17. Crop Microbiome in Salinity tolerance18. EPS producing PGPR for stress tolerance19. Agricultural pollution and phytomicrobiomesPART 3: BIOTIC STRESS20. Mediation of biotic stress in phytomicrobiomes21. Crop microbiomes enhanced induced systemic resistance in plants22. Phytobiome modulation to control the plant diseases23. Pathogen Biocontrol through changes in phytomicrobiomes24. Microbial biological control of pests by phytomicrobiomes25. Phytomicrobiomes biocontrol agents against soil-borne plant diseases26. Molecular and phenotypic responses of phytomicrobiomes against virus attack27. Role of phytomicrobiomes in plant-parasitic nematodes control
