Limitations to efficient water use in crop production:
Gespeichert in:
| Format: | Buch |
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| Sprache: | English |
| Veröffentlicht: |
Madison, Wis.
1983
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| Schlagworte: | |
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| Beschreibung: | XIX, 538 S. graph. Darst. |
| ISBN: | 0891180745 |
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| 245 | 1 | 0 | |a Limitations to efficient water use in crop production |
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Datensatz im Suchindex
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| adam_text | Titel: Limitations to efficient water use in crop production
Autor: Taylor, Howard M.
Jahr: 1983
CONTENTS
Page
FOREWORD.............................................................. xv
PREFACE................................................................. xvi
CONTRIBUTORS.......................................................... xvii
1A Efficient Water Use in Crop Production: Research or Re-Search?
C. B. TANNER AND T. R. SINCLAIR
I. Introduction................................................... 1
II. The Pioneering Experiments..................................... 3
A. Soil Water Content.......................................... 3
B. Climate.................................................... 4
C. Plant Nutrition............................................. 5
D. Pests...................................................... 6
III. Analysis of Field Crop Water-Use Efficiency....................... 7
A. de Wit s (1958) Analysis...................................... 7
B. Other Simple Water-Use Efficiency Models..................... 9
C. Re-Search of Crop Water-Use Efficiency........................ 11
D. Discussion................................................. 18
IV. Irrigation..................................................... 21
V. Summary..................................................... 24
LITERATURE CITED.............................................. 25
IB Efficient Water Use in Crop Production: Discussion on the Generality
of Relations Between Biomass Production and Evapotranspiration
JOE T. RITCHIE
I. Introduction................................................... 29
II. Crop Production and Evapotranspiration.......................... 29
A. Evapotranspiration Efficiency and Leaf Area Index.............. 29
B. Transpiration, Soil Evaporation, and Soil Surface Wetness........ 30
C. Evapotranspiration Efficiency and Plant Nutrition............... 33
III. An Alternative Method for Estimating Biomass Production........... 38
A. Light Interception and Biomass Production..................... 38
B. Evapotranspiration Efficiency and Soil Water Deficit............. 40
C. Relative Evapotranspiration Efficiency and Leaf Area Index....... 40
IV. Summary and Conclusions....................................... 42
LITERATURE CITED.............................................. 43
2A Soil Properties and Efficient Water Use: An Overview
W. R. GARDNER
I. Introduction................................................... 45
II. The Soil Profile as a Water Reservoir.............................. 45
A. Soil Water Retention........................................ 45
B. Soil Water Movement........................................ 48
C. The Soil Water Budget....................................... 50
III. Soil Water Uptake Patterns...................................... 56
IV. The Available Water Concept.................................... 60
V. Conclusions................................................... 62
LITERATURE CITED.............................................. 63
i CONTENTS
2B Soil Properties and Efficient Water Use: Evaporation of Water
from Bare Soil
H. R. GARDNER
I. Introduction................................................... 65
II. Quantitative Descriptions of Soil Water Evaporation (£)............. 65
III. Management Options for Modifications of Evaporation.............. 67
IV. Evaporation and Seedling Establishment........................... 69
V. Summary..................................................... 70
LITERATURE CITED.............................................. 71
2C Soil Properties and Efficient Water Use: Water Management for
Salinity Control
GLENN J. HOFFMAN AND M. TH. VAN GENUCHTEN
1. Introduction................................................... 73
II. Mathematical Analysis of Root-Zone Salinity....................... 76
III. Mean Root-Zone Salinity........................................ 80
IV. Leaching Requirement Prediction................................. 82
LITERATURE CITED.............................................. 84
3A Managing Root Systems for Efficient Water Use: An Overview
HOWARD M. TAYLOR
I. Introduction................................................... 87
II. Rate and Duration of Root Growth............................... 88
III. Soil Environmental Effects on Root Growth and Function............ 90
A. Aluminum Effects on Root Growth............................ 90
B. Root Growth and Function as Affected by Toxic Concentrations
of Other Metals............................................. 91
C. Soil Salinity Effects on Root Growth and Function............... 92
D. Phytotoxins and Root Growth................................ 94
E. Pesticide Effects on Root Growth and Function.................. 94
F. Effects of Aqueous Ammonia and Ammonium Ion on Root
Growth.................................................... 95
G. Soil Strength and Root Growth................................ %
H. Soil Aeration and Root Growth............................... 98
I. Soil Temperature and Root Growth............................ 100
J. Soil Water and Root Growth.................................. 102
K. Nutrient Supply and Root Growth............................. 105
L. Interactions Among Soil Factors and Root Growth............... 105
