Multiple Abiotic Stresses in Plants: Mechanisms and Management Strategies
Editat de Koushik Chakraborty, Md. Hasanuzzaman, Debarati Bhaduri, Somnath Roy, Honghong Wuen Limba Engleză Paperback – iun 2026
Chapters cover key processes including redox regulation, hormonal signaling, transcriptional control, ion transport, and metabolic adjustments. The volume also highlights advances in breeding and biotechnology—from marker-assisted selection and genome editing to nanotechnology and multi-omics approaches—alongside practical strategies for improved stress management, such as optimized nutrient use, microbial interventions, and climate-adaptive agronomy.
Comprehensive in scope and multidisciplinary in approach, this reference book serves as a valuable resource for researchers, students, plant scientists, and agricultural professionals by offering the strategic insight needed to anticipate, rather than react to, the evolving challenges of plant-environment interactions.
- Explores adaptive changes in plant structure and anatomy under combined stress conditions, enabling readers to link morphological traits with functional outcomes in real-world crop systems
- Demonstrates how nutrient dynamics, soil amendments, and beneficial elements contribute to stress alleviation, elucidating actionable pathways for improving plant performance
- Highlights the role of plant-associated microbes, including PGPR and AMF, in mitigating overlapping stress factors, providing a biological foundation for developing microbe-based support strategies
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Specificații
ISBN-13: 9780443274244
ISBN-10: 044327424X
Pagini: 400
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 044327424X
Pagini: 400
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Cuprins
SECTION A. Multiple abiotic stresses in crop plants: A global climate change perspective
1. Incidence of multiple abiotic stresses in crop plants and its implication for global food security
2. Mechanisms and strategies to deal with compound stress in plants: an overview
SECTION B. Physiological and molecular basis of multiple abiotic stress tolerance in plants
3. Morphological and anatomical adaptations in plants under multiple abiotic stresses
4. Photosynthetic and stomatal regulation to multiple abiotic stresses in plants
5. Plant signaling and signal transduction cascade under multiple abiotic stresses in plants
6. Role of reactive oxygen species and antioxidant defense in tolerating multiple abiotic stresses in plants
7. Modulation of ion transport and uptake dynamics in plants under multiple abiotic stresses
8. Transcription factors and their role in multiple abiotic stress tolerance in plants
9. Role of phytohormones and plant growth regulators in multiple abiotic stress tolerance in plants
10. Secondary metabolites, metallothioneins, and phytochelatins in combating multiple abiotic stresses in plants
SECTION C. Approaches for improving multiple stress tolerance in plants
11. Use of Plant Genetic Resources and marker-assisted breeding approaches to improve multiple abiotic stress tolerance in plants
12. Genomics-assisted approaches for improving multiple abiotic stress tolerance in plants
13. Role of phenomics and precision phenotyping in breeding strategies to develop multiple abiotic stress tolerant crops
14. Use of nanobiotechnology to improve multiple abiotic stress tolerance in plants
15. Transgenic and genome editing-based approaches for improving multiple abiotic stress tolerance in plants
16. Multi-omics-based approaches for developing multiple abiotic stress tolerant crops
SECTION D. Management strategies to overcome multiple abiotic stresses in plants
17. Management of multiple abiotic stresses through improved agronomic practices
18. Adoption of climate-smart agricultural practices to mitigate multiple abiotic stresses in crops
19. Alleviation of multiple abiotic stresses by improving macro- and micro-nutrient management
20. Role of beneficial elements to mediate the tolerance to multiple abiotic stresses in plants
21. Role of soil amendments in improving multiple abiotic stress tolerance in plants
22. Importance of beneficial microbes in improving multiple abiotic stress tolerance of plants: Special reference to PGPR and AMF
23. Detection and monitoring of abiotic stresses in crops: Latest on technological applications
1. Incidence of multiple abiotic stresses in crop plants and its implication for global food security
2. Mechanisms and strategies to deal with compound stress in plants: an overview
SECTION B. Physiological and molecular basis of multiple abiotic stress tolerance in plants
3. Morphological and anatomical adaptations in plants under multiple abiotic stresses
4. Photosynthetic and stomatal regulation to multiple abiotic stresses in plants
5. Plant signaling and signal transduction cascade under multiple abiotic stresses in plants
6. Role of reactive oxygen species and antioxidant defense in tolerating multiple abiotic stresses in plants
7. Modulation of ion transport and uptake dynamics in plants under multiple abiotic stresses
8. Transcription factors and their role in multiple abiotic stress tolerance in plants
9. Role of phytohormones and plant growth regulators in multiple abiotic stress tolerance in plants
10. Secondary metabolites, metallothioneins, and phytochelatins in combating multiple abiotic stresses in plants
SECTION C. Approaches for improving multiple stress tolerance in plants
11. Use of Plant Genetic Resources and marker-assisted breeding approaches to improve multiple abiotic stress tolerance in plants
12. Genomics-assisted approaches for improving multiple abiotic stress tolerance in plants
13. Role of phenomics and precision phenotyping in breeding strategies to develop multiple abiotic stress tolerant crops
14. Use of nanobiotechnology to improve multiple abiotic stress tolerance in plants
15. Transgenic and genome editing-based approaches for improving multiple abiotic stress tolerance in plants
16. Multi-omics-based approaches for developing multiple abiotic stress tolerant crops
SECTION D. Management strategies to overcome multiple abiotic stresses in plants
17. Management of multiple abiotic stresses through improved agronomic practices
18. Adoption of climate-smart agricultural practices to mitigate multiple abiotic stresses in crops
19. Alleviation of multiple abiotic stresses by improving macro- and micro-nutrient management
20. Role of beneficial elements to mediate the tolerance to multiple abiotic stresses in plants
21. Role of soil amendments in improving multiple abiotic stress tolerance in plants
22. Importance of beneficial microbes in improving multiple abiotic stress tolerance of plants: Special reference to PGPR and AMF
23. Detection and monitoring of abiotic stresses in crops: Latest on technological applications