Role of Antioxidants in Abiotic Stress Management
Series: Biostimulants and Protective Biochemical Agents;
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79 321 Ft (75 543 Ft + 5% VAT)
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79 321 Ft
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Product details:
- Publisher Academic Press
- Date of Publication 1 August 2025
- ISBN 9780443141393
- Binding Paperback
- No. of pages475 pages
- Size 228x152 mm
- Weight 450 g
- Language English 700
Categories
Long description:
Role of Antioxidants in Abiotic Stress Management covers the antioxidant defense system in plants, providing key insights on how to generate tolerant varieties that can adapt to harsh environmental conditions without adverse impacts on crop productivity. The book covers a broad range of antioxidant responses, describing how global climate changes and the overexploitation of natural or anthropogenic resources creates abiotic stressors. The potential impacts of factors such as heavy metals/metalloids, drought/water deficit, salinity, extreme temperatures, anoxia, and high light intensity are covered, along with discussions on how to improve crop growth and development at different stages.
Written by a team of international experts, this book provides an important reference on morphological, physiological, biochemical, metabolic, anatomical and molecular responses of plants under stress factors.
Table of Contents:
1. Underlying mechanisms responsible for abiotic stress responses and defense adaptation in plants: Recent advancements and future prospects
Part 1: Role of Enzymatic and Non-Enzymatic Antioxidants
2. Multifaceted roles in plant abiotic stress responses and tolerance mechanisms
3. Protective roles against heavy metals or metalloids stress in plants
4. Involvement against drought stress or water deficiency in plants
5. Mechanisms in waterlogging tolerance in plants
6. Contributions toward salinity stress tolerance in plants
7. Efficacy in cold stress tolerance in plants
8. Addressing heat stress in plants
9. Addressing ultraviolet radiations and weak or strong light stress in plants
10. Combating ozone stress tolerance in plants
11. Addressing nutrient deficiencies or sufficiencies in plants
12. Plant adaptation to hypoxia or anoxia stress conditions
13. Addressing xenobiotics stress in plants
Part 2: Practical Applications of Specific Antioxidants in Abiotic Stress Tolerance
14. Novel green nanoparticles to improve the crops resilience
15. Agronomic management approaches to enhance crop tolerance
16. Plant defense activation via organic and inorganic molecules and biostimulants
17. Activation of antioxidant enzymes utilizing micronutrients and phytohormones or signaling molecules
18. Advanced target and new genome-editing approaches to improve the crops resilience against abiotic stressors
19. Advanced genetic technologies to improve crop abiotic stress resilience
20. Potential of soil or plant growth promotion associated microbes? in improving the abiotic-stress resilience of agricultural crops
21. Conventional and Biotechnological metabolic engineering approaches to enhancing of abiotic stress tolerance in plants
22. Molecular underpinning of plants hormonal signaling to abiotic stressors using plant chemical and synthetic biology approaches
Role of Antioxidants in Abiotic Stress Management
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