IV. Management Strategies for Root Systems.......................... 106
A. Manipulating the Rooting Volume............................. 106
B. Rationing the Water Supply................................... 107
C. Increasing the Nutrient Supply................................ 108
V. Summary and Conclusions....................................... 108
LITERATURE CITED.............................................. 109
3B Managing Root Systems for Efficient Water Use: Axial Resistances
to Flow in Root Systems—Anatomical Considerations
BETTY KLEPPER
I. Introduction.................................................. 115
II. Root System Form and Development.............................. 116
HI. Microscopic Structure and Conduction in Xylem.................... 119
CONTENTS vii
IV. Patterns of Water Extraction..................................... 120
V. Summary..................................................... 123
LITERATURE CITED.............................................. 124
3C Managing Root Systems for Efficient Water Use: Breeding Plants
for Efficient Water Use
D. K. BARNES
I. Introduction................................................... 127
II. Some Important Physiological Traits.............................. 129
HI. Breeding to Alter Specific Traits.................................. 130
A. Survey of Available Germplasm............................... 131
B. Development of Selection Procedures.......................... 131
C. Selection from Segregating Parents............................ 132
D. Example of an Integrated Program............................. 132
IV. Summary..................................................... 134
LITERATURE CITED.............................................. 135
4A Water Transport and Balance Within the Plant: An Overview
WILLIAM WENKERT
1. Introduction................................................... 137
A. Electrical Analogs........................................... 137
B. Liquid vs. Vapor Transport................................... 138
II. Loss of Water Vapor............................................ 139
A. The Potential Difference..................................... 139
B. Resistances................................................. 141
C. Transpiration and Energy Restraint............................ 146
III. Gain of Liquid Water........................................... 148
A. Capacitance................................................ 148
B. Soil Pathway............................................... 152
C. Plant Pathways............................................. 154
D. pL Behavior—Moist Soil..................................... 158
E. jjL Behavior—Drying Soil.................................... 165
IV. Summary..................................................... 167
LITERATURE CITED.............................................. 168
4B Water Transport and Balance Within the Plant: Stomatal Mechanics
and Gas Exchange
J. ROBERT COOKE
1. Introduction................................................... 173
II. Mathematics in Plant-Water Relations............................. 173
III. Mechanical Aspects of Stomatal Aperture.......................... 174
IV. Mechanics of Gaseous Transport................................. 177
V. Summary..................................................... 181
LITERATURE CITED.............................................. 181
4C Water Transport and Balance Within the Plant: Resistance to
Water Flow in Roots
EDWIN L. FISCUS
I. Introduction................................................... 183
II. A Conceptual Model of Flow Resistance........................... 184
HI. Resistance to Flow in the Plant System............................. 188
viii CONTENTS
A. Radial vs. Axial Resistance................................... 190
B. Driving Force for Radial Flow................................. 190
C. Radial Pathway(s)........................................... 191
D. The Steady State............................................ 191
E. Induction and Hysteresis..................................... 192
F. Soil- vs. Solution-Grown Roots................................ 192
IV. Summary..................................................... 193
LITERATURE CITED.............................................. 194
5A Canopy Gas Exchange: An Overview
EDGAR LEMON
I. Introduction................................................... 195
II. Turbulence and Pressure Fluctuations............................. 196
III. The Aerodynamic Discrepancy................................... 200
IV. Summary..................................................... 202
LITERATURE CITED.............................................. 202
5B Canopy Gas Exchange: Canopy Flow Modeling and Its Applications
RONALD M. CIONCO
I. Introduction................................................... 203
II. The Model and Its Properties..................................... 203
III. Index of Canopy Flow.......................................... 205
IV. Coupling of Canopy Flow to Ambient Flow........................ 208
V. Variations of Turbulence Intensity with Canopy Density and
Canopy Types................................................. 210
VI. Summary..................................................... 212
LITERATURE CITED.............................................. 212
SC Canopy Gas Exchange: Gas Exchange with Soil
B. A. KIMBALL
I. Introduction................................................... 215
II. Mechanisms for Soil Gas Exchange............................... 216
A. Diffusion.................................................. 216
B. Unequal Production and Consumption of Gases................. 220
C. Liquid Water Content Changes................................ 220
D. Temperature Effects......................................... 220
E. Pressure Fluctuations........................................ 221
III. Summary..................................................... 224
