| Description |
1 online resource (355 pages) |
| Contents |
Cover -- Title Page -- Copyright Page -- Contents -- List of Contributors -- Preface -- Chapter 1 Salicylic Acid: A Regulator of Plant Growth and Development -- Introduction -- Salicylic Acid and Plant Growth -- Salicylic Acid and Photosynthesis -- Salicylic Acid and Respiration -- Salicylic Acid and Abiotic and Biotic Stress -- Conclusions -- References -- Chapter 2 Salicylic Acid-Mediated Regulation of Plant Biology: An Omics Approach -- Introduction -- Programmed Cell Death (PCD) -- SA as a Plant Growth Regulator -- SA and Stresses -- Resistance of Plants to Diseases -- Proteome Analysis -- Transcriptome Analysis -- Genome Analysis -- Conclusion -- Note -- References -- Chapter 3 Regulation of Plant Primary Metabolism by Salicylic Acid Under Abiotic Stress -- Introduction -- Primary Metabolism Regulation -- Respiration -- Photosynthesis -- Flowering -- Seed Germination -- Senescence -- Plant Growth -- Pathogenesis -- Nutrient Uptake -- SA Mediation and Abiotic Stress Tolerance Regulation -- Salinity Stress Tolerance Regulation -- Drought Stress Tolerance Control -- Temperature Constraint Tolerance Monitoring -- Heavy Metals Pressure Tolerance Balancing -- Conclusion -- References -- Appendix 3.A -- Appendix 3.B -- Chapter 4 Regulation of Plant Secondary Metabolism by Salicylic Acid Under Abiotic Stress -- Introduction -- Biosynthesis Pathway of Different Secondary Metabolites in Plants -- The Biosynthesis of SMs in Plants Exposed to Abiotic Stresses -- Elicitation of Secondary Metabolites by Exogenously Applied Salicylic Acid Under Abiotic Stress -- Conclusion and Future Prospects -- References -- Chapter 5 How Does Salicylic Acid Regulate Mineral Nutrition in Plants Under Abiotic Stress? An Update -- Introduction -- Salicylic Acid and Regulation of Mineral Nutrition |
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Salicylic Acid-Induced Metal Stress Tolerance and Mineral Nutrient Homeostasis in Plants -- Salicylic Acid-Induced Salinity Stress Tolerance and Mineral Nutrient Homeostasis in Plants -- Salicylic Acid-Induced Drought Stress Tolerance and Mineral Nutrient Homeostasis in Plants -- Salicylic Acid-Induced Temperature Stress Tolerance and Mineral Nutrient Homeostasis in Plants Temperature Stress -- Conclusion and Future Prospects -- References -- Chapter 6 Seed Germination to Fruit Maturation Under Stressful Environment: Roles of Salicylic Acid -- Introduction -- Plant Face to Environmental Stress -- Salicylic Acid as Plant Growth Regulator -- Biosynthesis and Metabolism -- Role of Salicylic Acid -- Function of Salicylic Acid in Plant During Stressful Factors -- Biotic Factors -- Abiotic Factors -- Conclusion -- References -- Appendix 6.A -- Appendix 6. B -- Chapter 7 Role of Salicylic Acid on Postharvest Physiology of Plants -- Introduction -- Biosynthesis and Metabolism of Salicylic Acid -- Preharvest Factors Affecting Postharvest Quality -- Physiological Roles of Salicylic Acid on Plants -- Effect of Salicylic Acid on Ethylene Production -- Effect of Salicylic Acid on Heat Production -- Effect of Salicylic Acid on Respiration -- Effect of Salicylic Acid on Fruit Ripening -- Effect of Salicylic Acid on Senescence -- Effect of Salicylic Acid on Postharvest Diseases -- Effect of Salicylic Acid on Chilling Injury -- Effect of Salicylic Acid on Oxidative Stress -- Effect of Salicylic Acid on Maintaining Bioactive Compounds -- Effect of Salicylic Acid on the Decay of Harvested Fruits -- Conclusion -- References -- Chapter 8 Salicylic Acid-Mediated Physiological and Molecular Mechanism in Plants Under Metal(loid) Stress -- Introduction -- Sources of Metalloids and Their Availability to the Plants -- Metal(loid) Uptake and Their Bioavailability |
