09676nam 22005413 450 991100899420332120231130080229.097898151365629815136569(MiAaPQ)EBC30975742(Au-PeEL)EBL30975742(CKB)29089779500041(Exl-AI)30975742(OCoLC)1411306650(DE-B1597)730281(DE-B1597)9789815136562(Perlego)4304359(EXLCZ)992908977950004120231130d2023 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierMolecular and Physiological Insights into Plant Stress Tolerance and Applications in Agriculture1st ed.Sharjah :Bentham Science Publishers,2023.©2023.1 online resource (235 pages)Print version: Chen, Jen-Tsung Molecular and Physiological Insights into Plant Stress Tolerance and Applications in Agriculture Sharjah : Bentham Science Publishers,c2023 Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Foreword -- Preface -- List of Contributors -- Influence of Abiotic Stress on Molecular Responses of Flowering in Rice -- Chanchal Kumari1, Shobhna Yadav1 and Ramu S. Vemanna1,* -- 1. INTRODUCTION -- 1.1. Receptor for Light and Temperature -- 1.2. Reproduction and Maintenance of Shoot Apical Meristem -- 1.3. Molecular Mechanisms of Flowering -- 1.4. Adaptation of Rice to Different Climatic Conditions -- 1.5. Development Made at Molecular Level to Combat Abiotic Stress in Plants -- CONCLUSION -- REFERENCE -- A Peep into the Tolerance Mechanism and the Sugar Beet Response to Salt Stress -- Varucha Misra1,* and Ashutosh Kumar Mall1 -- 1. INTRODUCTION -- 1.1. Characteristics of Halophytes for Salt Stress Condition -- 1.2. Salt Stress Tolerance Mechanism in Sugar Beet -- 1.3. Salt Overly Sensitive (SOS) Pathway for Salt Tolerance -- 1.4. The Response of Sugar Beet under Salt Stress -- CONCLUSION -- REFERENCES -- The Role of Functional Genomics to Fight the Abiotic Stresses for Better Crop Quality and Production -- Neha Sharma1,*, Bharti Choudhary1 and Nimisha Sharma2 -- 1. INTRODUCTION -- 1.1. The Use of Functional Genomics in Studying Plant Physiology under Abiotic Stresses -- 1.1.1. Microarrays and MicroRNAs -- 1.1.2. Serial Analysis of Gene Expression (SAGE) -- 1.1.3. RNA Sequencing -- 1.1.4. RNAi -- 1.1.5. CRISPR/Cas9 -- 1.1.6. Tilling and ECO Tilling -- CONCLUSION -- REFERENCES -- Genetic Enhancement for Salt Tolerance in Rice -- Morphological and Physiological Responses of Plants Under Temperature Stress and Underlying Mechanisms -- Asma Shakeel1,*, Syed Andleeba Jan1, Shakeel A Mir2, Z. Mehdi1, Inayat M. Khan1 and Mehnaz Shakeel1 -- 1. INTRODUCTION -- 2. TEMPERATURE STRESS -- 3. PLANT RESPONSES TO HIGH TEMPERATURE (HT) STRESS: AN OVERVIEW -- 3.1. Germination Stage.3.2. Photosynthesis -- 3.3. Reproductive Growth -- 3.4. Transpiration -- 3.5. Water Relation -- 3.6. Oxidative Stress -- 3.7. Yield -- 4. MITIGATION STRATEGIES FOR HIGH-TEMPERATURE STRESS -- 4.1. The Function of Modified Membrane in Heat Tolerance -- 4.2. The Function of Antioxidative Defense in Heat Tolerance -- 4.3. The Function of Heat Stress Proteins (Hsps) in Heat Tolerance -- 4.4. The Function of Exogenous Phyto-protectants in Heat Tolerance -- 4.5. Genetic Engineering Approach For Heat Tolerance -- 5. PLANT RESPONSE TO LOW-TEMPERATURE STRESS: AN OVERVIEW -- 5.1. Chilling Injury -- 5.2. Cytological Changes Caused by Chilling Injury -- 5.3. Physiological Changes Caused by Chilling Injury -- 5.4. Water Regimes -- 5.5. Mineral Nutrition -- 5.6. Respiration Rate -- 5.7. Photosynthesis Rate -- 6. MECHANISM FOR CHILLING TOLERANCE -- 6.1. Thermal Effect -- 6.2. Chemical Treatment -- 6.3. Cellular and Genetic Engineering -- 6.4. Freezing Injury -- 7. MECHANISM FOR FREEZING TOLERANCE -- 7.1. Adaptation -- 7.2. Avoidance -- 7.3. Tolerance -- CONCLUSION -- REFERENCES -- Molecular Studies and Metabolic Engineering of Phytohormones for Abiotic Stress Tolerance -- Sekhar Tiwari1 and Ravi Rajwanshi2,* -- 1. INTRODUCTION -- 2. PHYTOHORMONES MEDIATED ABIOTIC STRESS TOLERANCE -- 2.1. Abscisic Acid (ABA) -- 2.2. Auxins (IAA) -- 2.3. Cytokinins (CKs) -- 2.4. Ethylene (ET) -- 2.5. Gibberellins (GAs) -- 2.6. Brassinosteroids (BRs) -- 2.7. Jasmonates (JAs) -- 2.8. Salicylic Acid (SA) -- 2.9. Strigolactones (SL) -- 3. MOLECULAR STUDIES AND METABOLIC ENGINEERING OF PHYTOHORMONES -- CONCLUSION AND PERSPECTIVES -- REFERENCES -- Living with Abiotic Stress from a Plant Nutrition Perspective in Arid and Semi-arid Regions -- Nesreen H. Abou-Baker1,* -- 1. INTRODUCTION -- 2. BACKGROUND AND REVIEW OF LITERATURE -- 2.1. The Ecological Factors Related to Plant Production.2.2. The Abiotic Stressors Under Arid And Semi-Arid Regions -- 2.2.1. Salinity -- 2.2.2. Drought -- 2.2.3. Heat -- 2.2.4. Pollution -- 2.2.5. The Impact of Abiotic Stressors on Plant -- 2.3. Ordinary Management and Rehabilitation of Soils and Plants under Stress -- 2.3.1. Soil Management -- 2.3.2. Water Management -- 2.3.3. Crop Management -- 2.4. Modern Techniques to Combate Abiotic Stress -- 2.4.1. Nano-technology -- 2.4.2. Intelligent-green Composites -- 2.4.3. Genetic Engineering -- 2.5. Economic Aspects -- 3. A FUTURE VISION/ CONCLUSION -- REFERENCES -- Understanding Molecular Mechanisms of Plant Physiological Responses Under Drought and Salt Stresses -- Abhishek Kanojia1, Ayushi Jaiswal1 and Yashwanti Mudgil1,* -- 1. INTRODUCTION -- 1.1. Signaling Mechanisms Under Salt Stress -- 1.2. Salt Stress Regulation in Plants -- 1.3. Signaling in Drought Stress -- 1.4. Pathways in Details -- 1.5. The Core ABA-Signalling Pathway -- 1.6. PP2C: Regulator of ABA Signalling in Plants -- 1.7. ABA Receptors -- 1.8. SnRK2 -- 1.9. ABA-Dependent Signalling Pathway -- 1.10. ABA-Independent Pathway -- 1.11. Early Osmotic Stress Signalling Pathway -- 1.12. Calcium Dependent Signalling -- 1.13. MAPK-mediated Signalling Pathway -- 1.14. Proteolysis -- 1.15. Phospholipid Signalling -- 1.16. ROS-mediated Signalling -- 1.17. Ethylene (ET) Signalling -- 1.18. Jasmonic Acid (JA) Signalling -- 1.19. Salicylic Acid (SA) Signalling -- 1.20. Brassinosteroids (BRs) Signalling -- CONCLUSION -- REFERENCES -- Salt Stress and its Mitigation Strategies for Enhancing Agricultural Production -- Priyanka Saha1,*, Jitendra Singh Bohra2, Anamika Barman1 and Anurag Bera2 -- 1. INTRODUCTION -- 2. BACKGROUND -- 3. PROBLEM SOILS AND THEIR FEATURES -- 3.1. Acid Soil -- 3.2. Salt-affected Soils -- 4. DIAGNOSTIC CRITERIA AND CLASSIFICATION -- 5. MANAGEMENT STRATEGIES.5.1. Management Strategies for Reclaiming Acid Soil -- 5.2. Management Strategies for Reclaiming Sodic Soil -- 5.3. Management of Saline Soil -- CONCLUSION -- PATH AHEAD -- REFERENCES -- Impact of Heat Coupled with Drought Stress on Plants -- Battana Swapna1,*, Srinivasan Kameswaran1, Mandala Ramakrishna1 and Thummala Chandrasekhar2 -- 1. INTRODUCTION -- 1.1. Morpho-physiological Responses to Drought Coupled with Heat Stress -- 1.2. Plant Growth -- 1.3. Root System -- 1.4. Photosynthesis -- 1.5. Metabolites -- 1.6. Antioxidants -- 1.7. Yield -- 1.8. Molecular Responses to Heat Coupled with Drought Stress -- 1.9. New Approaches for Developing Tolerance to Heat Coupled with Drought Stress -- CONCLUSION AND FUTURE PERPSPECTIVES -- REFERENCES -- Subject Index -- Back