LITERATURE CITED.............................................. 225
6A Physiological Consequences of Cellular Water Deficits
THEODORE C. HSIAO AND KENT J. BRADFORD
I. Introduction................................................... 227
II. Levels of Water Deficits and Fundamentals of Cell- and Tissue-
Water Relations................................................ 228
A. Levels of Water Deficits...................................... 228
B. Relationship Among Water Content, Water Potential, and
Component Potentials....................................... 229
C. Water-Related Parameters Important to Plant Functions.......... 232
III. Expansive Growth.............................................. 233
A. Physics of Expansive Growth................................. 234
B. Mechanism of Expansive Growth.............................. 238
CONTENTS ix
IV. Stomatal Behavior.............................................. 243
A. General Relationship Among Stomatal Behavior, Carbon
Dioxide Assimilation, and Transpiration........................ 243
B. Mechanisms Underlying Stomatal Movement.................... 244
C. Stomatal Response to Water Stress and Humidity................ 246
V. Growth Regulators............................................. 250
A. Indoleacetic Acid........................................... 250
B. Abscisic Acid............................................... 250
C. Cytokinins................................................. 252
D. Ethylene................................................... 253
E. Gibberellins................................................ 253
F. Hormonal Interactions During Water Stress..................... 255
VI. Concluding Remarks........................................... 256
LITERATURE CITED.............................................. 258
6B Physiological Consequences of Cellular Water Deficits:
Osmotic Adjustment
JOHN W. RADIN
I. Introduction................................................... 267
II. Criteria to Establish Osmotic Adjustment.......................... 268
III. Osmotic Adjustment in Response to Salinity........................ 270
IV. Osmotic Adjustment in Response to Drought....................... 271
LITERATURE CITED.............................................. 274
6C Physiological Consequences of Cellular Water Deficits: Nonstomatal
Inhibition of Photosynthesis by Water Stress
ROBERT W. PEARCY
I. Introduction................................................... 277
II. Resistance Model for Carbon Dioxide Uptake...................... 277
III. Water Stress and Mesophyll Resistance............................ 280
IV. Water Stress and Photosynthetic Partial Processes................... 283
V. Mesophyll Resistance and Water-Use Efficiency..................... 284
VI. Summary and Future Research Needs............................. 285
LITERATURE CITED.............................................. 286
7A Whole Plant Response to Water Deficits: An Overview
W. R. JORDAN
I. Introduction................................................... 289
II. Total Dry Matter Production..................................... 290
III. Stand Establishment............................................ 291
A. Soil Water Potential and Seed Hydration....................... 29!
B. Water Requirements in Germination........................... 292
C. Emergence................................................. 294
IV. Modulation of Leaf Area Development by Plant Water Deficit........ 295
A. Photosynthate Production.................................... 295
B. Photosynthate Utilization.................................... 296
C. Development, Display, and Maintenance of Green Leaf Area...... 296
V. Regulation of Reproductive Capacity.............................. 304
A. Nondeterminate Crops....................................... 304
B. Determinate Crops.......................................... 305
VI. Realization of Yield in Determinate Crops.......................... 308
VII. Crop Improvement for Drought Resistance......................... 309
VIII. Future Thrusts................................................. 310
LITERATURE CITED.............................................. 312
i CONTENTS
7B Whole-Plant Response to Water Deficits: Carbon Assimilation
and Utilization
DANIEL R. KRIEG
I. Introduction................................................... 319
II. Assimilation of Photosynthate................................... 319
A. Stomatal Control of Photosynthesis............................ 320
B. Nonstomatal Control of Photosynthesis........................ 321
III. Utilization of Photosynthate..................................... 323
A. Utilization by Source........................................ 323
B. Translocation.............................................. 324
C. Partitioning of Assimilate.................................... 324
D. Sink Activity............................................... 326
IV. Whole-Plant Carbon Assimilation................................ 327
V. Future Research Needs.......................................... 328
LITERATURE CITED.............................................. 329
7C Whole-Plant Response to Water Deficits: Water Deficits and the
Nitrogen Economy
ANDREW D. HANSON AND WILLIAM D. HITZ
I. Introduction................................................... 331
II. Acquisition of Reduced Nitrogen.................................. 331
A. Uptake and Reduction of Nitrate.............................. 334
B. Symbiotic Nitrogen Fixation.................................. 334
III. Reallocation of Reduced Nitrogen................................ 335
A. Turnover and Net Breakdown of Leaf Proteins (Component 1)..... 336
B. Metabolism in the Leaf of Reduced Nitrogen Released by Protein
Breakdown (Component 2)................................... 338
ACKNOWLEDGEMENTS........................................... 340
