Mineral Nutrients to Mitigate Abiotic Stress in Crops
- 1st Edition - September 1, 2026
- Latest edition
- Editor: Azamal Husen
- Language: English
Mineral Nutrients to Mitigate Abiotic Stress in Crops offers a clear and timely examination of the physiological and biochemical dynamics that govern how plants endure increa… Read more
Description
Description
Mineral Nutrients to Mitigate Abiotic Stress in Crops offers a clear and timely examination of the physiological and biochemical dynamics that govern how plants endure increasingly unpredictable growing conditions. The volume begins by outlining the fundamental principles that shape a crop’s capacity to acquire, distribute, and utilize nutrients, and then considers how these processes influence its survival and productivity when confronting drought, salinity, heat, or nutrient-induced stress. Across the chapters, contributors show how nutrient availability guides defense mechanisms—from maintaining cellular stability and enzymatic function to modulating antioxidant potential, osmotic adjustment, and stress-related signaling—and how intensifying environmental pressures reorder metabolic priorities, redirect root behaviour, and reallocate resources at the whole-plant level.
Building on this foundation and proceeding in an intentionally structured sequence, this book integrates applied approaches encompassing soil and fertilizer systems, nutrient biofortification, and the breeding of nutrient-efficient cultivars. By integrating established science with emerging insights, it delivers a coherent, forward-looking framework for interpreting plant resilience and for implementing adaptive strategies that underpin effective responses in diverse cultivation contexts, thereby strategically equipping researchers and practitioners to navigate the increasingly complex challenges facing modern agriculture.
Building on this foundation and proceeding in an intentionally structured sequence, this book integrates applied approaches encompassing soil and fertilizer systems, nutrient biofortification, and the breeding of nutrient-efficient cultivars. By integrating established science with emerging insights, it delivers a coherent, forward-looking framework for interpreting plant resilience and for implementing adaptive strategies that underpin effective responses in diverse cultivation contexts, thereby strategically equipping researchers and practitioners to navigate the increasingly complex challenges facing modern agriculture.
Key features
Key features
- Presents element specific chapters—covering nitrogen, phosphorus, potassium, calcium, magnesium, sulfur, iron, and major micronutrients—that clearly distinguish their individual roles in mitigating abiotic stress
- Highlights nutrient–nutrient interactions, showing how synergistic or antagonistic relationships influence stress outcomes
- Includes dedicated discussions of diagnostic imaging and spectroscopic methods for assessing nutrient deficiencies and stress-management responses
- Surveys the contribution of beneficial elements, such as silicon and selenium, which complement essential nutrients in enhancing resilience
Readership
Readership
Researchers and advanced students in crop science, agronomy, horticulture, and plant science
Table of contents
Table of contents
Section I — Foundations of Abiotic Stress and Plant Nutrition
1. An Overview on Abiotic Stress in Crops: Challenges and Impact
2. Understanding Plant Mineral Nutrition: Basic Principles
Section II — Roles of Essential Nutrients in Stress Resilience
3. Role of Nitrogen in Abiotic Stress Resilience
4. Role of Phosphorus in Abiotic Stress Resilience
5. Role of Potassium in Enhancing Stress Tolerance in Crops
6. Calcium: The Key to Membrane Stability and Stress Signaling
7. Magnesium’s Contribution to Photosynthesis and Stress Resistance
8. Sulfur and Its Influence on Plant Stress Responses
9. Heat Stress and the Critical Role of Potassium and Calcium
10. Iron Deficiency and Its Impact on Abiotic Stress in Crops
11. Micronutrients and Their Vital Role in Alleviating Abiotic Stress Tolerance
Section III — Mechanisms, Interactions, and Physiological Pathways
12. Soil Fertility Management for Improved Stress Tolerance in Crops
13. Nutrient Imbalance and Its Impact on Abiotic Stress Response
14. Mineral Nutrients and the Antioxidant Defense System in Plants
