Introduction to plant physiology:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
Wiley
1999
|
| Ausgabe: | 2. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 512 S. Ill., graph. Darst. |
| ISBN: | 0471192813 |
Internformat
MARC
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| 245 | 1 | 0 | |a Introduction to plant physiology |c William G. Hopkins |
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Datensatz im Suchindex
| _version_ | 1804141376781156352 |
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| adam_text | Introduction to Plant Physiology
Second Edition
William G Hopkins
The University of Western Ontario
John Wiley amp; Sons, Inc
New York • Chichester • Weinheim • Brisbane • Singapore • Toronto
Contents
Chapter 1 • Introduction: The Organization
of Plants and Plant Cells 1
The Scope of Plant Physiology 1
The Plant Cell 1
Biological Membranes 3
The Membrane Bilayer 3
Membrane Protein 4
Cellular Organelles 6
Cytoskeleton 10
The Extracellular Matrix 11
ThePrimaryCellWall12~
The Secondary Cell Wall 14
Plasmodesmata 14
Cells and Tissues 15
Plant Organs 17
Chapter Review 19
Further Reading 19
Box 1 1 • Lipids 4
Box 1 2 • Proteins 7
Part 1 • Plants, Water, and Minerals 21
Preview
Chapter 2 • Plant Cells and Water 23
Water and Hydrogen Bonds 24
Physical and Chemical Properties of Water 25
Thermal Properties 25
Temperature and Physical State 25
Absorption and Dissipation of Heat 25
Melting and Vaporizing Water 25
Water as a Solvent 26
Cohesion and Adhesion 26
Translocation of Water 2 7
Bulk Flow 27
Diffusion 27
Osmosis—The Diffusion of Water 28
Osmosis and Chemical Potential 29
The Concept of Water Potential 31
The Components of Water Potential 31
Water Movement in Cells and Tissues 32
How Elastic Are Cell Walls? 34
Summary 35
Chapter Review 35
Further Reading 35
References 35
Chapter 3 • Water Relations of the
Whole Plant 37
Transpiration 38
The Process 38
Measuring Transpiration 39
The Driving Force of Transpiration 39
Influence of Humidity, Temperature and Wind Speed
on Transpiration, Rate 40
Effect of Humidity 41
Effect of Temperature 41
Effect of Wind 42
Efficiency of Transpiration 44
The Anatomy of Water Conduction 44
The Ascent of Xylem Water 46
Root Pressure 51
Water Rise by Capillarity 49
The Cohesion Theory 49
ix
X Contents
Roots, Soil, and the Uptake of Water 54
Soil—A Complex Medium 54
Absorption of Water by Roots 55
Roots, the Hidden Half 55
The Absorbing Regions of a Root 56
Radial Movement of Water Through the Root 56
Summary 58
Chapter Review 58
Further Reading 58
References 59
Box 3 1 • Why Transpiration? 43
Box 32* Forces Involved in Capillary Rise 50
Chapter 4 • Plants and Inorganic
Nutrients 61
Studying the Mineral Requirements of Plants 62
The Essential Nutrient Elements 64
Beneficial Elements 66
Sodium 66
Silicon 67
Cobalt 67
Selenium 67
Nutrient Roles and Deficiency Symptoms 67
Nitrogen 68
Phosphorous 69
Potassium 69
Sulphur 70
Calcium 70
Magnesium 70
Iron 70
Boron 73
Copper 73
Zinc 73
Manganese 73
Molybdenum 74
Chlorine 74
Nickel 74
Toxicity of Micronutrients 7 5
Summary 75
Chapter Review 75
Further Reading 76
References 76
Chapter 5 • Roots, Soils, and Nutrient
Uptake 77
The Soil as a Nutrient Reservoir 77
Membrane Transport 79
Simple Diffusion 80
Facilitated Diffusion 80
Transport Proteins—Carriers and Channels 81
Active Transport 81
Selective Accumulation of Ions 81
Electrochemical Gradients and Ion Movement 84
Active Transport and Electrogenic Pumps 86
Aquaporins 88
Ion Uptake by Roots 89
Diffusion and Apparent Free Space 89
The Radial Path of Ion Movement Through Roots 90
Root—Microbe Interactions 92
Bacteria 92
Mycorrhiza 93
Summary 96
Chapter Review 96
Further Reading 96
References 96
Box 5 1 • Electrophysiology—Exploring Ion
Channels 82
Chapter 6 • Plants and Nitrogen 99
The Nitrogen Cycle 99
Ammonification, Nitrification, and Denitrification 100
Nitrogen Fixation 100