Cover.Molecular and Physiological Insights into Plant Stress Tolerance and Applications in Agriculture is an edited volume that presents research on plant stress responses at both molecular and physiological levels. Key Features: - Emphasizes the morphological and physiological reactions of plants and the underlying molecular mechanisms when faced with stress from environmental or pathogenic factors. - Explores microbial dynamics within the plant rhizosphere and the application of plant growth-promoting bacteria as biofertilizers and endophytes as biocontrol agents to enhance crop growth and productivity for sustainable agriculture. - Systematically summarizes molecular mechanisms in plant stress tolerance and discusses the current applications of biotechnology, nanotechnology, and precision breeding to obtain stress-tolerant crops, contributing to climate-smart agriculture and global food security. - Includes contributions and references from multidisciplinary experts in plant stress physiology, plant molecular biology, plant biotechnology, agronomy, agriculture, nanotechnology, and environmental science. The content of the book is aimed at addressing UN SDG goals 2, 12, and 15 to achieve zero hunger and responsible consumption and production, and to sustainable use of terrestrial ecosystems, respectively. This comprehensive resource is suitable for researchers, students, teachers, agriculturists, and readers in plant science, and allied disciplines. Readership: Researchers, students, teachers, agriculturists, and readers in plant science, and allied disciplines.PlantsEffect of stress onGenerated by AIPlant physiologyGenerated by AIPlantsEffect of stress onPlant physiology581.7Chen Jen-Tsung1253370MiAaPQMiAaPQMiAaPQBOOK9911008994203321Molecular and Physiological Insights into Plant Stress Tolerance and Applications in Agriculture4394263UNINA02182nam 2200361 450 99665887070331620250521115845.0978-88-3285-139-720250521d2020----km y0itay5003 baitafreITy 00 y<<Lo>> straniero che vieneripensare l'ospitalitàMichel Agierprefazione all'edizione italiana di Adriano FavoleMilanoRaffaello Cortina2020168 p.20 cmTemiTraduzione di Diego GuzziLa condizione di straniero è destinata a diffondersi. Ma la mobilità che ci piace celebrare si scontra con le frontiere che gli Stati nazione erigono contro i "migranti", trattati più come nemici che come ospiti. Spinti a compensare l'ostilità dei loro governi, molti cittadini si sono trovati costretti a fare qualcosa: accogliere, sfamare o trasportare viaggiatori in difficoltà. Hanno così ridestato un'antica tradizione antropologica che sembrava sopita: l'ospitalità. Questo modo di entrare in politica aprendo la porta di casa rivela però i suoi limiti. Ogni sistemazione è una goccia d'acqua nell'oceano del peregrinare globale e la benevolenza alla base di questi gesti non può fungere da salvacondotto permanente. Michel Agier ci invita a ripensare l'ospitalità attraverso la lente dell'antropologia, della filosofia e della storia. Se da un lato ne sottolinea le ambiguità, dall'altro ne rivela la capacità di scompaginare l'immaginario nazionale, perché lo straniero che arriva ci obbliga a vedere in modo diverso il posto che occupa ciascuno di noi nel mondo. (Fonte: editore)2001Temi<<L'>>étranger qui vient1756725OspitalitàAntropologia culturaleBNCF302AGIER,Michel657612FAVOLE,AdrianoGUZZI,DiegoITcbaREICAT996658870703316III.2. 1803291947 L.M.III.2.570019III.2. 1803 a291948 L.M.III.2.570020BKUMAÉtranger qui vient1756725UNISA