Titlebook: Reactive Oxygen Species; Prospects in Plant M Mohammad Faizan,Shamsul Hayat,S. Maqbool Ahmed Book 2023 The Editor(s) (if applicable) and Th

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Physiological Impact of Reactive Oxygen Species on Leaf, protecting plants from abiotic stresses. Antioxidants involved in ROS detoxification include superoxide dismutase (SOD), peroxidases (POX), ascorbic acid (AA), catalase (CAT), and others. Despite significant research to better understand ROS‘s role and impact on plants, ROS signalling is still not

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Insight into the Interaction of Strigolactones, Abscisic Acid, and Reactive Oxygen Species Signals,s talk between SL and ABA signaling during stress is of major importance. SL signaling has been linked to ROS responses during osmotic stress and nutrient deprivation. Similarly, in water-stressed plants, ABA signals promote stomatal closure via ROS generated by respiratory burst oxidases (RBOH). Th

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Hydrogen Peroxide: Regulator of Plant Development and Abiotic Stress Response,in response to abiotic stress and during developmental processes. In this chapter, the production, scavenging and the dual role of hydrogen peroxide from the point of view of its role in plant growth and developmental process and in abiotic stress tolerance have been presented.

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Toward Sustainable Agriculture: Strategies Involving Phytoprotectants Against Reactive Oxygen Speciemperature changes. This is due to the fact that stress factors are more commonly present in plants because of the variability of these conditions combined with plant immobility. It is crucial to increase the adaptability of crop plants to these stresses in order to meet the increased food needs of

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Signaling Pathway of Reactive Oxygen Species in Crop Plants Under Abiotic Stress,tic stresses is very significant for crop plants. More importantly, there is a potential of increasing stress tolerance of crop plants by manipulation of ROS. However, their responses can vary according to stress conditions and crop species. The current chapter enlightens the roles of ROS under abio

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Adverse Impact of ROS on Nutrient Accumulation and Distribution in Plants,enzymatic antioxidant systems tends to keep the magnitude of ROS within plant cells to a non-damaging level. ROS are similar to a double-edged sword and, when present below the threshold level, mediate redox signaling pathways that actuate plant growth, development, and acclimatization against stres

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