Roles of Osmolytes in Changing Environment
- 1st Edition - May 21, 2025
- Editor: Azamal Husen
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 2 6 5 4 9 - 5
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 2 6 5 4 8 - 8
Roles of Osmolytes in Changing Environment is the only available comprehensive coverage of the recent advances in our understanding on how plants coordinate with different osmoly… Read more
Purchase options
Roles of Osmolytes in Changing Environment is the only available comprehensive coverage of the recent advances in our understanding on how plants coordinate with different osmolytes, and their role in improving the tolerance of plants under stress conditions. Including insights of their effect against cold, heat, UV, submergence, wounding, extremes of temperature, drought, salinity, high metal concentrations, water logging, pollution, and nutrient deficiency stress, the book also explains the role of various osmolytes against phytopathogenic viruses, bacteria, fungi, algae, nematodes, and insects. Understanding the significance of different osmolytes for sustainable plant growth and production under diverse stress situations is increasingly important for both crop and non-crop plants. This volume presents the latest research and inspires further research toward osmolyte use in developing stress tolerance in plants. Roles of Osmolytes in Changing Environment is a valuable resource for scientists, researchers and advanced level students working in plant biology, plant physiology, plant stress physiology, plant biochemistry, botanical or crop sciences, environmental sciences, and ecological sciences.
- Discusses osmolytes that protect plants from, or neutralize, the harmful effects of stress
- Explores stress signaling pathways for survival of plants under adverse situation
- Examines genetic engineering and molecular methods to induce crop plant stress tolerance
Scientists, researchers and advanced level students working in plant biology, plant physiology, plant stress physiology, plant biochemistry, botanical or crop sciences, environmental sciences, and ecological sciences
1. Osmolytes biosynthesis, accumulation and signaling pathways in plant systems under changing environment: An overview
2. Osmolytes and their crosstalk mechanism with plant hormones for higher plant productivity and survival under adverse situations
3. Bioengineering of osmolytes biosynthetic, metabolic genes, and development of transgenic plants for higher productivity and survival under adverse situations
4. Osmolytes and development of transgenic plants
5. Effect of osmolytes in protein folding and aggregation in plant cells
6. Osmolytes metabolism in plant system a as sensors under adverse situations
7. Interaction between PGPR and osmolytes for higher plant growth under changing environmental situations
8. Rhizosphere and osmolytes coordination in plant system under adverse situations
9. Understanding the roles of sugar and polyols (sugar alcohols) for plants tolerance and acclimatization under changing environmental situations
10. Understanding the roles of polyamines for plants tolerance and acclimatization under changing environmental situations
11. Understanding the roles of amino acids and proline for plants tolerance and acclimatization under changing environmental situations
12. Understanding the roles of glycine betaine for plants tolerance and acclimatization under changing environmental situations
13. Heavy metal stress and various osmolytes in plant system
14. Nanofertilizers accelerated various osmolytes in plant system
15. Role of osmolytes in seed priming for higher germination and plant growth
16. Phytopathogenic viruses, bacteria, fungi, and algae accelerated various osmolytes and plant protection and performance
17. Nematodes and insects accelerated various osmolytes and plant protection and performance
18. Role of dimethylsulfonium osmolytes in plant protection and performance
19. Rhizospheric microbes and their coordination in maintaining host plant growth under various conditions
20. Cell signaling crosstalk of osmolytes with other signaling molecules under changing environments for healthy plant growth
21. Role of trehalose-6-phosphate in plant system under adverse situations
2. Osmolytes and their crosstalk mechanism with plant hormones for higher plant productivity and survival under adverse situations
3. Bioengineering of osmolytes biosynthetic, metabolic genes, and development of transgenic plants for higher productivity and survival under adverse situations
4. Osmolytes and development of transgenic plants
5. Effect of osmolytes in protein folding and aggregation in plant cells
6. Osmolytes metabolism in plant system a as sensors under adverse situations
7. Interaction between PGPR and osmolytes for higher plant growth under changing environmental situations
8. Rhizosphere and osmolytes coordination in plant system under adverse situations
9. Understanding the roles of sugar and polyols (sugar alcohols) for plants tolerance and acclimatization under changing environmental situations
10. Understanding the roles of polyamines for plants tolerance and acclimatization under changing environmental situations
11. Understanding the roles of amino acids and proline for plants tolerance and acclimatization under changing environmental situations
12. Understanding the roles of glycine betaine for plants tolerance and acclimatization under changing environmental situations
13. Heavy metal stress and various osmolytes in plant system
14. Nanofertilizers accelerated various osmolytes in plant system
15. Role of osmolytes in seed priming for higher germination and plant growth
16. Phytopathogenic viruses, bacteria, fungi, and algae accelerated various osmolytes and plant protection and performance
17. Nematodes and insects accelerated various osmolytes and plant protection and performance
18. Role of dimethylsulfonium osmolytes in plant protection and performance
19. Rhizospheric microbes and their coordination in maintaining host plant growth under various conditions
20. Cell signaling crosstalk of osmolytes with other signaling molecules under changing environments for healthy plant growth
21. Role of trehalose-6-phosphate in plant system under adverse situations
- Edition: 1
- Published: May 21, 2025
- Language: English
AH
Azamal Husen
Prof. 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.
Affiliations and expertise
Foreign Delegate, Wolaita Sodo University, Wolaita Sodo, South Ethiopia Regional State, Ethiopia; Adjunct Professor at Graphic Era (deemed to be University), Dehradun, Uttarakhand, IndiaRead Roles of Osmolytes in Changing Environment on ScienceDirect