Verfügbarkeit: Soil water deficit and physiological issues in plants

Soil water deficit and physiological issues in plants:

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Bibliographische Detailangaben
1. Verfasser:	Bhattacharya, Amitav (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Singapore Springer [2021]
Schlagworte:	Plant Physiology Ecology Agriculture Plant physiology Ecology Pflanzenphysiologie Trockenheit Stressresistenz
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	xxi, 702 Seiten Illustrationen, Diagramme
ISBN:	9789813362758 9789813362789

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Datensatz im Suchindex

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adam_text	Contents 1 Effect of Soil Water Deficits on Plant-Water Relationship: A Review......................................................................................................... 1.1 Soil Water Deficit................................................................................ 1.2 Properties of Water............................................................................. 1.2.1 Water Potential.................................................................... 1.3 Absorption and Water Flow Through Plants.................................... 1.3.1 Water Dynamics in Soil-Plant-Atmosphere System. . . 1.3.2 Water Absorption by the Roots........................................ 1.3.3 Ascension of Water Through the Plant: Vascular System................................................................................. 1.3.4 Leaf Water and Transpiration............................................ 1.3.5 Control of Water Transport and Water Productivity by Vapor Pressure Deficit....................................................... 1.3.6 Critical Stages of Crops for Water Stress......................... 1.4 Effects of Soil Water Deficit on MorphologicalCharacteristics. . 1.4.1 Yield and Related Traits.................................................... 1.5 Physiological and Biochemical Aspects of Water in Plants........... 1.5.1 Effects on Plant Growth.................................................... 1.5.2 Changes in Plant Water Relations.................................... 1.5.3 Effects on Photosynthesis................................................. 1.5.4 Effects on Photosynthetic Pigments................................. 1.5.5 Chlorophyll Stability Index............................................... 1.5.6 Membrane Stability Index................................................. 1.5.7 Relative Water Content..................................................... 1.5.8 Epicuticular Wax................................................................ 1.5.9 Stomatal Conductance....................................................... 1.5.10 Transpiration Rate........................................................ 1.5.11 Poly Phenol Oxidase.......................................................... 1.5.12 Active Oxygen Species..................................................... 1.6 Morphological and Anatomical Characteristics Associated with Water Control...................................................................................... 1.7 Water Use Efficiency.......................................................................... 1.7.1 Increasing Water Use Efficiency byAbscisic Acid.... ] 2 5 8 9 10 12 15 16 18 19 20 21 22 25 28 30 32 33 34 34 35 36 38 39 39 40 43 47 xi Contents 1.7.2 Soil Moisture Storage and Water Use Efficiency........... 49 1.7.3 Water Use Efficiency Under Deficit Irrigation.......... 49 1.7.4 Effect of Mineral Nitrogen on Water Use Efficiency ... 50 1.8 Elements that Define Water Demand in Plant........................... 51 1.8.1 Stomata Metabolism.................................................... 51 1.8.2 Hormonal and Molecular Responses in Different Water Conditions.................................................................. 52 1.9 Effect of Silicon for Tolerance to Soil Water Deficit....................... 52 1.10 Effect of Potassium Application During Growth Stages.................. 54 1.11 Aquaporins............................................................................................. 55 1.11.1 The Role of Gatekeeper Cells and Apoplastic Barriers.................................................................................. 57 1.11.2 Role of Aquaporins in Leaf Hydraulic Conductivity ... 57 1.12 Mechanisms of Resistance to Soil Water Deficit.............................. 57 1.12.1 Water Deficit at Germination Stage................................... 58 1.12.2 Water Deficit at VegetativeStage....................................... 59 1.13 Mechanisms for the Regulation of Plant Water Status..................... 60 1.13.1 Root-to-Shool Communication.......................................... 60 1.13.2 Responses of Stomata Guard Cells.................................... 61 1.13.3 Irrigation Scheduling........................................................... 62 1.13.4 Enhancing System Productivity........................................... 63 1.14 Future of Water Relations of Plant..................................................... 64 References.......................................................................................................... 65 Effects of Soil Water Deficit on Carbon Metabolism of Plants: A Review........................................................................................................... .1 Soil Water............................................................................................... .2 Photosynthesis........................................................................................ 2.2.1 Photosynthetic Rates........................................................... 2.3 Light Reaction....................................................................................... 2.4 Photosynthesis and Water Availability.............................................. 