Synergistic Plant Metabolomics and Plant Growth-Promoting Microorganisms in Addressing Abiotic Stress
- 1st Edition - December 1, 2025
- Latest edition
- Editors: Naeem Khan, Mohsin Tanveer
- Language: English
Synergistic Plant Metabolomics and Plant Growth-Promoting Microorganisms in Addressing Abiotic Stress unveils the latest advancements in understanding how plants respond to en… Read more
Synergistic Plant Metabolomics and Plant Growth-Promoting Microorganisms in Addressing Abiotic Stress unveils the latest advancements in understanding how plants respond to environmental pressures. By unraveling the complexities of metabolic pathways affected by abiotic stresses and highlighting the pivotal role of PGPMs in enhancing plant resilience, this book provides a comprehensive exploration of these intricate relationships. Recent advancements in plant sciences, metabolomics, and microbiology have deepened our understanding of the interconnected functions of metabolites and growth-promoting microorganisms in plant resilience and the role of microorganism in altering plant metabolome under environmental stresses. The book consolidates this emerging knowledge into an accessible volume, offering a holistic view of how plant metabolomics and microbial interactions contribute to plant adaptation under abiotic stresses. Aimed at researchers and practitioners, the book translates scientific findings into both research inspiration and practical applications for professionals and advanced students in plant science, agriculture, biotechnology, and related fields, addressing tangible strategies for improving plant and crop resilience and productivity.
- Translates scientific findings into practical applications
- Presents the latest research including methodologies
- Incorporates case-studies and real-world examples to enhance understanding
Researchers and scientists in plant sciences, graduate and postgraduate students, crop scientists and agronomists, biotechnology and agriculture industry professionals, environmentalists. Extension officers, environmental consultants, biotechnology entrepreneurs, educational institutions, government agencies related to agriculture, environment, and biotechnology.
Section I: General introduction
1. Introduction to plant metabolomics
2. Foundations of microbial interactions in plant systems
3. Environmental abiotic stresses and their impacts on plants
4. Harnessing sustainable agricultural practices with plant growth-promoting fungi for abiotic stress management
Section II: Functions and mechanisms of metabolites and microbe-mediated responses conferring abiotic stress tolerance
5. Metabolic responses to environmental challenges
6. Microbial contributions to plant resilience
7. Metabolites and ion transport in plants under salinity stress conditions
8. Metabolites and melatonin in enhancing stress tolerance
9. Microbial production of beneficial indolamines
10. Metabolites as regulators of seed germination
Section III: Recent advances in plant metabolomics and microbial applications
11. Metabolomic techniques for studying plant–microbe interactions
12. Integration of omics technologies in plant sciences
13. Bioinformatics and data analysis in metabolomics
14. Case studies: Successful applications of plant metabolomics
15. Application of microbes to improve minerals biofortification
16. Harnessing microbes for crop improvement
17. Educational applications of metabolomics in plant sciences
18. Emerging trends in metabolomics research
19. Microbial modulation of plant metabolism: Mechanisms, impacts, and applications
20. Application of nanoparticles for harnessing metabolite-induced abiotic stress tolerance
21. Global challenges and the future of plant sciences
1. Introduction to plant metabolomics
2. Foundations of microbial interactions in plant systems
3. Environmental abiotic stresses and their impacts on plants
4. Harnessing sustainable agricultural practices with plant growth-promoting fungi for abiotic stress management
Section II: Functions and mechanisms of metabolites and microbe-mediated responses conferring abiotic stress tolerance
5. Metabolic responses to environmental challenges
6. Microbial contributions to plant resilience
7. Metabolites and ion transport in plants under salinity stress conditions
8. Metabolites and melatonin in enhancing stress tolerance
9. Microbial production of beneficial indolamines
10. Metabolites as regulators of seed germination
Section III: Recent advances in plant metabolomics and microbial applications
11. Metabolomic techniques for studying plant–microbe interactions
12. Integration of omics technologies in plant sciences
13. Bioinformatics and data analysis in metabolomics
14. Case studies: Successful applications of plant metabolomics
15. Application of microbes to improve minerals biofortification
16. Harnessing microbes for crop improvement
17. Educational applications of metabolomics in plant sciences
18. Emerging trends in metabolomics research
19. Microbial modulation of plant metabolism: Mechanisms, impacts, and applications
20. Application of nanoparticles for harnessing metabolite-induced abiotic stress tolerance
21. Global challenges and the future of plant sciences
- Edition: 1
- Latest edition
- Published: December 1, 2025
- Language: English
NK
Naeem Khan
Naeem Khan holds MSc and PhD degrees in plant sciences with a specialization in plant physiology from Quaid-i-Azam University, Islamabad, Pakistan. He is currently serving as a senior scientist at the Agronomy Department, University of Florida, USA, Dr. Khan's research focuses on plant-microbe interactions, phytohormones, plant metabolites, breeding and genetics, and crop responses to abiotic stresses. His goal is to advance the development of genetically resilient and high-yielding crops with enhanced environmental tolerance to address economic losses from meteorological extremes like drought and heat, ensuring food security. His research emphasizes identifying secondary metabolites linked to water stress tolerance, understanding metabolic pathways involved in drought stress tolerance, and investigating the role of plant growth-promoting rhizobacteria (PGPR) and plant growth regulators (PGR) in enhancing plant growth under abiotic stresses. Dr. Khan is actively involved in the World Food Crops Breeding and Genetics Program at the University of Florida, focusing on breeding techniques, disease resistance mechanisms, synthetic wheat production, and marker analysis in various food crops under diverse environmental conditions. Dr. Khan has published over 110 peer reviewed journal articles, book chapters and editorials. He also maintains a worldwide network and serves as Editor in chief, associate editor and editorial board member for many international scientific peer-reviewed journals.
Affiliations and expertise
Senior Scientist, Department of Agronomy, University of Florida, Gainesville, FL, United StatesMT
Mohsin Tanveer
Mohsin Tanveer received his PhD in plant physiology from the University of Tasmania, Australia. Since 2021, he has been actively involved in several projects focused on abiotic stress tolerance in plants. He has recently joined the Chinese Academy of Science as an Associate Professorv , where he currently leads two projects on salinity tolerance in halophytes, serving as PI on one project and co-PI the other. His research interests include plant stress physiology, nutrient metabolism, ion transport, and agricultural sustainable development. In 2021, he was listed among the top 40 young researchers in Australia and ranked first in the field of Botany. Since 2019, Dr. Tanveer has been recognized among the top 2% of scientists according to Stanford University USA and Elsevier's rating. He published over 52 articles and edited over 2 books on important aspects of plant physiology, plant stress tolerance, and crop production. According to Scopus, Prof. Tanvir’s publications have already received over 7729 citations with a h-index of 43.
Affiliations and expertise
Associate Professor, Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, Urumqi City, Xinjiang, China