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200 00$aAgro-Industrial Perspectives on Sugarcane Production under Environmental Stress /$fKrishan K. Verma [and five others], editors
210  1$aSingapore :$cSpringer,$d[2022]
210  4$d©2022
215   $a1 online resource (433 pages)
311 08$aPrint version: Verma, Krishan K. Agro-Industrial Perspectives on Sugarcane Production under Environmental Stress Singapore : Springer,c2023 9789811939549 
320   $aIncludes bibliographical references.
327   $aIntro -- Preface -- Contents -- Editors and Contributors -- About the Editors -- Contributors -- 1: Growth and Development of Sugarcane (Saccharum spp. Hybrid) and Its Relationship with Environmental Factors -- 1.1 Introduction -- 1.2 Germination Stage -- 1.2.1 Temperature -- 1.2.2 Water -- 1.2.3 Air -- 1.3 Seedling Stage -- 1.3.1 Temperature, Moisture, and Nutrition -- 1.4 Tillering Stage -- 1.4.1 Temperature, Sunshine, Soil Moisture, and Nutrients -- 1.5 Elongation Stage -- 1.5.1 Temperature and Water -- 1.6 Maturation Stage -- 1.6.1 Processing Maturation -- 1.7 Physiological Maturation -- 1.8 Conclusion -- References -- 2: Impact of Climate Change on Sucrose Synthesis in Sugarcane Varieties -- 2.1 Introduction -- 2.2 Sucrose Accumulation in Sugarcane -- 2.3 Ambient Air Temperature -- 2.4 Carbon Dioxide (CO2) -- 2.5 Soil Moisture -- 2.6 Sunlight, Photoperiod, and Flowering -- 2.7 Sugar Recovery in Relation to Climate Change -- 2.8 Response of Sugarcane Genotypes to Climatic Factors During the Ripening Phase -- 2.9 Pattern of Sucrose Accumulation Under Rainfed Conditions in Tropics: A Case Study in Thailand -- 2.10 Role of Invertases in Sucrose Accumulation -- 2.11 Effect of Cold Temperature on Sucrose Synthesis -- 2.12 Effect of Flooding on Sucrose Accumulation -- 2.13 Development of Climate-Smart Sugarcane Varieties Through Pre-breeding -- 2.14 Improved Hybrid Derivatives for High Juice Sucrose Content -- 2.15 Sugarcane Crop Prediction Models and Their Applications Under Changing Climate -- 2.16 APSIM (Agricultural Production Systems sIMulator) Model -- 2.17 CANEGRO-Sugarcane Simulation Model -- 2.18 QCANE Sugarcane Simulation Model -- 2.19 Ricardian Model for Impact Analysis of Sugarcane Production Under Dryland and Irrigated Conditions -- 2.20 Predicting Sucrose Yield Through Modeling Approaches -- 2.21 Future Directions -- References.
327   $a3: Impact of Salinity Stress on Sugarcane Yield and Quality: Management Approaches for Higher Cane Sugar Productivity -- 3.1 Introduction -- 3.2 Impact of Salinity on Sugarcane Production and Quality of Juice -- 3.3 Salinity and Jaggery Quality -- 3.4 Molecular Marker for Salinity Tolerance in Sugarcane -- 3.4.1 QTL for the Salinity Tolerance in Sugarcane -- 3.5 Transcriptome Approach to Develop Salinity Tolerance in Sugarcane -- 3.6 Tissue Culture Technique for In Vitro Selection of Salinity Tolerant Sugarcane -- 3.7 Genetic Engineering for Salinity Tolerance in Sugarcane -- 3.8 Management of Sugarcane Production Under Saline Conditions -- 3.9 Conclusion -- References -- 4: Potential Parents for Developing Climate-Resilient Sugarcane Varieties in India: A Breeding Perspective -- 4.1 Introduction -- 4.2 Biotic Stresses -- 4.2.1 Red Rot -- 4.2.1.1 Inheritance of Red Rot Resistance -- 4.2.1.2 Sources of Red Rot Resistance -- 4.2.2 Smut -- 4.2.2.1 Inheritance of Smut Resistance -- 4.2.2.2 Sources of Smut Resistance -- 4.2.3 Yellow Leaf Disease -- 4.2.4 Rust -- 4.3 Abiotic Stress -- 4.3.1 Drought Tolerance -- 4.3.1.1 Source of Drought Tolerance -- 4.3.1.2 Use of Molecular Markers and Transgenic Technology for Drought Tolerance in Sugarcane Improvement -- 4.3.2 Salinity -- 4.3.3 Waterlogging Tolerance -- 4.3.4 High-Temperature Tolerance -- 4.3.5 Winter Ratooning Ability -- 4.4 Conclusion -- References -- 5: Bioactive Silicon: Approach to Enhance Sugarcane Yield Under Stress Environment -- 5.1 Introduction -- 5.1.1 Silicon in Sugarcane -- 5.2 Status of Plant-Available Silicon in Sugarcane -- 5.3 Classification of Si-Rich Materials in Agriculture -- 5.4 Silicon and Pest Management in Sugarcane -- 5.5 Effect of Silicon Fertilization in Water Stress and Salinity Stress Amelioration in Sugarcane.