2.4.1 Response to Soil Water Deficit.......................................... 2.4.2 C02 Fixation Under Soil Water Deficit............................ 2.4.3 C3 Vs C4 Species................................................................ 2.4.4 Physiological Advantages of C4 Grasses......................... 2.4.5 Interaction Between Soil Water Deficit and CC)2.Supply.......................................................................... 2.4.6 Allocation of Recently Fixed C02.................................... 2.5 Water Deficit-Induced Changes.......................................................... 2.5.1 Soil Water Deficit and Photosynthesis.............................. 2.5.2 Effects on Photosynthetic Pigments.................................. 2.5.3 Effects on Photosystems..................................................... 2.5.4 Effects on Gas-Exchange Characteristics......................... 2.5.5 Association Between Photosynthesis and Yield.............. 2.5.6 Effects on Activities of Key Photosynthetic Enzymes . . t O t-o 2 99 100 102 106 112 114 117 121 123 124 125 126 127 127 128 131 134 136 138 Contents Improvement Under Soil Water Deficit by Engineering Related Genes or Transcription Factors.......................................................... 2.6.1 Transfer of C4 Genes/Traits to C3 Plants......................... 2.6.2 Role of Transcription Factors in Regulation of Genes Involved in Photosynthesis................................................ 2.7 Alleviation of Soil Water Deficit on Photosynthesis....................... 2.7.1 Promoting Plant Growth and Development..................... 2.7.2 Long Soil Water Deficit and Acclimation of Water Deficit Sensitivity............................................... 2.7.3 Opportunities and Challenges............................................ 2.7.4 Increasing Pholosynlhetie Carbon Assimilation in C3 Plants.......................................................................... 2.8 Photorcspiralion.................................................................................... 2.9 Effect of Soil Water Delicii on Photorcspiralion.............................. 2.9.1 Photorespiration in C4 Plants Subjected to Water Delicit................................................................... 2.10 Respiration............................................................................................ 2.1 1 Effect of Soil Water Delicii on Respiration....................................... 2.1 1.1 Effect of Soil Water Delicit on Respiration Rates of Plant Organs.................................................................... References......................................................................................................... xiii 2.6 3 Effect of Soil Water Deficit on Nitrogen Metabolism in Plants: A Review.......................................................................................................... 3.1 Importance of Nitrogen Nutrition....................................................... 3.2 Biological Nitrogen Fixation.............................................................. 3.2.1 Soil Water Delicit and Soil Nitrogen Transformation Processes.............................................................................. 3.3 Nitrogen Nutrition Under Soil Water Deficit.................................... 3.3.1 Nitrogen Nutrition and Plant-Water Relationship........... 3.3.2 Soil Water Delicit and Nitrogen Nutrition Dynamics. . . .3.4 Foliar Application of Nitrogen............................................................ .3.5 Impact of Water Delicit on Nitrogen Supply. Acquisition............... .3.6 Nitrate Reduction............................................................................ 3.7 Nitrogen Assimilation..................................................................... 3.7.1 Nitrogen Assimilation and Amino Acid Metabolism 3.7.2 Glutamine and Ammoniti Assimilation....................... 3.7.3 Glutamine Synthetase (GSl and Glutamate Synthase (GOGAI)........................................................................ 3.7.4 Remobili/alion of Nitrogen to Grains......................... 3.8 Soil Water Deficit and Free Amino Acids................................... 3.X.I Glycine Betaine (GBi.................................................... 3.9 Soil Water Deficit Protein Synthesis............................................. 3.9.1 Effect of Soil Water Delicit in Protein Synthesis at Transcription Lesel........................................................ 126 140 141 142 144 145 146 147 150 154 154 155 158 160 161 163 164 167 204 206 211 212 213 214 Contents XIV 3.9.2 4 Effect of Soil Water Deficit in Protein Synthesis at Translation Level................................................................. 3.9.3 Drought-Responsive Protein Synthesis and Turnover. . 3.10 Nitrogen Distribution in Plant Parts................................................... 3.11 Soil Water Deficit and Protein Hydrolysis........................................ 3.12 Soil Water Deficit and Protein Yield................................................. References......................................................................................................... 236 239 240 244 248 251 Mineral Nutrition of Plants Under Soil Water Deficit Condition: A Review.......................................................................................................... 4.1 Importance of Mineral Nutrition......................................................... 4.2 Macronutrients (Primary).................................................................... 4.2.1 Nitrogen............................................................................... 4.2.2 Phosphorus........................................................................... 4.2.3 Potassium............................................................................. 