Biological Nitrogen Fixation 101
Free-Living Nitrogen Fixers 101
Symbiotic Nitrogen Fixers 101
Symbiotic Nitrogen Fixation in Legumes 102
Infection and Nodule Development 102
The Early Stage—Colonization and Nodule Initiation 102
Invasion of the Root Hair and the Infection Thread 105
The Release of Bacteria 106
The Biochemistry of Nitrogen Fixation 106
Dinitrogenase 106
The Energy Cost of Nitrogen Fixation 107
Dinitrogenase and Oxygen 107
Dinitrogenase and Hydrogen Production 108
The Genetics of Nitrogen Fixation 112
Nitrogen Assimilation 113
Assimilation of Ammonium 113
Export of Fixed Nitrogen From Nodules 114
Assimilation of Nitrate 116
Nitrogen Cycling 117
Nitrogen Nutrition: Agricultural and Ecological
Aspects 118
Summary 120
Chapter Review 120
Further Reading 120
References 120
Box 6 1 • Lectins—Proteins with a Sweet
Tooth 104
Box 62* Enzymes 109
Part 2 • Plants, Energy, and Carbon 123
Preview
Chapter 7 • Light and Pigments: An
Introduction to
Photobiology 125
The Physical Nature of Light 125
Light as a Wave Phenomenon 126
Light as a Stream of Particles 12 7
Contents xi
The Absorption and Fate of Light Energy 127
Absorption and Action Spectra 129
Measuring Light 130
The Natural Radiation Environment 131
Photoreceptors 133
Chlorophylls 133
Phycobilins 134
Carotenoids 135
Cryptochrome 137
The UV-B Receptors 137
Flavonoids 138
Betacyanins 140
Summary 140
Chapter Review 140
Further Reading 141
References 141
Chapter 8 • Leaves and Photosynthesis 143
Photosynthesis in Algae and Liverworts 144
Photosynthesis in Leaves 147
Absorption of Light by Leaves 147
Leaves and Gas Exchange 148
Diffusion Through Pores 151
The Mechanism of Guard Cell Movement 152
Control of Stomatal Movements 154
Light and Carbon Dioxide 155
Water Status and Temperature 156
Orcadian Rhythms 157
The Chloroplast 157
Ultrastructure and Biochemical Compartmentation of
Chloroplasts 157
Nonphotosynthetic Metabolism of Chloroplasts 159
Summary -159
Chapter Review 160 ~
Further Reading 160
References 160
Box 8 1 • Historical Perspective—The Discovery
of Photosynthesis 144
Chapter 9 • Bioenergetics and the Light-
Dependent Reactions of
Photosynthesis 163
Bioenergetics—Energy Transformation
in Living Organisms 164
Energy Conservation, Order, and Disorder 164
Free Energy and Chemical Equilibria 165
Free Energy of Oxidation-Reduction Reactions 168
A Model for ATP Synthesis 170
Energy Conservation in Photosynthesis 172
Photosynthesis as an Oxidation-Reduction
Reaction 172
Photosynthetic Electron T ransport 173
Photosystems and Reaction Centers 173
Photosystem II and the Oxidation of Water 177
The Cytochrome Complex and Photosystem I 178
Photophosphoiylation 179
Lateral Heterogeneity of The Electron
Transport Chain 180
Light-Harvesting Complexes and Dynamic
Regulation of Photosynthesis 181
The Role of Carotenoids in Photosynthesis 183
Electron Transport and Weed Control 185
Summary 186
Chapter Review 186
Further Reading 187
References 187
Box 9 1 • The Case for Two Photosystems 174
Chapter 10 • Photosynthesis: Carbon
Metabolism 189
The Photosynthetic Carbon Reduction (PCR)
Cycle 190
The Carboxylation Reaction 190
Energy Input in the PCR Cycle 193
Reduction of S-PGA 193
Regeneration of the Acceptor Molecule 194
Energetics of the PCR Cycle 195
Activation and Regulation of the PCR Cycle 195
Autocatalysis 195
Regulation of Rubisco Activity 196
Regulation of Other PCR Enzymes 197
Photorespiration and the Photosynthetic Carbon
Oxidation Cycle 197
RUBP Oxygenase and the C2 Glycolate Pathway 198
Why Photorespiration? 199
The C4 Syndrome 200
Discover) and General Principles of the C4
Syndrome 201
Kranz Anatomy 203
Ecological Significance of the C4 Syndrome 204
Crassulacean Acid Metabolism (CAM) 206
Is CAM a Variation of the C4 Syndrome? 207
Ecological Significance of CAM 207
Regulation of C4 Photosynthesis and CAM 208
Export and Storage of Photosynthetic
Product 208
