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Full Description
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.
Contents
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