4.3 Macronutrients (Secondary and Tertiary).......................................... 4.3.1 Sulfur.................................................................................... 4.3.2 Calcium................................................................................ 4.3.3 Magnesium.......................................................................... 4.3.4 Silicon.................................................................................. 4.4 Micronutrients...................................................................................... 4.4.1 Iron....................................................................................... 4.4.2 Molybdenum....................................................................... 4.4.3 Boron................................................................................... 4.4.4 Copper................................................................................. 4.4.5 Manganese........................................................................... 4.4.6 Zinc...................................................................................... 4.4.7 Chlorine............................................................................... 4.4.8 Cobalt................................................................................... 4.4.9 Nickel................................................................................... 4.4.10 Aluminum............................................................................ 4.4.11 Selenium.............................................................................. 4.4.12 Sodium................................................................................. 4.5 Factors Affecting Nutrient Absorptionfrom Soil.............................. 4.5.1 Soil Texture......................................................................... 4.5.2 Soil Microorganisms.......................................................... 4.5.3 Soil pH................................................................................ 4.5.4 Nutrient Availability.......................................................... 4.5.5 Soil Moisture Content........................................................ 4.5.6 Extreme Soil Water Deficit............................................... 4.5.7 Soil Aeration....................................................................... 4.5.8 Soil Temperature................................................................ 4.5.9 Plant Condition................................................................... 4.5.10 Competition........................................................................ 4.6 Inter-Relationships Between Nutrient Elements.............................. 287 288 291 291 294 297 301 301 302 303 304 306 306 307 308 308 309 309 310 311 311 311 312 313 314 314 315 315 316 317 319 319 320 321 322 323 Contents XV 4.6.1 4.6.2 4.6.3 4.6.4 Interaction of Nitrogen Nutrition....................................... Interactions of Phosphorus Nutrition............................... Interaction of Potassium Nutrition................................... Interactions of Calcium, Magnesium, and Sulfur Nutrition.............................................................................. 4.6.5 Interactions of Micronutrient Nutrition............................ 4.6.6 Interaction of Iron Nutrition............................................. 4.6.7 Interaction of Manganese Nutrition.................................. 4.6.8 Interactions of Copper Nutrition....................................... 4.6.9 Interactions of Zinc Nutrition........................................... 4.6.10 Interactions of Boron Nutrition........................................ 4.6.11 Interactions of Molybdenum Nutrition.............................. 4.7 Effect of Soil Water Deficit on Nutrient Mobility and Uptake. . . 4.8 Nutrient Deficiency............................................................................. 4.8.1 Nitrogen.............................................................................. 4.8.2 Phosphorus......................................................................... 4.8.3 Potassium............................................................................ 4.8.4 Iron...................................................................................... 4.8.5 Calcium............................................................................... 4.8.6 Magnesium......................................................................... 4.8.7 Boron.................................................................................. 4.8.8 Chlorine.............................................................................. 4.8.9 Copper................................................................................. 4.8.10 Manganese.......................................................................... 4.8.11 Molybdenum...................................................................... 4.8.12 Nickel.................................................................................. 4.8.13 Zinc..................................................................................... 4.9 Toxicity of Mineral Elements............................................................ 4.10 Role of Mineral Nutrition Against Environmental Stresses............ 4.11 Role of Mineral Nutrition Against Soil Water Deficit..................... 4.12 Nitrogen Nutrition Under Soil Water Deficit................................... 4.12.1 Effect on Soil Nitrogen Transformation Processes. ... 4.12.2 Transport of Nitrogen to the Roots, Mass Flow and Diffusion............................................................................. 4.12.3 Effect on Nitrogen Movement Through Xylem.............. 4.12.4 Remobilization of Nitrogen to Grains Under Soil Water Deficit.............................................................. 4.13 Phosphorus Nutrition Under Soil Water Deficit.............................. 