Polyamines-Phytohormones-Nutrients Network
Nexus in Plant Responses to Abiotic Stresses
- 1st Edition - October 1, 2025
- Latest edition
- Editors: Asim Masood, Nafees A. Khan, Naser A. Anjum, Vasileios Fotopoulos
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 2 4 7 3 4 - 7
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 2 4 7 3 5 - 4
Polyamine-Phytohormone-Nutrient Network: Nexus in Plant Responses to Abiotic Stresses presents the latest global research on key tools for improving physiological and biochemical m… Read more
Polyamine-Phytohormone-Nutrient Network: Nexus in Plant Responses to Abiotic Stresses presents the latest global research on key tools for improving physiological and biochemical mechanisms that enhance plant health and productivity.
Exposure of plants to abiotic stresses is inevitable, often leading to impaired growth, metabolism, and productivity. However, plants are naturally equipped with endogenous chemicals including intracellular messengers and signalling molecules that counteract potential stress impacts, protect cellular functions, and promote healthy growth and production. Polyamines (PAs) are low-molecular-weight, nitrogen-containing compounds with aliphatic polycationic properties. Beyond their role in growth and development, PAs enhance plant tolerance to abiotic stresses. Given their connection with phytohormones and mineral nutrients, understanding their interactions—whether synergistic or antagonistic—could shed light on their potential to mitigate these stresses.
Written by a team of expert contributors, this volume in the Plant Biology, Sustainability, and Climate Change series focuses on the interactions among PAs, phytohormones, and mineral nutrients that are crucial for regulating nutrient assimilation, carbon fixation, and secondary metabolic pathways.
Exposure of plants to abiotic stresses is inevitable, often leading to impaired growth, metabolism, and productivity. However, plants are naturally equipped with endogenous chemicals including intracellular messengers and signalling molecules that counteract potential stress impacts, protect cellular functions, and promote healthy growth and production. Polyamines (PAs) are low-molecular-weight, nitrogen-containing compounds with aliphatic polycationic properties. Beyond their role in growth and development, PAs enhance plant tolerance to abiotic stresses. Given their connection with phytohormones and mineral nutrients, understanding their interactions—whether synergistic or antagonistic—could shed light on their potential to mitigate these stresses.
Written by a team of expert contributors, this volume in the Plant Biology, Sustainability, and Climate Change series focuses on the interactions among PAs, phytohormones, and mineral nutrients that are crucial for regulating nutrient assimilation, carbon fixation, and secondary metabolic pathways.
- Presents an exhaustive overview of the impacts and mechanics of major abiotic stresses on plant health
- Explores the physiological and biochemical mechanisms underlying the individual role of polyamines, phytohormones, and mineral nutrients in plant stress tolerance
- Explains the critical crosstalk in the physiological and biochemical interplay among polyamines, phytohormones, and mineral nutrients in plants exposed to abiotic stresses
Researchers, academics, and advanced students in plant stress physiology.
- Pathways of polyamine biosynthesis and catabolism and their interplay: outcomes in plants
- Achieving plant stress tolerance and climate-resilient agriculture: polyamines as a vital strategy
- Harmonizing growth and resilience: appraising the multifaceted roles of polyamines in plant physiology and abiotic stress resilience
- Polyamines and salt stress tolerance in plants
- Enhancing abiotic stress adaptation in plants: insights into gasotransmitters
- Osmotic stress protection in plants: role of exogenous melatonin
- Polyamines–phytohormones crosstalk: implications for plant abiotic stress tolerance
- Plant growth and stress-resilience: role of polyamines and their crosstalk with phytohormones
- Polyamines, nitric oxide, and nitrogen in heat stress tolerance: analyzing the interactions
- Mitigation of plant microclimate-associated abiotic stresses: role of polyamines and microbes
- Gamma-aminobutyric acid-nutrients interaction outcomes: role in plants under abiotic stresses
- Jasmonates: hormonal crosstalk and plant nutrient communications under abiotic stress
- Understanding spermidine–nutrient interplay in plants under salt stress
- Edition: 1
- Latest edition
- Published: October 1, 2025
- Language: English
AM
Asim Masood
Dr. Asim Masood currently serves as an Assistant Professor of Botany at Aligarh Muslim University, Aligarh (India). He has made significant contributions toto the fields of plant physiology and environmental sciences. Dr. Masood's current research focuses on the physiological effects of stress in plants and how internal variables like phytohormones, neurotransmitters, and minerals regulate stress responses. His main area of study is the way plants respond to abiotic stressors such as salinity, heavy metals, extreme temperatures, and the availability of mineral nutrients in the soil. His research examines how phytohormones and other signaling molecules regulate the nutritional status of plants and how they collaborate to mitigate these stresses.
