Principles of Soil Conservation and Management:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin
Springer
2008
|
| Ausgabe: | 1. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | 617 S. Ill., graph. Darst. 235 mm x 155 mm |
| ISBN: | 9781402087080 9781402087097 |
Internformat
MARC
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| 100 | 1 | |a Blanco, Humberto |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Principles of Soil Conservation and Management |c Humperto Blanco ; Lal Rattan |
| 250 | |a 1. ed. | ||
| 264 | 1 | |a Berlin |b Springer |c 2008 | |
| 300 | |a 617 S. |b Ill., graph. Darst. |c 235 mm x 155 mm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Soil conservation | |
| 650 | 4 | |a Soil erosion | |
| 650 | 4 | |a Soil erosion |x Climatic factors | |
| 650 | 4 | |a Soil productivity | |
| 650 | 0 | 7 | |a Klimaänderung |0 (DE-588)4164199-1 |2 gnd |9 rswk-swf |
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Datensatz im Suchindex
| _version_ | 1804138017600831488 |
|---|---|
| adam_text | Titel: Principles of soil conservation and management
Autor: Blanco, Humberto
Jahr: 2008
Contents
1 Soil and Water Conservation.................................... 1
1.1 Why Conserve Soil?...................................... 1
1.2 Agents that Degrade Soil.................................. 2
1.3 Soil Erosion............................................. 3
1.3.1 Water Erosion................................... 3
1.3.2 Wind Erosion................................... 4
1.4 History of Soil Erosion.................................... 5
1.5 Consequences of Soil Erosion.............................. 6
1.5.1 On-site Problems................................ 6
1.5.2 Off-site Problems................................ 7
1.6 Drivers of Soil Erosion.................................... 8
1.6.1 Deforestation ................................... 9
1.6.2 Overgrazing.................................... 9
1.6.3 Mismanagement of Cultivated Lands................ 10
1.7 Erosion in the USA....................................... 10
1.8 Global Distribution of Soil Erosion Risks..................... 11
1.8.1 Soil Erosion in Africa and Haiti.................... 13
1.8.2 Drylands....................................... 14
1.8.3 Magnitude of Wind Erosion....................... 15
1.9 Current Trends in Soil and Water Conservation................ 16
Summary...................................................... 17
Study Questions ................................................ 17
References..................................................... 18
2 Water Erosion................................................. 21
2.1 Types................................................... 21
.1 Splash Erosion.................................. 21
.2 Interrill Erosion................................. 22
.3 Rill Erosion..................................... 23
.4 Gully Erosion................................... 24
.5 Tunnel Erosion.................................. 26
2.1.6 Streambank Erosion.............................. 26
2.2 Processes ............................................... 27
x Contents
2.3 Factors ................................................. 28
2.4 Agents.................................................. 28
2.5 Rainfall Erosivity......................................... 30
2.6 Runoff Erosivity ......................................... 32
2.6.1 Estimation of Runoff............................. 33
2.6.2 Time of Concentration............................ 33
2.6.3 Runoff Volume.................................. 36
2.6.4 Characteristics of the Hydrologic Groups............ 37
2.6.5 Peak Runoff Rate................................ 40
2.7 Soil Properties Affecting Erodibility......................... 41
2.7.1 Texture......................................... 41
2.7.2 Structure....................................... 42
2.7.3 Surface Sealing.................................. 42
2.7.4 Aggregate Properties............................. 43
2.7.5 Antecedent Soil Water Content..................... 44
2.7.6 Soil Organic Matter Content....................... 45
2.7.7 Water Transmission Properties..................... 46
2.8 Measuring Erosion ....................................... 49
Summary...................................................... 50
Study Questions ................................................ 51
References..................................................... 52
3 Wind Erosion.................................................. 55
3.1 Processes ............................................... 55
3.2 Factors ................................................. 58
3.3 Wind Erosivity........................................... 59