4.14 Potassium and Soil Water Deficit...................................................... 4.14.1 Cell Elongation and Cell Membrane Stability................. 4.14.2 Role of Potassium in Aquaporins and Water Uptake.. . 4.14.3 Potassium and Osmotic Adjustment in Plants.................. 4.14.4 Potassium and Stomatal Regulation................................. 324 325 325 326 326 327 327 328 328 329 329 329 333 334 334 334 335 335 336 336 337 337 337 338 338 338 339 342 345 350 351 352 353 353 354 355 355 356 356 356 xvi Contents 4.14.5 Potassium and Detoxification of Reactive Oxygen Species.................................................................................... 357 4.15 Strategies for Solving the Problem of Soil Water Deficit................ 359 4.16 Conclusion and Future Prospects.......................................................... 360 References........................................................................................................... 361 5 Effect of Soil Water Deficit on Growth and Development of Plants: A Review............................................................................................................ 393 5.1 Growth and Development inPlants..................................................... 394 5.2 Essentiality of Water.............................................................................. 396 5.2.1 Water Requirement............................................................. 398 5.2.2 Water Availability and Activity of Cambium.................. 399 5.2.3 Effect of Extreme Precipitation............................................ 400 5.2.4 Factors Regulating the Effects of Redistributed Precipitation......................................................................... 401 5.2.5 How Might Plants Respond to SoilWater Content? . . . 401 5.3 Growth and Development................................................................... 402 5.3.1 Germination......................................................................... 407 5.3.2 Seedling Growth.................................................................... 410 5.3.3 Growth and Development of Seedlings............................ 414 5.3.4 Phenology.............................................................................. 418 5.4 Resistance to Soil Water Deficit........................................................... 422 5.5 Understanding Soil Water Deficit by Plants........................................ 424 5.6 Physiological Response to Soil Water Deficit..................................... 425 5.6.1 Root Signaling Under Soil WaterDeficit............................ 426 5.6.2 Photosynthesis..................................................................... 426 5.6.3 Chlorophyll Contents.......................................................... 427 5.6.4 Water Relations................................................................... 428 5.6.5 Osmolyte Accumulation.................................................... 429 5.6.6 Molecular Responses to Water Deficit............................... 430 5.6.7 Reactive Oxygen Species..................................................... 430 5.6.8 Antioxidant Enzymes......................................................... 431 5.7 Mechanism of Soil Water Deficit Resistance................................... 432 5.7.1 Soil Water Deficit at Germination Stage............................ 432 5.7.2 Soil Water Deficit in Vegetative Stage............................... 433 5.8 Adaptive Strategies in Plants Against Soil Water Deficit: Multivariate Genetic Analysis.............................................................. 435 5.9 Soil Water Deficit and Biomass Accumulation................................ 436 5.10 Soil Water Deficit Helps to Increase Productivity........................... 440 5.10.1 Postharvest Water Deficit.................................................... 441 5.10.2 Water Limitation During Fruit Growth.............................. 441 5.11 Soil Water Deficit and Quality of Fleshy Fruits............................... 442 5.11.1 Effect of Water Deficit on Fruit Development and Growth Processes.......................................................... 443 5.11.2 The Effect of Water Deficit on Fruit Texture.................... 443 Contents xvii 5.11.3 The Effect of Water Deficit on Fruit Taste Relative to Sugar and Acid Content................................................ 5.12 Management Strategies for Soil Water Deficit................................. 5.12.1 Molecular and FunctionalGenomics Approaches............ 5.12.2 Induction of Resistance toSoil Water Deficit................... References....................................................................................................... 6 Role of Plant Growth Hormones During Soil Water Deficit: A Review........................................................................................................ 6.1 Plant Growth Hormones.................................................................... 6.2 Classes of Plant Growth Hormones.................................................. 6.2.1 Abscisic Acid..................................................................... 6.2.2 Auxins................................................................................. 6.2.3 Brassinosteroids................................................................. 6.2.4 Cytokinins.......................................................................... 6.2.5 Ethylene.............................................................................. 6.2.6 Gibberellins........................................................................ 6.2.7 Jasmonates.......................................................................... 6.2.8 Salicylic Acid..................................................................... 6.2.9 Strigolactones..................................................................... 