327   $a5.6 Silicon-Mediated Mechanisms Responsible for Increasing Plant Resistance to Stress -- 5.7 Conclusion -- References -- 6: Anatomy of Tolerance Mechanisms in Sugarcane Crop to Abiotic Stresses -- 6.1 Introduction -- 6.2 Leaf Anatomy and Drought Tolerance -- 6.3 Stomatal Density and Size -- 6.4 Enlargement of Bulliform and Epidermal Cells -- 6.5 Thickening of Leaf Lamina and Cuticle Layer -- 6.6 Other Anatomical Features -- 6.7 Root Anatomical Traits -- 6.8 Reduced Xylem Diameter -- 6.9 Increased Exodermal Layer -- 6.10 Thin-Walled Exodermis -- 6.11 Reduced Cortical Layer -- 6.12 Cortical Lysigenous Aerenchyma -- 6.13 Endodermis with U-Thickening -- 6.14 Sclerification of Pericycle -- 6.15 Conclusion -- References -- 7: Interaction of Plant Growth-Promoting Rhizobacteria with Sugarcane Plants for Alleviating Abiotic Stresses and Improving Cr... -- 7.1 Introduction -- 7.2 Sugarcane Crop -- 7.3 Abiotic Stresses -- 7.4 Plant Growth-Promoting Rhizobacteria (PGPRs) -- 7.5 Mechanisms of PGPRs for Alleviating Abiotic Stresses -- 7.5.1 ACC Deaminase Enzyme Production -- 7.5.2 Abscisic Acid Production -- 7.5.3 Bioremediation of Heavy Toxic Metals -- 7.5.4 Osmoprotectants/Antioxidants Production -- 7.5.5 Expression of Stress-Related Genes and Proteins -- 7.5.6 Expolysaccharide and Biomolecules Production -- 7.5.7 Nutrients Solubilization and Mobilization -- 7.6 Conclusion -- References -- 8: Morpho-Physiological, Biochemical, and Ultrastructural Modifications on Sugarcane to Prolonged Water Deficit -- 8.1 Introduction -- 8.2 Water Deficit -- 8.3 Effect of Agronomic, Physiological, and Molecular Aspects in Sugarcane During Water Stress -- 8.4 Genetic Engineering for Sugarcane Improvement -- 8.5 Stress-Resistance Capacity in Sugarcane Plants -- 8.6 Conclusion -- References -- 9: Impact of Heavy Metal Toxicity on Sugarcane Growth, Development and Productivity.
