
Amino Acids in Plant Protection
Mechanisms, Metabolism and Coordination
- 1st Edition - August 29, 2025
- Latest edition
- Editors: Muhammad Bilal Hafeez, Abdul Wahid, Muhammad Farooq, Noreen Zahra
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 2 6 7 9 3 - 2
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 2 6 7 9 4 - 9
Amino Acids in Plant Protection: Mechanisms, Metabolism and Coordination highlights the increasingly evident importance of amino acids in plant development and stress defens… Read more

Higher plants are sessile and therefore cannot escape hostile environmental conditions that are a constant threat throughout their lifecycle. Unfavorable growth conditions such as extreme temperatures, drought, flood, and contamination of soils with high salt concentrations are considered the major abiotic environmental stressors that can not only limit plant growth and development, but also determine the geographic distribution of plant species and directly affect agronomical yield.
- Explores amino acids in a range of environmental conditions to enable accurate assessment and response
- Presents comprehensive insights into the practical application of amino acids for specific stress scenarios
- Provides in-depth details of metabolic and signaling functions of amino acids
2. Differential distribution of amino acids in plants
3. Amino acid synthesis and transport in plant cells
4. Amino acid metabolism and regulatory function in plants
5. Regulation of amino acid metabolic enzymes and transporters in plants under abiotic stress
6. Molecular mechanisms of amino acid metabolism under abiotic Stress.
7. The role of amino acids and amino acid-derived molecules in plant responses and adaptation under salinity stress
8. Approaches in modulating amino acid metabolism in plants for drought stress
9. Evaluation of amino acids profile of different plants in relation to heat stress
10. Effect of amino acid application in freezing tolerance of plants under diverse conditions
11. Effect of UV radiation on the amino acid biosynthesis of different plant species
12. Effects of flooding on the amino acid and nitrogen metabolism of plants
13. Connections between amino acid metabolisms and biotic stress tolerance in plants
14. Influence of amino acids metabolism on crosstalk between plants and pathogen
15. Influence of microbes on the amino acid metabolism and plant abiotic stress tolerance: New insights
16. Role of biosynthetic and synthetic biology in amino acids metabolism of plants under abiotic stresses
17. 5-aminolevulinic acid: a key frontier amino acid in conferring abiotic stress tolerance in plants
18. Application of different biostimulants to enhance amino acid portfolio under hostile climatic conditions
19. Effect of biochar on nitrogen use efficiency, grain yield and amino acid content of different traditional crops
20. Role of different agriculture interventions on amino acid metabolism portfolio under abiotic stresses
- Edition: 1
- Latest edition
- Published: August 29, 2025
- Language: English
MH
Muhammad Bilal Hafeez
Muhammad Bilal Hafeez is doing Ph.D. from College of Agronomy, Northwest A&F University, China. He did M.Sc (Hons.) Agronomy from the Department of Agronomy, University of Agriculture, Faisalabad. He published over 40 refereed journal papers and 8 book chapters. He does research in Agricultural Plant Science (plant physiology, abiotic stresses, especially salinity, drought and heavy metal stresses). He is currently focusing on combined abiotic stress tolerance in crops perspective of food and nutrition security.
AW
Abdul Wahid
Prof. Dr. Abdul Wahid is working as Professor from the Department of Botany, University of Agriculture, Faisalabad 38000, Pakistan. He published over 200 refereed journal papers. He completed his Ph.D. in Botany from the Department of Botany, University of Agriculture, Faisalabad. Environmental stresses are major constraints to the productivity of crops throughout the world. It is therefore imperative that mechanisms and causes of the stress effects on plant growth and development may be determined systematically, and strategies may be adopted to overcome adverse effects of stresses in order to achieve maximum productivity from the salinity, high temperature and drought-hit areas. His current interests are focused on the expression of stress proteins and other stress related primary and secondary metabolites under water, salinity, heat and cadmium stresses, and finding strategies to fetch greater yields under such conditions. He has more than twenty years of teaching/research experience in Botany.
MF
Muhammad Farooq
Professor Muhammad Farooq is an experienced professional with more than 17 years of blended experience in research, teaching, training, industry, and project management across the globe and has visited over 25 countries for various professional activities including USA, UK, European countries, China, Pakistan, Turkey and the Gulf region. He holds PhD in Mechanical Engineering degree from Heriot-Watt University Edinburgh, United Kingdom. Dr. Farooq is the author of over 150 leading international research articles and his work has been cited more than 3,700 times. He is recognized among the top 2% scientists worldwide, according to the list issued by Stanford University, USA, and Elsevier/Scopus. He is a strong advocate for net-zero and carbon-neutral initiatives for sustainable environmental applications through SDGs and collaborating with more than 20 countries for various professional engagements related to research and development.
As an Editor, Dr. Farooq has handled more than 500 research articles for renowned journals and international conferences, including Journal of Carbon Research (Q1), npj Thermal Science and Engineering (Springer Nature), Discover Sustainability (springer nature-Q2), The Journal of King Saud University – Engineering Sciences (Elsevier-Q1), Frontiers in Bioengineering and Biotechnology (Q1), Frontiers in Energy Research Journal (Q2), Sustainability Journal (MDPI-Q1), ChemEngineering Journal (MDPI- Q2), Chemistry Journal (MDPI- Q2), Energies Journal (MDPI-Q1), Processes Journal (MDPI-Q2), Journal of Agriculture (MDPI-Q1), Journal of Energy and Environment (SAGE- Q2), and the Pakistan Journal of Engineering and Applied Sciences. He has served as a volunteer and recognized reviewer for leading international journals and top-notch conferences, having reviewed over 1,000 research papers and received recognition awards from prestigious publishers such as Elsevier, Springer, SAGE Publishing, MDPI, and the Taylor & Francis Group.
Dr. Farooq has received numerous highly competitive international grants and awards including Faculty Research Grant, NRPU HEC Research Project Award, UK Alumni Award by British Council, Best Paper Award by Institute of Engineers Pakistan, British Council Pak-UK Education Gateway Award for faculty exchange, Neilson Research Award, EU-CO2-TRIP Project funded by Marie Curie for Clean Coal Energy Generation, UK ADNET Research Grant, UK BBSRC and Faculty Development Scholarship. He has conducted various international training sessions as a resource person and frequently serves as a chair of technical sessions, conference secretary, member of technical committees, organizer, and invited keynote speaker at world-renowned international conferences, summer schools, and professional meetings related to energy systems.
NZ
Noreen Zahra
Noreen Zahra is working as Assistant Professor in Plant Physiology, Department of Botany, Government College Women University Faisalabad 38000, Pakistan. She completed her Ph.D. in Botany from the Department of Botany, University of Agriculture, Faisalabad. She published 30 refereed journal papers, many of which have sought to understand the morphological, physiological, biochemical and molecular basis of crop responses to individual and concurrent abiotic stresses and mechanisms imparting tolerance for such stresses. She devised promising strategies for improving crop performance under sub-optimum conditions (salinity, drought, submergence, temperature extremes, metal toxicity) and suggested various novel indicators for augmenting stress tolerance in plants.