6.3 Growth Regulators Under Environmental Stresses.......................... 6.4 Plant Growth Regulators and Plant Growth Under Soil Water Deficit....................................................................................... 6.5 Effects of Plant Growth Regulatorson Crop Growth.................... 6.5.1 Germination........................................................................ 6.5.2 Root Growth....................................................................... 6.5.3 Nutrient Uptake, Mobilization, and Translocation.......... 6.5.4 Effect on Seed Yield and Quality of Grains.................... 6.6 Growth Regulator Induced Adaptation Under Soil Water Deficit.................................................................................................. 6.6.1 Abscisic Acid..................................................................... 6.6.2 Jasmonic Acid.................................................................... 6.6.3 Salicylic Acid..................................................................... 6.6.4 Ethylene.............................................................................. 6.6.5 Cytokinins.......................................................................... 6.6.6 Gibberellins........................................................................ 6.6.7 Indole Acetic Acid............................................................. 6.6.8 Brassinosteroids................................................................. 6.6.9 Polyamines......................................................................... 6.6.10 Humic Acid........................................................................ 6.7 Effect of Growth Hormones on Tolerance/Resistance to Soil Water Deficit........................................................................... 6.7.1 Legume Crops.................................................................... 6.7.2 C4 Crops............................................................................. 6.7.3 Horticultural Crop.............................................................. 444 445 450 450 454 489 491 494 495 495 496 496 497 498 499 500 501 502 504 507 511 513 515 517 520 521 523 524 526 528 529 530 531 533 533 534 538 539 542 Contents xviii 6.8 Enhancing Tolerance to Soil Water Deficit Through Growth Hormones............................................................................................... 6.9 Conclusions and Future Perspectives................................................. References......................................................................................................... 7 544 546 548 Dry Matter Production, Partitioning, and Seed Yield Under Soil Water Deficit: A Review................................................................................ 585 7.1 Dry Matter Production......................................................................... 587 7.2 Mechanism of Resistance to Soil Water Deficit............................... 588 7.2.1 Soil Water Deficit in Germination Stage.......................... 589 7.2.2 Soil Water Deficit in Vegetative Stage............................. 590 7.2.3 Soil Water Deficit and Reproductive Stage..................... 590 7.3 Strategies for Improving Total Dry Matter Yield Against Soil Water Deficit. . . ......................................................................... 591 7.3.1 Agronomic Strategies.......................................................... 591 7.3.2 Seeding Time and Planting Geometry.............................. 592 7.3.3 Root System Architecture.................................................. 593 7.3.4 Shoot Architecture and Stay Green Phenotypes.............. 594 7.3.5 Deficit Irrigation.................................................................. 594 7.3.6 Nutrient Management......................................................... 595 7.3.7 Plant Growth-Promoting Rhizobacteria and Arbuscular Mycorrhizal Fungal Inoculation.................... 596 7.3.8 Conventional Breeding....................................................... 597 7.3.9 Modem Breeding................................................................ 598 7.3.10 Transgenic Approach. ...................................................... 600 7.4 Dry Matter Partitioning................................................................... 601 7.5 Carbon Partitioning and Acclimation to Soil Water Deficit....... 604 7.6 Dry Matter Partitioning as Affected by Soil Water Deficit........ 605 7.7 Water Productivity.......................................................................... 607 7.7.1 Relationship Between Yield Loss and Potential Deficit.................................................................................. 607 7.7.2 Partitioning to Grain........................................................... 609 7.7.3 Water Deficit and Remobilization..................................... 610 7.8 Plant Growth and Carbon Partitioning......................................... 612 7.8.1 Carbon Partitioning in Different Plant Parts....................... 613 7.9 Harvest Index Related to Temporal Patterns of Transpiration .... 614 7.9.1 Harvest Index not Related to Temporal Patterns of Transpiration.................................................................. 615 7.10 Effect of Soil Water Deficit on Assimilate Partitioning............. 617 7.11 Seed Yield...................................................................................... 618 7.11.1 Soil Water Deficit and Yield Structure............................. 618 7.11.2 Relationship of Seed Yield with Water............................ 623 7.12 Effect of Soil Water Deficit on Seed Yield of Different Crops . . . 628 7.12.1 Wheat and Barley............................................................... 630 7.12.2 Maize................................................................................... 