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Effects of Metalloids in Plants and Tolerance of Plants to Stress -- Phytohormones Used for Ameliorating the Metalloid Stress -- Physiological Roles of Salicylic Acid in Plants Under Metal/Metalloid Stress -- SA and its Roles in Photosynthesis Under Metal or Metalloid Stress -- Omics-Based Strategies for SA-Induced Metalloid Tolerance in Plants -- Conclusion -- References -- Chapter 9 Salicylic Acid-Mediated Physiological and Molecular Mechanisms in Plants Under Heat Stress -- Introduction -- Salicylic Acid History and Biosynthesis -- Heat-Stress Threshold -- Physiological Mechanisms Mediated by SA Under HS -- Plant Water Relation (PWR) -- Osmolyte Accumulations -- Cell Membrane Thermostability -- Hormonal Changes -- Photosynthesis and ATP Production -- Molecular Mechanisms Mediated by Salicylic Acid Under Heat Stress -- Antioxidant Defense -- Heat Shock Proteins (HPSs) -- Signaling -- Conclusion and Future Prospects -- References -- Chapter 10 Salicylic Acid-Mediated Physiological and Antioxidant Enzyme Activity Mechanisms in Plants Under Chilling Stress -- Introduction -- Effect of Chilling and Salicylic Acid (SA) on Growth Factors -- Effects of Chilling and Salicylic Acid on Cell Membrane -- Effects of Chilling and Salicylic Acid on Antioxidant Enzyme Activities -- Conclusion -- References -- Chapter 11 Salicylic Acid-Mediated Physiological and Molecular Mechanisms in Plants Under Abiotic Stress -- Introduction -- Stress Hormones -- Background of Salicylic Acid -- Biosynthesis of Salicylic Acid in Plants -- Salicylic Acid in Plants Under Metals/Metalloids -- Salinity Stress -- Drought Stress -- Cold Stress -- Epigenetics Functions in Salicylic Acid -- Conclusion and Future Prospects -- Conflict of Interest -- Acknowledgements -- References -- Chapter 12 Salicylic-Acid Mediated Physiological and Molecular Mechanisms in Plants Under Drought Stress |
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Introduction -- Adversities of Drought Stress -- Role of SA in Photosynthesis and Sugars Biosynthesis under Drought Stress -- Changes in ROS and Enzymatic Antioxidants in Plants Subjected to Drought Stress and Role of SA -- Role of SA on Polyphenols Biosynthesis -- Role of SA on Osmolytes Accumulation -- Role of SA on Mineral Nutrients Uptake and Accumulation -- Interaction of SA with Polyamines and Other Phytohormones in Plants Subjected to Drought Stress -- Role of SA on Induction of Gene Expression Under Drought -- Conclusions -- References -- Chapter 13 ROS Regulation by Salicylic Acid Under Abiotic Stress -- Introduction -- Abiotic Stress in Plants and Activation of ROS Signaling -- ROS Scavenging in Plants Under Abiotic Stress -- ROS Signaling in Plants -- SA and ROS Interaction -- SA Mediated Regulation of ROS Level (ROS Homeostasis) -- SA-Mediated ROS Detoxification (Activation of Antioxidant Defense System) -- Conclusion and Future Perspective -- References -- Chapter 14 Regulation of Photosynthesis by Salicylic Acid Under Optimal and Suboptimal Conditions -- Introduction -- Salicylic Acid (SA) and Regulation of Photosynthesis -- Salicylic Acid-Mediated Regulation of Photosynthesis Under Optimal Conditions -- Salicylic Acid-Mediated Regulation of Photosynthesis Under Suboptimal Conditions -- Salicylic Acid as a Stress Factor for Plants -- Effect of Lower Levels of Salicylic Acid on Plants -- Effect of Elevated Levels of Salicylic Acid on Plants -- Conclusion -- References -- Chapter 15 Regulation of Abiotic Stress by Salicylic Acid at Gene Level: An Update -- Introduction -- Biosynthesis of Salicylic Acid -- Metabolism of Salicylic Acid -- Glycosylation -- Methylation -- AA Conjugation -- Sulfonation -- Salicylic Acid Receptors in Plants -- Salicylic Acid Transport in Plants -- Long-Distance Transport -- Intracellular Transport |
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Implication of Salicylic Acid in Plants' Abiotic Stress Tolerance -- Drought, Osmotic, and Salt Stress -- Extreme Temperatures -- UV Lights and Ozone Stress -- Metallic Stresses -- Conclusion -- Acknowledgements -- Author Contributions -- References -- Chapter 16 Salicylic Acid and its Crosstalk with Other Plant Hormones Under Stressful Environments -- Introduction -- Salicylic Acid Biosynthesis in Plants -- Role of Salicylic Acid in Plants -- Function of SA Under Biotic Stress Conditions (Pathogen Defense Pathway) -- Function of SA Under Abiotic Stress Conditions -- Crosstalk of Salicylic Acid with Other