LITERATURE CITED.............................................. 340
8A Crop Manipulations for Efficient Use of Water: An Overview
ROBERT S. LOOMIS
I. Introduction................................................... 345
II. Relation Between Production and Water Use....................... 345
III. Risk Management.............................................. 348
IV. Crop Characteristics............................................ 350
A. Growth Patterns............................................ 350
B. Growth Duration........................................... 352
C. Cool-Season vs. Warm-Season Cropping, and Photosynthetic
Types..................................................... 355
D. Other Crop Traits........................................... 356
V. Crop Manipulations............................................ 358
A. Health and Welfare.......................................... 358
B. Fallow Cropping............................................ 359
C. Plant Cover................................................ 361
D. Mixed Cropping............................................ 363
E. Nutrient Status............................................. 366
F. Modifications of Evapotranspiration Rates...................... 366
VI. Summary............................... 370
ACKNOWLEDGEMENTS.............. ............... 371
LITERATURE CITED................................... . .. . . . . . . . . 371
CONTENTS xi
8B Crop Manipulation for Efficient Use of Water: Inadvertent and
Intended Manipulations of Crop Water Use
GARY H. HEICHEL
I. Introduction................................................... 375
II. Carbon Dioxide Enrichment, Plant Growth, and Water-Use
Efficiency..................................................... 375
III. Breeding Crops for Higher Water-Use Efficiencies: A Perspective..... 376
IV. Summary..................................................... 379
LITERATURE CITED.............................................. 379
8C Crop Manipulation for Efficient Use of Water: Constraints and
Potential Techniques in Breeding for Efficient Water Use
R. W. ZOBEL
I. Introduction................................................... 381
II. Identification of Characters to be Modified......................... 381
III. Identifying Variability.......................................... 386
IV. Manipulation.................................................. 388
V. Summary..................................................... 391
LITERATURE CITED.............................................. 392
9 A Yield and Water-Use Relationships: An Overview
R. J. HANKS
I. Introduction................................................... 393
II. Early Studies.................................................. 393
III. Recent Field Studies............................................ 398
IV. Predicting Yield From Water Use................................. 404
V. Applications................................................... 408
LITERATURE CITED.............................................. 410
9B Yield and Water-Use Relationships: Some Problems of Relating
Grain Yield to Transpiration
E. T. KANEMASU
I. Introduction................................................... 413
II. Harvest Index................................................. 415
III. Other Evapotranspiration-Yield Approaches....................... 416
IV. Summary..................................................... 417
LITERATURE CITED.............................................. 417
10A Soil Management for Efficient Water Use: An Overview
PAUL W. UNGER AND B. A. STEWART
I. Introduction................................................... 419
II. Scope of Chapter............................................... 419
III. Water Retention on the Soil Surface............................... 421
A. Tillage Effects.............................................. 421
B. Engineering—Structure Effects................................ 429
IV. Water Infiltration.............................................. 435
A. Aggregation................................................ 436
B. Surfactants and Water Repellents.............................. 437
CONTENTS
C. Deep Plowing and Profile Modification......................... 438
D. Previous Crops............................................. 444
E. Crop Residues and Growing Crops............................. 445
V. Water Retention in Soil Profile................................... 446
A. Increasing Storage Volume................................... 446
B. Increasing Water Retention................................... 446
C. Decreasing Deep Percolation (Sandy Soils)...................... 449
D. Controlling Evaporation..................................... 450
E. Drainage................................................... 453
VI. Summary..................................................... 454
LITERATURE CITED.............................................. 454
10B Soil Management for Efficient Water Use: Soil Fertility
J. F. POWER
I. Introduction................................................... 461
II. Principles..................................................... 461
III. Plant Growth and Yield......................................... 463
IV. Water Use..................................................... 465
V. Water-Use Efficiency........................................... 467
VI. Conclusions................................................... 468
LITERATURE CITED.............................................. 469
IOC Soil Management for Efficient Water Use: Soil-Profile Modification
Effects on Plant Growth and Yield in the Southwestern United States
D. C. REICOSKY
I. Introduction................................................... 471
II. Soil and Climatic Factors........................................ 471
III. Chiseling and Subsoiling........................................ 473
IV. Traffic Control................................................ 474