632 Contents 7.12.3 Rice...................................................................................... 7.12.4 Oil Seed Crops................................................................... 7.12.5 Sunflower............................................................................ 7.12.6 Groundnut........................................................................... 7.12.7 Sugarcane........................................................................... 7.12.8 Millets................................................................................. 7.12.9 Legumes............................................................................. 7.12.10 Soybean.............................................................................. 7.12.11 Cotton................................................................................. 7.12.12 Tobacco.............................................................................. 7.12.13 Vegetable and Other Horticultural Crops........................ 7.13 Physiological Traits Associated with Improvement in Grain Yield.................................................................................................... 7.13.1 Time to Flowering and Plant Height................................ 7.13.2 Dry Matter Production and Its Partitioning..................... 7.13.3 Yield Potential Versus Water Deficit Adaptation: GE Interaction.................................................................... 7.14 Physiological Avenues for Increasing Yield Potential.................... 7.14.1 Increasing Radiation Use Efficiency................................ 7.14.2 Increasing Water Use Efficiency...................................... 7.14.3 Biomass Increase............................................................... 7.14.4 Phenological Adjustment.................................................. 7.14.5 Tolerance to Soil Water Deficit........................................ 7.14.6 Enhancing Tolerance to Soil Water Deficit in C4 Plants........................................................................ 7.15 Future Research Perspectives............................................................. References....................................................................................................... XIX 634 634 636 637 638 639 640 641 642 643 645 648 649 650 650 651 651 653 654 654 655 656 656 657
adam_txt	Contents 1 Effect of Soil Water Deficits on Plant-Water Relationship: A Review. 1.1 Soil Water Deficit. 1.2 Properties of Water. 1.2.1 Water Potential. 1.3 Absorption and Water Flow Through Plants. 1.3.1 Water Dynamics in Soil-Plant-Atmosphere System. . . 1.3.2 Water Absorption by the Roots. 1.3.3 Ascension of Water Through the Plant: Vascular System. 1.3.4 Leaf Water and Transpiration. 1.3.5 Control of Water Transport and Water Productivity by Vapor Pressure Deficit. 1.3.6 Critical Stages of Crops for Water Stress. 1.4 Effects of Soil Water Deficit on MorphologicalCharacteristics. . 1.4.1 Yield and Related Traits. 1.5 Physiological and Biochemical Aspects of Water in Plants. 1.5.1 Effects on Plant Growth. 1.5.2 Changes in Plant Water Relations. 1.5.3 Effects on Photosynthesis. 1.5.4 Effects on Photosynthetic Pigments. 1.5.5 Chlorophyll Stability Index. 1.5.6 Membrane Stability Index. 1.5.7 Relative Water Content. 1.5.8 Epicuticular Wax. 1.5.9 Stomatal Conductance. 1.5.10 Transpiration Rate. 1.5.11 Poly Phenol Oxidase. 1.5.12 Active Oxygen Species. 1.6 Morphological and Anatomical Characteristics Associated with Water Control. 1.7 Water Use Efficiency. 1.7.1 Increasing Water Use Efficiency byAbscisic Acid. ] 2 5 8 9 10 12 15 16 18 19 20 21 22 25 28 30 32 33 34 34 35 36 38 39 39 40 43 47 xi Contents 1.7.2 Soil Moisture Storage and Water Use Efficiency. 49 1.7.3 Water Use Efficiency Under Deficit Irrigation. 49 1.7.4 Effect of Mineral Nitrogen on Water Use Efficiency . 50 1.8 Elements that Define Water Demand in Plant. 51 1.8.1 Stomata Metabolism. 51 1.8.2 Hormonal and Molecular Responses in Different Water Conditions. 52 1.9 Effect of Silicon for Tolerance to Soil Water Deficit. 52 1.10 Effect of Potassium Application During Growth Stages. 54 1.11 Aquaporins. 55 1.11.1 The Role of Gatekeeper Cells and Apoplastic Barriers. 57 1.11.2 Role of Aquaporins in Leaf Hydraulic Conductivity . 57 1.12 Mechanisms of Resistance to Soil Water Deficit. 57 1.12.1 Water Deficit at Germination Stage. 58 1.12.2 Water Deficit at VegetativeStage. 59 1.13 Mechanisms for the Regulation of Plant Water Status. 60 1.13.1 Root-to-Shool Communication. 60 1.13.2 Responses of Stomata Guard Cells. 61 1.13.3 Irrigation Scheduling. 62 1.13.4 Enhancing System Productivity. 63 1.14 Future of Water Relations of Plant. 64 References. 65 Effects of Soil Water Deficit on Carbon Metabolism of Plants: A Review. .1 Soil Water. .2 Photosynthesis. 2.2.1 Photosynthetic Rates. 2.3 Light Reaction. 2.4 Photosynthesis and Water Availability. 2.4.1 Response to Soil Water Deficit. 2.4.2 C02 Fixation Under Soil Water Deficit. 2.4.3 C3 Vs C4 Species. 2.4.4 Physiological Advantages of C4 Grasses. 2.4.5 Interaction Between Soil Water Deficit and CC)2.Supply. 2.4.6 Allocation of Recently Fixed C02. 2.5 Water Deficit-Induced Changes. 2.5.1 Soil Water Deficit and Photosynthesis. 2.5.2 Effects on Photosynthetic Pigments. 2.5.3 Effects on Photosystems. 2.5.4 Effects on Gas-Exchange Characteristics. 2.5.5 Association Between Photosynthesis and Yield. 2.5.6 Effects on Activities of Key Photosynthetic Enzymes . . t'O t-o 2 99 100 102 106 112 114 117 121 123 124 125 126 127 127 128 131 134 136 138 Contents Improvement Under Soil Water Deficit by Engineering Related Genes or Transcription Factors. 2.6.1 Transfer of C4 Genes/Traits to C3 Plants. 2.6.2 Role of Transcription Factors in Regulation of Genes Involved in Photosynthesis. 2.7 Alleviation of Soil Water Deficit on Photosynthesis. 2.7.1 Promoting Plant Growth and Development. 2.7.2 Long Soil Water Deficit and Acclimation of Water Deficit Sensitivity. 2.7.3 Opportunities and Challenges. 