Starch Synthesis in the Chloroplast 209
Synthesis of Sucrose 210
Sucrose or Starch—The Fate of Triose
Phosphate 211
Summary 212
Chapter Review 212
Further Reading 213
References 213
Box 10 1 • Carbohydrates—A Primer 191
Chapter 11 • Translocation and Distribution
of Photoassimilates 215
Translocation of Photoassimilates 215
The Composition of Phloem Exudate 217
xii Contents
The Structure of Phloem Tissue 218
P Protein and Callose 220
Sources and Sinks 221
Mechanism of Translocation in the Phloem 221
Phloem Loading and Unloading 224
Phloem Loading 224
Phloem Unloading 226
Assimilate Distribution 227
Allocation 228
Leaf Metabolism and Biomass 228
Storage 228
Export from the Leaf 228
Partitioning of Assimilate Among Sinks 229
Translocation of Xenobiotic Chemicals 231
Summary 232
Chapter Review 232
Further Reading 232
References 232
Chapter 12 • Cellular Respiration: Retrieving
the Energy in
Photoassimilates 235
Cellular Respiration: An Overview 236
Breakdown of Sucrose and Starch 236
ct-Amylase 237
(i-Amylase 237
Limit Dextrinase 238
a-Glucosidase 238
Starch Phosphorylase 238
Glycolysis 238
Entry of Hexose into Glycolysis 239
Conversion of Fructose-1,6-Bisphosphate to
-Pyruvate 239
The Oxidative Pentose Phosphate Pathway 240
The Fate of Pyruvate 241
Oxidative Respiration 241
The iMitochondrion 241
The Citric Acid Cycle 242
Oxidation of NADH and FADH2 243
Proton Gradients and Synthesis of ATP 245
Alternate Electron Pathways in Plants 246
External NADPH Dehydrogenase 246
Rotenone-Insensitive NADH Dehydrogenase 247
Cyanide-Resistant Respiration 247
Plant Oils, The Gyoxylate Cycle, and
Gluconeogenesis 248
Respiration and Building Blocks 249
Respiration and Intact Plants and Organs 251
Factors Influencing Respiration Rate 252
Light 252
Temperature 252
Oxygen Availability 253
Summary 253
Chapter Review 254
Further Reading 254
References 254
Chapter 13 • Carbon Assimilation and
Productivity 255
Productivity 255
Respiration and Carbon Economy 256
Factors Influencing Photosynthesis and
Productivity 257
Light 257
Available Carbon Dioxide 257
Temperature 259
Soil Water Potential 260
Nutrient Supply, Pathology, and Pollutants 261
Leaf Factors 261
Primary Productivity on a Global Scale 263
Summary 264
Chapter Review 264
Further Reading 264
References 265
Chapter 14 • Molecules and
Metabolism 267
Primary and Secondary Metabolites 267
Terpenoids 268
Terpene Biosynthesis 269
Terpenoids and Herbivory 269
Steroids and Sterols 269
Polyterpenes 272
Glycosides 273
Saponins 273
Cardiac Glycosides 274
Cyanogenic Glycosides 275
Glucosinolates 275
Phenolics 276
The Shikimic Acid Pathway 276
Simple Phenolics 278
Coumarins 279
Lignin 280
Flavonoids 280
Tannins 280
Alkaloids 281
Summary 283
Chapter Review 284
Further Reading 284
References 284
Part 3 • Regulation of Plant
Development 285
Preview
Chapter 15 • Patterns in Plant
Development 287
Growth, Differentiation, and Development 287
Control of Growth and Development 289
Genetic Control of Development 289
Hormonal Regulation of Development 293
Environmental Regulation of Development 293
Contents xiii
A Survey of Plant Development 294
Seed Structure and Development 294
Seed Germination 294
Shoot Development 295
Root Development 298
Flower Evocation and Development 300
Flower and Fruit Development 301
How Do Cells Grow? 302
Kinetic Analysis of Growth 304
Growth of Microorganisms in Culture 304
Growth of Multicellular Organisms 305
Summary 306
Chapter Review 306
Further Reading 306
References 307
Box 15 1 • Development in a Mutant Weed 290
Chapter 16 • The Role of Hormones in Plant
Development 309
The Hormone Concept in Plants 309
The Plant Hormones 313
Auxins 313
Natural and Synthetic Auxins 314
Physiological Action of Auxin 315
Cell Growth and Differentiation 315
Shoot and Root Development 316
Axillary Bud Growth 316
Leaf Abscission 317
Root Elongation and Development 317
Flower and Fruit Development 318
Gibberellins 320