327   $a9.1 Introduction -- 9.2 Sources of Heavy Metal Exposure to Sugarcane -- 9.3 Mechanism of Heavy Metal Toxicity in Sugarcane -- 9.4 Effects of Heavy Metal Toxicity in Sugarcane -- 9.4.1 Morphological Symptoms -- 9.4.2 Growth, Development and Productivity -- 9.5 Risks in Human -- 9.6 Conclusion -- References -- 10: Defense-Related Proteins in Sugarcane and Their Role in Disease Resistance: Molecular Advancements and Beyond -- 10.1 Introduction -- 10.2 PR-1 Family -- 10.3 PR-2 Family (beta-1,3-Glucanase) -- 10.4 Chitinases (PR-3, PR-4, PR-8, and PR-11 Families) -- 10.5 Thaumatin-Like Proteins (PR-5 Family) -- 10.6 Peptidase Inhibitors (PR-6 Family) -- 10.7 Endoproteinases (PR-7 Family) -- 10.8 Peroxidases (PR-9 Family) -- 10.9 Ribonuclease-Like Proteins (PR-10 Family) -- 10.10 Defensins (PR-12 Family) -- 10.11 Thionins (PR-13 Family) -- 10.12 Lipid-Transfer Proteins (PR-14 Family) -- 10.13 Oxalate Oxidase and Oxalate Oxidase-Like Proteins (PR-15 and PR-16 Family) -- 10.14 PR-17 Family -- 10.15 NBS-LRR Proteins -- 10.16 Glycoproteins -- 10.17 Catalases -- 10.18 WRKY Proteins -- 10.19 Resistance Gene Analogues (RGAs) Markers -- 10.20 Potential of Defense-Related Proteins in Sugarcane -- 10.21 Conclusion -- References -- 11: Impact of Green and Organic Fertilizers on Soil Fertility and Sugarcane Productivity -- 11.1 Introduction -- 11.2 Edaphoclimatic Environments and the Planting of Sugarcane -- 11.3 Organic Fertilization Using Sugar and Alcohol Industry Waste Residues -- 11.4 Organic Fertilization with Poultry Litter -- 11.5 Green Manure -- 11.6 Soil Fertility and Sunn Hemp Growth -- 11.7 Soil Fertility, Liming and Gypsum -- 11.8 Sowing Times of Sunn Hemp -- 11.9 Seed Inoculation of Sunn Hemp -- 11.10 Accumulation of Dry Matter and Nutrients in the Shoots of Sunn Hemp -- 11.11 Sugarcane Production in Areas Previously Cultivated with Sunn Hemp.
327   $a11.12 Conclusions -- References -- 12: Silicon-Induced Mitigation of Low-Temperature Stress in Sugarcane -- 12.1 Introduction -- 12.2 Influence of Silicon on Growth and Biomass Characteristics -- 12.3 Si-Rich Soil Amendments -- 12.4 Application of Si -- 12.4.1 Si-Based Biostimulators -- 12.4.2 The Modified Molybdenum Blue Method -- 12.4.3 Procedure -- 12.5 Conclusion -- References -- 13: Agro-technologies to Sustain Sugarcane Productivity Under Abiotic Stresses -- 13.1 Introduction -- 13.2 Effect of Environmental Stresses on Sugarcane Growth, Yield, and Quality -- 13.2.1 Drought -- 13.2.1.1 Physiological Response of Sugarcane to Drought -- 13.2.1.2 Biochemical Crop Response to Drought -- 13.2.1.3 Drought and Its Impact on Sugarcane Growth, Yield, and Quality -- 13.2.2 Salinity -- 13.2.2.1 Response of Sugarcane to Salinity -- 13.2.3 Heat Stress and Other Climatic Factors -- 13.2.3.1 Effect of Heat Stress and Climatic Variables on Sugarcane Productivity and Quality -- 13.2.4 Light Stress -- 13.2.5 Frost -- 13.2.6 Rainfall -- 13.2.7 Impact of Climatic Change on Sugarcane Crop Growth -- 13.2.8 The Effect of Climate on Ripening -- 13.2.9 Waterlogging -- 13.2.10 Soil Constraint and Its Impact on Sugarcane Growth and Yield -- 13.2.11 Nutrient Stress -- 13.3 Abiotic Stress Management in Sugarcane -- 13.3.1 Soil Reclamation and Special Management Practices -- 13.3.2 Subsoiling -- 13.3.3 Drainage -- 13.3.4 Bio-intensive Modulation of Ratoon Rhizosphere -- 13.3.4.1 Early Planting, Using Higher Seed Rate -- 13.3.4.2 Crop Rotation, Intercropping, and Green Manuring -- 13.3.4.3 Earthing Up -- 13.3.4.4 Planting Methods -- 13.3.4.5 Paired Row Method -- 13.3.4.6 Pit Method -- 13.3.4.7 Subsurface Drip with Twin Rows Method -- 13.3.4.8 Deep Trench System of Planting -- 13.3.4.9 Modified Trench System of Planting with the Application of Gypsum.
327   $a13.4 Use of Tolerant/Resistant Varieties and Setts Treatments for the Management of Abiotic Stresses.
606   $aPlant physiology
606   $aSugarcane
606   $aAgronomy
606   $aCanya de sucre$2thub
606   $aAgricultura$2thub
606   $aFisiologia vegetal$2thub
608   $aLlibres electrònics$2thub
615  0$aPlant physiology.
615  0$aSugarcane.
615  0$aAgronomy.
615  7$aCanya de sucre
615  7$aAgricultura
615  7$aFisiologia vegetal
676   $a633.61
702   $aVerma$b Krishan K.
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910639897303321
996   $aAgro-Industrial Perspectives on Sugarcane Production under Environmental Stress$93003971
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