Managing Plant Stress Using Salicylic Acid
Physiological and Molecular Aspects
1. Edition November 2022
352 Pages, Hardcover
Wiley & Sons Ltd
Further versions
MANAGING PLANT STRESS USING SALICYLIC ACID
Enables readers to understand the ability of salicylic acid in reducing the effects of abiotic stresses in different crop species
Salicylic acid is an important plant hormone which acts as a multifunctional molecule and regulates key physiological and biochemical processes in plants. This book highlights the tremendous potential of treating plants with salicylic acid, either prior to or during stress. It focuses on the specific challenges and opportunities related to exogenous application or priming technology, such as the mode of application, new methodologies, and the potential impacts of salicylic acid on the environment. Sample topics covered in the book include:
* The latest research on the ability of salicylic acid in reducing the effects of abiotic stresses in different crop species
* The mechanism of action of salicylic acid at the biochemical and molecular level
* Salicylic acid and its crosstalk with other plant hormones under stressful environments
* Regulation of abiotic stress by salicylic acid at the gene level
* The role of salicylic acid on the postharvest physiology of plants
This book will be of significant interest to researchers, academics, and scientists working in the field of salicylic acid mediated responses in plants under challenging environments and with abiotic stress tolerance.
2. Salicylic acid mediated regulation of plant biology: An omics approach.
3. Regulation of plant primary metabolism by salicylic acid under abiotic stress
4. Regulation of plant secondary metabolism by salicylic acid under abiotic stress.
5. How does salicylic acid regulate mineral nutrition in plants under stress? An update
6. Seed germination to fruit maturation under stressful environment: Roles of salicylic acid
7. Role of salicylic acid on post-harvest physiology of plants
8. Salicylic acid mediated physiological and molecular mechanisms in plants under heavy metal stress.
9. Salicylic acid mediated physiological and molecular mechanisms in plants under heat stress.
10. Salicylic acid mediated physiological and molecular mechanisms in plants under chilling stress.
11. Salicylic acid mediated physiological and molecular mechanisms in plants under salt stress.
12. Salicylic acid mediated physiological and molecular mechanisms in plants under pesticide stress.
13. Salicylic acid mediated physiological and molecular mechanisms in plants under drought stress.
14. Salicylic acid mediated physiological and molecular mechanisms in plants under high light and UV exposure.
15. ROS regulation by salicylic acid
16. Regulation of photosynthesis by salicylic acid under optimal and suboptimal conditions.
17. Regulation of abiotic stress by salicylic acid at gene level: an update
18. Salicylic acid and its crosstalk with other plant hormones under stressful environments.
19. Regulation of non-enzymatic antioxidants by salicylic acid under abiotic stress: biochemical and molecular aspects
20. Response of plant proteins under abiotic stress and their regulation by salicylic acid.
Dr Renu Bhardwaj, Guru Nanak Dev University, Punjab, India.
Dr Vinod Kumar, Assistant Professor, Government Degree College, Ramban, J&K, India.
Professor Bingsong Zheng, Zhejiang Agriculture and Forestry University, Hangzhou, Zhejiang, China.
Dr Durgesh Kumar Tripathi, Assistant Professor at Amity Institute of Organic Agriculture, Amity University, Uttar Pradesh, Noida, India.