Plant Hormones Under Stressful Environments -- Crosstalk with Jasmonic Acid (JA) -- Crosstalk with Absiscic Acid (ABA) -- Crosstalk with Gibberellic Acid (GA) -- Crosstalk with Ethylene (ET) -- Crosstalk with Auxin (IAA) -- Crosstalk with Cytokinin (CK) -- Crosstalk with Brassinosteroids (BRs) -- Crosstalk with Melatonin -- Crosstalk with Polyamines (PAs) -- Crosstalk with Strigolactones (SLs) -- Conclusion and Perceptions -- References -- Chapter 17 Post-translational Modifications Mediated by the Phytohormone Salicylic Acid in Plants Growing Under Environmental Challenges -- Introduction -- SA Biosynthetic and Signaling Pathways -- SA-Induced Responses During Abiotic Stress -- The Dual Role of SA in Redox Homeostasis During Abiotic Stress -- Proteome Modifications Mediated by SA -- SA-Mediated PTMs on NPR Proteins -- Regulation of Hormone-Related Signal Transduction Pathways by SA-Induced PTMs -- How to Identify New PTMs Induced by SA -- Immunofluorescence -- Proximity Ligation Assay -- Förster Resonance Energy Transfer -- Bio-Ubiquitin System -- Perspectives -- Acknowledgments -- References -- Index -- EULA |
| Summary |
MANAGING PLANT STRESS USING SALICYLIC ACID Enables readers to understand the ability of salicylic acid in reducing the effects of abiotic stresses in different crop species Salicylic acid is an important plant hormone which acts as a multifunctional molecule and regulates key physiological and biochemical processes in plants. This book highlights the tremendous potential of treating plants with salicylic acid, either prior to or during stress. It focuses on the specific challenges and opportunities related to exogenous application or priming technology, such as the mode of application, new methodologies, and the potential impacts of salicylic acid on the environment. Sample topics covered in the book include: The latest research on the ability of salicylic acid in reducing the effects of abiotic stresses in different crop species The mechanism of action of salicylic acid at the biochemical and molecular level Salicylic acid and its crosstalk with other plant hormones under stressful environments Regulation of abiotic stress by salicylic acid at the gene level The role of salicylic acid on the postharvest physiology of plants This book will be of significant interest to researchers, academics, and scientists working in the field of salicylic acid mediated responses in plants under challenging environments and with abiotic stress tolerance |
| Notes |
Description based on publisher supplied metadata and other sources |
| Subject |
Crops -- Effect of stress on.
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Crops and climate.
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Salicylic acid.
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Plant growth promoting substances.
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Biology.
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Life Sciences.
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SCIENCE.
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Biology.
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Life Sciences.
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SCIENCE.
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| Genre/Form |
Electronic books
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| Form |
Electronic book
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| Author |
Bhardwaj, Renu
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Kumar, Vinod
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Zheng, Bingsong
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Tripathi, Durgesh K
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| ISBN |
1119671108 |
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9781119671107 |
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1119671086 |
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9781119671084 |
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1119671094 |
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9781119671091 |
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