2.7.4 Increasing Pholosynlhetie Carbon Assimilation in C3 Plants. 2.8 Photorcspiralion. 2.9 Effect of Soil Water Delicii on Photorcspiralion. 2.9.1 Photorespiration in C4 Plants Subjected to Water Delicit. 2.10 Respiration. 2.1 1 Effect of Soil Water Delicii on Respiration. 2.1 1.1 Effect of Soil Water Delicit on Respiration Rates of Plant Organs. References. xiii 2.6 3 Effect of Soil Water Deficit on Nitrogen Metabolism in Plants: A Review. 3.1 Importance of Nitrogen Nutrition. 3.2 Biological Nitrogen Fixation. 3.2.1 Soil Water Delicit and Soil Nitrogen Transformation Processes. 3.3 Nitrogen Nutrition Under Soil Water Deficit. 3.3.1 Nitrogen Nutrition and Plant-Water Relationship. 3.3.2 Soil Water Delicit and Nitrogen Nutrition Dynamics. . . .3.4 Foliar Application of Nitrogen. .3.5 Impact of Water Delicit on Nitrogen Supply. Acquisition. .3.6 Nitrate Reduction. 3.7 Nitrogen Assimilation. 3.7.1 Nitrogen Assimilation and Amino Acid Metabolism 3.7.2 Glutamine and Ammoniti Assimilation. 3.7.3 Glutamine Synthetase (GSl and Glutamate Synthase (GOGAI). 3.7.4 Remobili/alion of Nitrogen to Grains. 3.8 Soil Water Deficit and Free Amino Acids. 3.X.I Glycine Betaine (GBi. 3.9 Soil Water Deficit Protein Synthesis. 3.9.1 Effect of Soil Water Delicit in Protein Synthesis at Transcription Lesel. 126 140 141 142 144 145 146 147 150 154 154 155 158 160 161 163 164 167 204 206 211 212 213 214 Contents XIV 3.9.2 4 Effect of Soil Water Deficit in Protein Synthesis at Translation Level. 3.9.3 Drought-Responsive Protein Synthesis and Turnover. . 3.10 Nitrogen Distribution in Plant Parts. 3.11 Soil Water Deficit and Protein Hydrolysis. 3.12 Soil Water Deficit and Protein Yield. References. 236 239 240 244 248 251 Mineral Nutrition of Plants Under Soil Water Deficit Condition: A Review. 4.1 Importance of Mineral Nutrition. 4.2 Macronutrients (Primary). 4.2.1 Nitrogen. 4.2.2 Phosphorus. 4.2.3 Potassium. 4.3 Macronutrients (Secondary and Tertiary). 4.3.1 Sulfur. 4.3.2 Calcium. 4.3.3 Magnesium. 4.3.4 Silicon. 4.4 Micronutrients. 4.4.1 Iron. 4.4.2 Molybdenum. 4.4.3 Boron. 4.4.4 Copper. 4.4.5 Manganese. 4.4.6 Zinc. 4.4.7 Chlorine. 4.4.8 Cobalt. 4.4.9 Nickel. 4.4.10 Aluminum. 4.4.11 Selenium. 4.4.12 Sodium. 4.5 Factors Affecting Nutrient Absorptionfrom Soil. 4.5.1 Soil Texture. 4.5.2 Soil Microorganisms. 4.5.3 Soil pH. 4.5.4 Nutrient Availability. 4.5.5 Soil Moisture Content. 4.5.6 Extreme Soil Water Deficit. 4.5.7 Soil Aeration. 4.5.8 Soil Temperature. 4.5.9 Plant Condition. 4.5.10 Competition. 4.6 Inter-Relationships Between Nutrient Elements. 287 288 291 291 294 297 301 301 302 303 304 306 306 307 308 308 309 309 310 311 311 311 312 313 314 314 315 315 316 317 319 319 320 321 322 323 Contents XV 4.6.1 4.6.2 4.6.3 4.6.4 Interaction of Nitrogen Nutrition. Interactions of Phosphorus Nutrition. Interaction of Potassium Nutrition. Interactions of Calcium, Magnesium, and Sulfur Nutrition. 4.6.5 Interactions of Micronutrient Nutrition. 4.6.6 Interaction of Iron Nutrition. 4.6.7 Interaction of Manganese Nutrition. 4.6.8 Interactions of Copper Nutrition. 4.6.9 Interactions of Zinc Nutrition. 4.6.10 Interactions of Boron Nutrition. 4.6.11 Interactions of Molybdenum Nutrition. 4.7 Effect of Soil Water Deficit on Nutrient Mobility and Uptake. . . 4.8 Nutrient Deficiency. 4.8.1 Nitrogen. 4.8.2 Phosphorus. 4.8.3 Potassium. 4.8.4 Iron. 4.8.5 Calcium. 4.8.6 Magnesium. 4.8.7 Boron. 4.8.8 Chlorine. 4.8.9 Copper. 4.8.10 Manganese. 4.8.11 Molybdenum. 4.8.12 Nickel. 4.8.13 Zinc. 4.9 Toxicity of Mineral Elements. 4.10 Role of Mineral Nutrition Against Environmental Stresses. 4.11 Role of Mineral Nutrition Against Soil Water Deficit. 4.12 Nitrogen Nutrition Under Soil Water Deficit. 4.12.1 Effect on Soil Nitrogen Transformation Processes. . 4.12.2 Transport of Nitrogen to the Roots, Mass Flow and Diffusion. 4.12.3 Effect on Nitrogen Movement Through Xylem. 4.12.4 Remobilization of Nitrogen to Grains Under Soil Water Deficit. 4.13 Phosphorus Nutrition Under Soil Water Deficit. 4.14 Potassium and Soil Water Deficit. 4.14.1 Cell Elongation and Cell Membrane Stability. 4.14.2 Role of Potassium in Aquaporins and Water Uptake. . 4.14.3 Potassium and Osmotic Adjustment in Plants. 4.14.4 Potassium and Stomatal Regulation. 324 325 325 326 326 327 327 328 328 329 329 329 333 334 334 334 335 335 336 336 337 337 337 338 338 338 339 342 345 350 351 352 353 353 354 355 355 356 356 356 xvi Contents 4.14.5 Potassium and Detoxification of Reactive Oxygen Species. 357 4.15 Strategies for Solving the Problem of Soil Water Deficit. 359 4.16 Conclusion and Future Prospects. 360 References. 361 5 Effect of Soil Water Deficit on Growth and Development of Plants: A Review. 393 5.1 Growth and Development inPlants. 394 5.2 Essentiality of Water. 396 5.2.1 Water Requirement. 398 5.2.2 Water Availability and Activity of Cambium. 399 5.2.3 Effect of Extreme Precipitation. 400 5.2.4 Factors Regulating the Effects of Redistributed Precipitation. 401 5.2.5 How Might Plants Respond to SoilWater Content? . . . 401 5.3 Growth and Development. 402 5.3.1 Germination. 407 5.3.2 Seedling Growth. 410 5.3.3 Growth and Development of Seedlings. 414 5.3.4 Phenology. 418 5.4 Resistance to Soil Water Deficit. 422 5.5 Understanding Soil Water Deficit by Plants. 424 5.6 Physiological Response to Soil Water Deficit. 425 5.6.1 Root Signaling Under Soil WaterDeficit. 426 5.6.2 Photosynthesis. 426 5.6.3 Chlorophyll Contents. 427 5.6.4 Water Relations. 428 5.6.5 Osmolyte Accumulation. 429 5.6.6 Molecular Responses to Water Deficit. 430 5.6.7 Reactive Oxygen Species. 430 5.6.8 Antioxidant Enzymes. 431 5.7 Mechanism of Soil Water Deficit Resistance. 432 5.7.1 Soil Water Deficit at Germination Stage. 432 5.7.2 Soil Water Deficit in Vegetative Stage. 433 5.8 Adaptive Strategies in Plants Against Soil Water Deficit: Multivariate Genetic Analysis. 435 5.9 Soil Water Deficit and Biomass Accumulation. 436 5.10 Soil Water Deficit Helps to Increase Productivity. 