The Physiological Action of Gibberellins 321
Control-of Sboot Elongation 321
Seed Germination 323- — _
Flowering 324
Cytokinins 325
The Physiological Roles of Cytokinins 326
Cell Division and Morphogenesis 326
Nutrient Mobilization and Senescence 327
Other Cytokinin Effects 328
Abscisic Acid 328
The Physiological Roles of Abscisic Acid 329
Ethylene 329
The Physiological Roles of Ethylene 330
Vegetative Development 330
Fruit Development 330
Flowering 330
Polyamines 330
Hypothetical Plant Hormones 331
Other Biologically Active Substances 331
Summary 332
Chapter Reviro) 333
Further Reading 333
References 333
Box 16 1 • Historical Perspectives—Discovering
Plant Hormones 310
Box 16 2 • Commercial Applications of
Hormones 319
Chapter 17 • Biochemistry and Mode of
Action of Hormones 335
How Do Hormones Work? 335
The Case for Plant Hormones 337
Hormone-Binding Proteins in Plants 337
Auxin-Binding Proteins 337
Cytokinin-Binding Proteins 338
Gibberellin- and Abscisic Acid-Binding Proteisn 338
Second Messengers in Plants 338
Calcium 338
Pbospboinositides 339
Hormones and Gene Action 340
Biosynthesis, Transport, and Metabolism of
Hormones 340
Auxin Biosynthesis and Metabolism 340
Biosynthesis of IAA 341
IAA Conjugates 342
IAA Transport 343
Oxidation of IAA 346
Gibberellin Biosynthesis and Metabolism 347
Gibberellin Biosynthesis 348
Gibberellin Metabolism and Transport 350
Cytokinin Biosynthesis and Metabolism 350
Biosynthesis of Cytokinins 351
Cytokinin Metabolism and Transport 352
Abscisic Acid Biosynthesis and Metabolism 353
Ethylene Biosynthesis and Metabolism 354
Mechanisms of Hormone Action 3 56
Auxin and Cell Expansion 356
Acid Growth Theory 356
Auxin and Gene Action 358
Gibberellin Control of Stem Elongation 359
Gibberellin Control of Seed Germination 360
Mechanism, of Cytokinin Action 362
Mechanism of Abscisic Acid Action 362
Summary 362
Chapter Review 363
Further Reading 364
References 364
Box 17 1 • Quantitative Analysis of
Hormones 348
Chapter 18 • Photomorphogenesis—
Responding to Light 367
Photomorphogenesis 368
Phytochrome 368
Phytochrome in Dark-Grown Seedlings 370
The Chemistry of Phytochome 372
Physiological Effects of Phytochrome 373
Low Fluence Phytochrome Responses 374
Seed Germination 374
Seedling Development 374
Bioelectric Potentials and Ion Distribution 375
xiv Contents
Very Low Fluence Responses 377
High Irradiance Reactions 377
Phytochrome in Green Plants 379
Phytochrome Under Natural Conditions 380
Mechanism of Phytochrome Action 383
Phytochrome and Membranes 383
Phytochrome and Gene Action 384
Blue-Light Responses 386
UV-B Responses 387
Summary 387
Chapter Review 388
Further Reading 388
References 388
Chapter 19 • Plant Movements—Orientation
in Space 391
Phototropism 392
Phototropic Signal Perception 393
The Photoreceptor 393
Fluence Response Curves 394
Signal Transduction in Phototropism 395
Gravitropism 398
Graviperception 398
Sensitivity of Gravistimnlation 399
Tissue Sensitivity 399
The Mechanism if Graviperception 401
Signal Transduction in Gravitropism 402
The Growth Response in Gravitropism 403
Coleoptiles and Shoots 404
Grass Stems 404
Roots 40S
The Role of Calcium in Gravitropism 406
Plants in Zero Gravity 407
Nastic Movements 408 ——
Nyctinasty 408
Seismonasty 411
Summary 412
Chapter Review 413
Further Reading 413
References 413
Box 19 1 • Methods in the Study of
Gravitropism 400
Chapter 20 • Measuring Time:
Photoperiodism and Rhythmic
Phenomena 415
Photoperiodism 415
Giant Tobacco and September Soybeans 416
Photoperiodic Response Types 416
Critical Daylength 417
Photoperiodic Induction 419
The Central Role of the Dark Period 419
Perception of the Photoperiodic Signal 420
The Role of Phytochrome 421
Light Requirements and Floral Hormones 422
Temperature and Photoperiodism 423
The Biological Clock 424
The Language of Biological Clocks 426
Circadian Rhythms, Temperature, and Light 427
Time Measurement in Photoperiodism 429