15. Plant Mineral Nutrition and Ethylene Synthesis: Implications for Abiotic Stress Tolerance
16. Influence of Plant Mineral Nutrition on Stress‑Related Hormone Biosynthesis
17. Osmotic Regulation in Crops Under Stress: The Role of Nutrients
Section IV — Stress‑Specific Nutrient Management Strategies
18. Nutrient Management Strategies for Drought‑Prone Areas
19. Salinity Stress and the Role of Nutrient Fertilization in Crops
20. Mineral Nutrients and Root Architecture in Stress Tolerance
21. Role of Beneficial Elements in Combatting Abiotic Stress
Section V — Emerging Technologies, Innovations, and Future Directions
22. Nano‑Fertilizers: A New Frontier in Combatting Abiotic Stress
23. Nutrient Biofortification: Improving Crop Resilience to Environmental Stress
24. Plant Mineral Nutrition and Abiotic Stress Diagnosis: Image‑Based and Spectroscopic Techniques
25. Plant Breeding Strategies for Enhancing Nutrient Uptake and Stress Tolerance
1. An Overview on Abiotic Stress in Crops: Challenges and Impact
2. Understanding Plant Mineral Nutrition: Basic Principles
Section II — Roles of Essential Nutrients in Stress Resilience
3. Role of Nitrogen in Abiotic Stress Resilience
4. Role of Phosphorus in Abiotic Stress Resilience
5. Role of Potassium in Enhancing Stress Tolerance in Crops
6. Calcium: The Key to Membrane Stability and Stress Signaling
7. Magnesium’s Contribution to Photosynthesis and Stress Resistance
8. Sulfur and Its Influence on Plant Stress Responses
9. Heat Stress and the Critical Role of Potassium and Calcium
10. Iron Deficiency and Its Impact on Abiotic Stress in Crops
11. Micronutrients and Their Vital Role in Alleviating Abiotic Stress Tolerance
Section III — Mechanisms, Interactions, and Physiological Pathways
12. Soil Fertility Management for Improved Stress Tolerance in Crops
13. Nutrient Imbalance and Its Impact on Abiotic Stress Response
14. Mineral Nutrients and the Antioxidant Defense System in Plants
15. Plant Mineral Nutrition and Ethylene Synthesis: Implications for Abiotic Stress Tolerance
16. Influence of Plant Mineral Nutrition on Stress‑Related Hormone Biosynthesis
17. Osmotic Regulation in Crops Under Stress: The Role of Nutrients
Section IV — Stress‑Specific Nutrient Management Strategies
18. Nutrient Management Strategies for Drought‑Prone Areas
19. Salinity Stress and the Role of Nutrient Fertilization in Crops
20. Mineral Nutrients and Root Architecture in Stress Tolerance
21. Role of Beneficial Elements in Combatting Abiotic Stress
Section V — Emerging Technologies, Innovations, and Future Directions
22. Nano‑Fertilizers: A New Frontier in Combatting Abiotic Stress
23. Nutrient Biofortification: Improving Crop Resilience to Environmental Stress
24. Plant Mineral Nutrition and Abiotic Stress Diagnosis: Image‑Based and Spectroscopic Techniques
25. Plant Breeding Strategies for Enhancing Nutrient Uptake and Stress Tolerance
Product details
Product details
- Edition: 1
- Latest edition
- Published: September 1, 2026
- Language: English
About the editor
About the editor
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Azamal Husen
Azamal Husen is a scholar with over 25 years of experience in botanical sciences, nanobiotechnology, plant physiology, environmental botany, medicinal plants, and clonal propagation. He previously served as a Full Professor and Head of the Department of Biology at the University of Gondar, Ethiopia, and is currently a foreign delegate at Wolaita Sodo University, Ethiopia, as well as an Adjunct Professor at Graphic Era University, India. He has also held senior academic roles at Sankalchand Patel University, the Forest Research Institute, and Doon College of Agriculture and Forest in Dehradun, India. Prof. Husen’s research has been supported by major organizations including the World Bank, Indian Council of Agricultural Research, and Japan Bank for International Cooperation. He has contributed extensively to curriculum development, faculty training, and international conferences. A prolific author and editor, he was recognized among the world’s top 2% scientists by Stanford University in 2022–2024 and honored by the University of Gondar for outstanding service.
Affiliations and expertise
Foreign Delegate, Wolaita Sodo University, Wolaita Sodo, South Ethiopia Regional State, Ethiopia; Adjunct Professor, Department of Biotechnology, Graphic Era (Deemed to be University), Dehradun, Uttarakhand, India