Affiliations and expertise
Aligarh Muslim University, Uttar Pradesh, IndiaNK
Nafees A. Khan
Prof. Nafees A. Khan is a distinguished Professor
of Plant Physiology in the Department of Botany at Aligarh Muslim University (AMU). Holding both a PhD and a DSc from AMU, he is internationally
renowned for his pioneering research on abiotic
stress tolerance in plants, phytohormone signaling, and sustainable agricultural practices. A Highly Cited Researcher (Clarivate Analytics, 2019–23), he has received prestigious awards, including the UGC-Research and Mid-Career Awards, the Teaching Excellence Award, and the Research Excellence Citation Award 2023 (Clarivate Analytics). He is also a fellow of several esteemed academies, including the National Academy of Sciences, the National Academy of Agricultural Sciences, the Linnean Society of London, the Indian Botanical Society, and the Indian Society for Plant Physiology. His groundbreaking research integrates nutrient-use efficiency with stress resistance mechanisms, making substantial contributions to the advancement of global agricultural sustainability.
Affiliations and expertise
Professor of Botany, Department of Botany, Aligarh Muslim University, IndiaNA
Naser A. Anjum
Dr. Naser A. Anjum is an Assistant Professor of Botany at Aligarh Muslim University, Aligarh (India). He has made significant contributions to the field of plant/crop-environment adaptation. His work has advanced the understanding of plant/crop physiology and biochemistry, particularly in their adaptation and tolerance to various abiotic stress factors and pollutants. Dr. Anjum is a pioneering researcher in areas such as nano-graphene-mediated oxidative stress, antioxidant metabolism, and the glutathione-redox system, as well as the significance of the glutathione-independent defense system in food crop models. He has also contributed to the field of phytoremediation, assessing the chemical pollutant remediation potential of plant and salt marsh macrophytes and exploring the underlying physiological and biochemical mechanisms. Dr. Anjum has received prestigious research awards from the Portuguese Foundation for Science and Technology (Portugal), Academia Sinica (Taiwan), and the CSIR and DBT, Govt. of India. He is on the editorial boards of several journals. He serves as the Managing Editor for Plant Growth Regulation (published by Springer) and as an Associate Editor for the International Journal of Plant Biology (published by MDPI) and Frontiers in Agronomy (published by Frontiers).
Affiliations and expertise
Aligarh Muslim University, Uttar Pradesh, IndiaVF
Vasileios Fotopoulos
Dr. Vasileios Fotopoulos is a Professor of
Structural and Functional Plant Biology and Head of the CUT Plant Stress Physiology Group at the Cyprus University of Technology. His main research focuses on the study of nitro-oxidative signaling cascades involved in plants' responses to stress factors, with special emphasis
on the development of chemical, biological and nanotechnological priming technologies to mitigate abiotic stress factors and promote
plant growth. In addition, he investigates plant secondary metabolism and antioxidant responses in fruit crops during ripening. He has been assigned to evaluate research proposals from different countries (France, Belgium, Poland, Chile, Latvia, Greece, Italy, Portugal, Israel, Qatar, Austria, Cyprus, and Denmark), as well as EU proposals (EUROSTARS). He is an active Review Panel Member for COST Actions (EU) in the field of natural sciences. He has also delivered several presentations at international conferences and has served as an examiner for MSc theses/PhD dissertations from institutions in Italy, South Africa, Greece, and the Netherlands.
Affiliations and expertise
Cyprus University of Technology, Cyprus