440 5.10.1 Postharvest Water Deficit. 441 5.10.2 Water Limitation During Fruit Growth. 441 5.11 Soil Water Deficit and Quality of Fleshy Fruits. 442 5.11.1 Effect of Water Deficit on Fruit Development and Growth Processes. 443 5.11.2 The Effect of Water Deficit on Fruit Texture. 443 Contents xvii 5.11.3 The Effect of Water Deficit on Fruit Taste Relative to Sugar and Acid Content. 5.12 Management Strategies for Soil Water Deficit. 5.12.1 Molecular and FunctionalGenomics Approaches. 5.12.2 Induction of Resistance toSoil Water Deficit. References. 6 Role of Plant Growth Hormones During Soil Water Deficit: A Review. 6.1 Plant Growth Hormones. 6.2 Classes of Plant Growth Hormones. 6.2.1 Abscisic Acid. 6.2.2 Auxins. 6.2.3 Brassinosteroids. 6.2.4 Cytokinins. 6.2.5 Ethylene. 6.2.6 Gibberellins. 6.2.7 Jasmonates. 6.2.8 Salicylic Acid. 6.2.9 Strigolactones. 6.3 Growth Regulators Under Environmental Stresses. 6.4 Plant Growth Regulators and Plant Growth Under Soil Water Deficit. 6.5 Effects of Plant Growth Regulatorson Crop Growth. 6.5.1 Germination. 6.5.2 Root Growth. 6.5.3 Nutrient Uptake, Mobilization, and Translocation. 6.5.4 Effect on Seed Yield and Quality of Grains. 6.6 Growth Regulator Induced Adaptation Under Soil Water Deficit. 6.6.1 Abscisic Acid. 6.6.2 Jasmonic Acid. 6.6.3 Salicylic Acid. 6.6.4 Ethylene. 6.6.5 Cytokinins. 6.6.6 Gibberellins. 6.6.7 Indole Acetic Acid. 6.6.8 Brassinosteroids. 6.6.9 Polyamines. 6.6.10 Humic Acid. 6.7 Effect of Growth Hormones on Tolerance/Resistance to Soil Water Deficit. 6.7.1 Legume Crops. 6.7.2 C4 Crops. 6.7.3 Horticultural Crop. 444 445 450 450 454 489 491 494 495 495 496 496 497 498 499 500 501 502 504 507 511 513 515 517 520 521 523 524 526 528 529 530 531 533 533 534 538 539 542 Contents xviii 6.8 Enhancing Tolerance to Soil Water Deficit Through Growth Hormones. 6.9 Conclusions and Future Perspectives. References. 7 544 546 548 Dry Matter Production, Partitioning, and Seed Yield Under Soil Water Deficit: A Review. 585 7.1 Dry Matter Production. 587 7.2 Mechanism of Resistance to Soil Water Deficit. 588 7.2.1 Soil Water Deficit in Germination Stage. 589 7.2.2 Soil Water Deficit in Vegetative Stage. 590 7.2.3 Soil Water Deficit and Reproductive Stage. 590 7.3 Strategies for Improving Total Dry Matter Yield Against Soil Water Deficit. . . . 591 7.3.1 Agronomic Strategies. 591 7.3.2 Seeding Time and Planting Geometry. 592 7.3.3 Root System Architecture. 593 7.3.4 Shoot Architecture and Stay Green Phenotypes. 594 7.3.5 Deficit Irrigation. 594 7.3.6 Nutrient Management. 595 7.3.7 Plant Growth-Promoting Rhizobacteria and Arbuscular Mycorrhizal Fungal Inoculation. 596 7.3.8 Conventional Breeding. 597 7.3.9 Modem Breeding. 598 7.3.10 Transgenic Approach. . 600 7.4 Dry Matter Partitioning. 601 7.5 Carbon Partitioning and Acclimation to Soil Water Deficit. 604 7.6 Dry Matter Partitioning as Affected by Soil Water Deficit. 605 7.7 Water Productivity. 607 7.7.1 Relationship Between Yield Loss and Potential Deficit. 607 7.7.2 Partitioning to Grain. 609 7.7.3 Water Deficit and Remobilization. 610 7.8 Plant Growth and Carbon Partitioning. 612 7.8.1 Carbon Partitioning in Different Plant Parts. 613 7.9 Harvest Index Related to Temporal Patterns of Transpiration . 614 7.9.1 Harvest Index not Related to Temporal Patterns of Transpiration. 615 7.10 Effect of Soil Water Deficit on Assimilate Partitioning. 617 7.11 Seed Yield. 618 7.11.1 Soil Water Deficit and Yield Structure. 618 7.11.2 Relationship of Seed Yield with Water. 623 7.12 Effect of Soil Water Deficit on Seed Yield of Different Crops . . . 628 7.12.1 Wheat and Barley. 630 7.12.2 Maize. 632 Contents 7.12.3 Rice. 7.12.4 Oil Seed Crops. 7.12.5 Sunflower. 7.12.6 Groundnut. 7.12.7 Sugarcane. 7.12.8 Millets. 7.12.9 Legumes. 7.12.10 Soybean. 7.12.11 Cotton. 7.12.12 Tobacco. 7.12.13 Vegetable and Other Horticultural Crops. 7.13 Physiological Traits Associated with Improvement in Grain Yield. 7.13.1 Time to Flowering and Plant Height. 7.13.2 Dry Matter Production and Its Partitioning. 7.13.3 Yield Potential Versus Water Deficit Adaptation: GE Interaction. 7.14 Physiological Avenues for Increasing Yield Potential. 7.14.1 Increasing Radiation Use Efficiency. 7.14.2 Increasing Water Use Efficiency. 7.14.3 Biomass Increase. 7.14.4 Phenological Adjustment. 7.14.5 Tolerance to Soil Water Deficit. 7.14.6 Enhancing Tolerance to Soil Water Deficit in C4 Plants. 7.15 Future Research Perspectives. References. XIX 634 634 636 637 638 639 640 641 642 643 645 648 649 650 650 651 651 653 654 654 655 656 656 657
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spellingShingle	Bhattacharya, Amitav Soil water deficit and physiological issues in plants Plant Physiology Ecology Agriculture Plant physiology Ecology Pflanzenphysiologie (DE-588)4045580-4 gnd Trockenheit (DE-588)4186270-3 gnd Stressresistenz (DE-588)4326741-5 gnd
subject_GND	(DE-588)4045580-4 (DE-588)4186270-3 (DE-588)4326741-5
title	Soil water deficit and physiological issues in plants
title_auth	Soil water deficit and physiological issues in plants
title_exact_search	Soil water deficit and physiological issues in plants
title_exact_search_txtP	Soil water deficit and physiological issues in plants
title_full	Soil water deficit and physiological issues in plants Amitav Bhattacharya
title_fullStr	Soil water deficit and physiological issues in plants Amitav Bhattacharya
title_full_unstemmed	Soil water deficit and physiological issues in plants Amitav Bhattacharya
title_short	Soil water deficit and physiological issues in plants
title_sort	soil water deficit and physiological issues in plants
topic	Plant Physiology Ecology Agriculture Plant physiology Ecology Pflanzenphysiologie (DE-588)4045580-4 gnd Trockenheit (DE-588)4186270-3 gnd Stressresistenz (DE-588)4326741-5 gnd
topic_facet	Plant Physiology Ecology Agriculture Plant physiology Ecology Pflanzenphysiologie Trockenheit Stressresistenz
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