Genetic Approaches to Photoperiodism and
Rhythms 431
Photoperiodism in Nature 432
Summary 433
Chapter Review 434
Further Reading 434
References 434
Chapter 21 • Temperature and Plant
Development 435
Temperature in the Plant Environment 435
Influence of Temperature on Growth and Plant
Distribution 436
Coasts and Deserts 436
Mountain Slopes 438
Influence of Temperature on Development 439
Temperature and Flowering Response 439
Occurrence of Vernalization 439
Effective Temperature 440
Perception of the Stimulus 441
The Nature of the Vernalization Stimulus 441
Bud Dormancy 442
Seed Dormancy and Germination 443
Temperature and Seed Dormancy 44S
Response to Changes in Temperature 445
Summary 447
Chapter Review 447
Further Reading 447
References 447
Part 4 Stress Physiology and
Biotechnology 449
Preview
Chapter 22 • The Physiology of Plants
Under Stress 451
What is Stress? 451
Plant Responses to Stress 452
Water Stress 453
Membranes and Water Stress 453
Photosynthesis and Water Stress 454
Stomatal Responses to Water Deficit 454
Osmotic Adjustment 457
Effects of Water Deficit on Shoot and Root
Growth 458
Leaf Area Adjustment 459
Contents XV
Temperature Stress 459
Chilling Stress 459
Freezing Stress 460
Thermal Analysis of Freezing 461
Deep Supercooling in Woody Tissues 461
Acclimation in Woody Tissues 462
Cold Acclimation in Herbaceous Tissues 462
High Temperature Stress 463
High Temperature Effects on Membranes and
Metabolism 463
Heat Shock Proteins 463
Salt Stress 464
Insects and Disease 467
The Hypersensitive Reaction 467
Avirulence Genes 467
Systemic Acquired Resistance 468
Jasmonates 469
Environmental Pollutants 469
Heavy Metals 470
Air Pollution 470
Summary 412
Chapter Review 473
Further Reading 474
References 474
Chapter 23 • Plant Physiology and
Biotechnology 477
Methods in Plant Biotechnology 478
Tissue and Cell Culture 478
Protoplasts and Cell Fusion 478
Recombinant DNA 479
Progress and Potential in Plant
Biotechnology 480
Micropropagation 480
Plant Protection 481
Herbicide Resistance 481
Insect and Disease Resistance 482
Plant Metabolism 483
Plant Products 484
Fuels 484
Edible Oils 484
Biodegradable Plastics 485 •
Other Products 486
Summary 486
Chapter Review 487
Further Reading 487
References 487
Appendix
Water Potential 489
Tissue Weight-Change Method 489
Thermocouple Psychrometry 491
Osmotic Potential 491
Cryoscopic Methods 491
Incipient Plasmolysis 492
Pressure Measurements 493
References 493
Measuring Water Potential and its
Components 489
Index 495
|
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| spelling | Hopkins, William G. Verfasser aut Introduction to plant physiology William G. Hopkins 2. ed. New York [u.a.] Wiley 1999 XV, 512 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Pflanzenphysiologie (DE-588)4045580-4 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Pflanzenphysiologie (DE-588)4045580-4 s DE-604 HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019160840&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Hopkins, William G. Introduction to plant physiology Pflanzenphysiologie (DE-588)4045580-4 gnd |
| subject_GND | (DE-588)4045580-4 (DE-588)4123623-3 |
| title | Introduction to plant physiology |
| title_auth | Introduction to plant physiology |
| title_exact_search | Introduction to plant physiology |
| title_full | Introduction to plant physiology William G. Hopkins |
| title_fullStr | Introduction to plant physiology William G. Hopkins |
| title_full_unstemmed | Introduction to plant physiology William G. Hopkins |
| title_short | Introduction to plant physiology |
| title_sort | introduction to plant physiology |
| topic | Pflanzenphysiologie (DE-588)4045580-4 gnd |
| topic_facet | Pflanzenphysiologie Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019160840&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT hopkinswilliamg introductiontoplantphysiology |