3.4 Soil Erodibility .......................................... 61
3.4.1 Texture......................................... 61
3.4.2 Crusts ......................................... 62
3.4.3 Dry Aggregate Size Distribution ................... 62
3.4.4 Aggregate Stability .............................. 63
3.4.5 Soil Surface Roughness........................... 63
3.4.6 Soil Water Content............................... 64
3.4.7 Wind Affected Area.............................. 64
3.4.8 Surface Cover................................... 64
3.4.9 Management-Induced Changes..................... 65
3.5 Measuring Wind Erosion.................................. 65
3.5.1 Efficiency of Sediment Samplers................... 65
3.5.2 Types of Sediment Samplers....................... 66
3.6 Management of Wind Erosion.............................. 68
3.7 Windbreaks ............................................. 68
3.7.1 Reduction in Wind Velocity....................... 70
3.7.2 Density and Porosity............................. 72
3.7.3 Side-Benefits ................................... 72
3.7.4 Constraints..................................... 73
Contents
3.8 Crop Residues........................................... 73
3.8.1 Flat and Standing Residues........................ 74
3.8.2 Availability of Residues........................... 74
3.9 Perennial Grasses ........................................ 74
3.10 Conservation Tillage...................................... 75
Summary...................................................... 77
Study Questions ................................................ 77
References..................................................... 78
Modeling Water and Wind Erosion............................... 81
4.1 Modeling Erosion........................................ 81
4.2 Empirical Models ........................................ 82
4.3 Universal Soil Loss Equation (USLE)........................ 82
4.3.1 Rainfall and Runoff Erosivity Index (El)............. 83
4.3.2 Soil Erodibility Factor (K) ........................ 84
4.3.3 Topographic Factor (LS).......................... 84
4.3.4 Cover-Management Factor (C)..................... 84
4.3.5 Support Practice Factor (P)........................ 85
4.4 Modified USLE (MUSLE)................................. 88
4.5 Revised USLE (RUSLE) .................................. 88
4.6 Process-Based Models .................................... 89
4.7 Water Erosion Prediction Project (WEPP).................... 89
4.8 Ephemeral Gully Erosion Model (EGEM).................... 92
4.9 Other Water Erosion Models............................... 93
4.10 Modeling Wind Erosion................................... 93
4.11 Wind Erosion Equation (WEQ)............................. 94
4.11.1 Erodiblity Index (I) .............................. 95
4.11.2 Climatic Factor (C).............................. 95
4.11.3 Soil Ridge Roughness Factor (K)................... 96
4.11.4 Vegetative Cover Factor (V)....................... 96
4.12 Revised WEQ (RWEQ) ................................... 98
4.12.1 Weather Factor (WF)............................. 98
4.12.2 Soil Roughness Factor (K)........................ 99
4.12.3 Erodible Fraction (EF)............................ 99
4.12.4 Surface Crust Factor (SCF)........................100
4.12.5 Combined Crop Factors (COG)....................100
4.13 Process-Based Models ....................................101
4.14 Wind Erosion Prediction System (WEPS)....................101
4.15 Other Wind Erosion Models................................103
4.15.1 Wind Erosion Stochastic Simulator (WESS) .........103
4.15.2 Texas Tech Erosion Analysis Model (TEAM)........103
4.15.3 Wind Erosion Assessment Model (WEAM)..........103
4.15.4 Wind Erosion and European Light Soils (WEELS)___103
4.15.5 Dust Production Model (DPM).....................104
4.16 Limitations of Water and Wind Models......................104
Contents
Summary......................................................104
Study Questions ................................................105
References.....................................................105
Tillage Erosion.................................................109
5.1 Definition and Magnitude of the Problem.....................110
5.2 Tillage Erosion Research: Past and Present...................Ill
5.3 Tillage Erosion versus Water and Wind Erosion...............112
5.4 Factors Affecting Tillage Erosion...........................113
5.5 Landform Erodibility .....................................114
5.6 Soil Erodibility ..........................................114
5.7 Tillage Erosivity .........................................114