V. Subsoil Toxicity and Acidity Control.............................. 474
VI. Water-Fertility Management..................................... 476
VII. Summary..................................................... 476
LITERATURE CITED.............................................. 477
11A Irrigation Options to Avoid Critical Stress: An Overview
EDWARD A. HILER AND TERRY A. HOWELL
I. Introduction................................................... 479
II. Efficient Water Use Through Improved Irrigation Scheduling......... 482
A. Stress Day Index Method..................................... 483
B. Optimal Sequencing of Evapotranspiration Deficits.............. 486
C. Scheduling Irrigations by Water Balance Techniques Using
Computers................................................. 488
III. Efficient Water Use Through Improved Water Application Systems___ 491
A. Surface Irrigation........................................... 491
B. Sprinkler Irrigation.......................................... 492
C. Trickle Irrigation............................................ 492
D. Low-Energy, Precision-Application (LEPA) System.............. 492
IV. Efficient Water Use Through Optimization of On-Farm Water
Allocation..................................................... 494
V. Summary......................................... 495
LITERATURE CITED.............................................. 495
CONTENTS xiii
1 IB Irrigation Options to Avoid Critical Stress: Irrigation Scheduling—
Some Applied Concepts
EARL C. STEGMAN
I. Scheduling with Simple Water Balance Methods..................... 499
II. The Case for Attaining Yields Near the Ymax Level................... 501
III. Scheduling Criteria for ymax Per Unit Area......................... 502
IV. Maximizing Yield Per Unit Water Applied......................... 503
LITERATURE CITED.............................................. 505
11C Irrigation Options to Avoid Critical Stress: Optimization of On-Farm
Water Allocation to Crops
JAMES W. JONES
I. Introduction................................................... 507
II. Optimization Problem Characteristics............................. 507
III. The Role of Simulation.......................................... 511
IV. Example Applications........................................... 512
A. Allocation of Water to Crops................................. 512
B. Allocation of Water on a Farm................................ 513
V. Limitations and Research Needs.................................. 514
LITERATURE CITED.............................................. 515
12 Water Resources Management in a Growing Society
J. VAN SCHILFGAARDE AND S. L. RAWLINS
I. Introduction................................................... 517
II. Irrigated Agriculture............................................ 520
III. Rainfed Agriculture............................................ 526
IV. Summary..................................................... 528
LITERATURE CITED.............................................. 529
Glossary of Common and Scientific Names of Plants............................. 531
Subject Index............................................................... 535
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| discipline | Biologie Agrar-/Forst-/Ernährungs-/Haushaltswissenschaft / Gartenbau |
| format | Book |
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| id | DE-604.BV006030535 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T16:38:58Z |
| institution | BVB |
| institution_GND | (DE-588)5377-6 |
| isbn | 0891180745 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-003795964 |
| oclc_num | 9465176 |
| open_access_boolean | |
| owner | DE-703 DE-11 |
| owner_facet | DE-703 DE-11 |
| physical | XIX, 538 S. graph. Darst. |
| publishDate | 1983 |
| publishDateSearch | 1983 |
| publishDateSort | 1983 |
| record_format | marc |
| spelling | Grenzen des effektiven Wassereinsatzes in der Pflanzenproduktion ger Limitations to efficient water use in crop production Madison, Wis. 1983 XIX, 538 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Cultures et eau Hidraulica Aplicada (Agricultura) larpcal Irrigacao larpcal Crops and water Pflanzen (DE-588)4045539-7 gnd rswk-swf Wasser (DE-588)4064689-0 gnd rswk-swf Pflanzen (DE-588)4045539-7 s Wasser (DE-588)4064689-0 s DE-604 Taylor, Howard M. Sonstige oth American Society of Agronomy Sonstige (DE-588)5377-6 oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003795964&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Limitations to efficient water use in crop production Cultures et eau Hidraulica Aplicada (Agricultura) larpcal Irrigacao larpcal Crops and water Pflanzen (DE-588)4045539-7 gnd Wasser (DE-588)4064689-0 gnd |
| subject_GND | (DE-588)4045539-7 (DE-588)4064689-0 |
| title | Limitations to efficient water use in crop production |
| title_auth | Limitations to efficient water use in crop production |
| title_exact_search | Limitations to efficient water use in crop production |
| title_full | Limitations to efficient water use in crop production |
| title_fullStr | Limitations to efficient water use in crop production |
| title_full_unstemmed | Limitations to efficient water use in crop production |
| title_short | Limitations to efficient water use in crop production |
| title_sort | limitations to efficient water use in crop production |
| topic | Cultures et eau Hidraulica Aplicada (Agricultura) larpcal Irrigacao larpcal Crops and water Pflanzen (DE-588)4045539-7 gnd Wasser (DE-588)4064689-0 gnd |
| topic_facet | Cultures et eau Hidraulica Aplicada (Agricultura) Irrigacao Crops and water Pflanzen Wasser |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003795964&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT taylorhowardm limitationstoefficientwateruseincropproduction AT americansocietyofagronomy limitationstoefficientwateruseincropproduction |