5.7.1 Tillage Depth...................................114
5.7.2 Tillage Implement...............................115
5.7.3 Tillage Direction ................................116
5.7.4 Tillage Speed...................................116
5.7.5 Frequency of Tillage Passes.......................117
5.8 Tillage Erosion and Soil Properties..........................117
5.8.1 Soil Profile Characteristics........................117
5.8.2 Soil Properties ..................................118
5.9 Indicators of Tillage Erosion...............................118
5.9.1 Changes in Surface Elevation......................119
5.9.2 Activity of Radionuclides.........................119
5.10 Measurement of Soil Displacement..........................120
5.11 Tillage Erosion and Crop Production ........................121
5.12 Management of Tillage Erosion.............................121
5.13 Tillage Erosion Modeling..................................122
5.13.1 Predictive Equations .............................122
5.14 Computer Models........................................127
5.14.1 Tillage Erosion Prediction (TEP) Model.............127
5.14.2 Water and Tillage Erosion Model (WaTEM)..........127
5.14.3 Soil Redistribution by Tillage (SORET).............128
5.14.4 Soil Erosion by Tillage (SETi).....................129
5.14.5 Water- and Tillage-Induced Soil Redistribution
(SPEROS)..................................... 129
5.15 Soil Erosion and Harvesting of Root Crops...................130
Summary......................................................132
Study Questions ................................................132
References.....................................................133
Biological Measures of Erosion Control...........................137
6.1 Functions of Canopy Cover................................137
6.1.1 Measurement of Canopy Cover....................138
6.1.2 Canopy Cover vs. Soil Erosion Relationships.........138
6.2 Soil Amendments ........................................139
Contents
6.2.1 Classification ...................................139
6.2.2 Specificity......................................140
6.2.3 Soil Conditioner.................................140
6.3 Cover Crops.............................................140
6.3.1 Water Erosion...................................142
6.3.2 Wind Erosion...................................142
6.3.3 Soil Properties ..................................143
6.3.4 Management of Cover Crops......................143
6.4 Crop Residues...........................................144
6.4.1 Quantity .......................................144
6.4.2 Soil Properties ..................................145
6.4.3 Runoff and Soil Erosion..........................146
6.4.4 Crop Production.................................147
6.5 Residue Harvesting for Biofuel Production...................148
6.5.1 Threshold Level of Residue Removal...............149
6.5.2 Rapid Impacts of Residue Removal.................150
6.6 Bioenergy Plantations as an Alternative to Crop Residue Removal 150
6.7 Manuring...............................................151
6.7.1 Manuring and Soil Erosion........................152
6.7.2 Manuring and Soil Properties......................152
6.8 Soil Conditioners: Polymers................................153
6.9 Polyacrylamides (PAMs) ..................................154
6.9.1 Mechanisms of Soil Erosion Reduction by
Polyacrylamides................................ 155
6.9.2 Factors Affecting Performance of Polyacrylamides .... 157
6.9.3 Soil Characteristics ..............................157
6.9.4 Polyacrylamide Characteristics.....................157
6.9.5 Rainfall/Irrigation Patterns........................158
6.9.6 Soil Management................................159
6.9.7 Polyacrylamide vs. Soil Water Dynamics............159
6.9.8 Use of Polyacrylamide in Agricultural Soils..........160
6.9.9 Use of Polyacrylamide in Non-Agricultural Soils.....161
6.9.10 Cost-effectiveness of PAM........................161
Summary......................................................162
Study Questions ................................................163
References.....................................................163
Cropping Systems..............................................167
7.1 Fallow Systems..........................................168
7.2 Summer Fallows.........................................168
7.3 Monoculture.............................................169
7.4 Crop Rotations...........................................171
7.4.1 Soil Erosion....................................172
7.4.2 Soil Physical Properties...........................173
7.4.3 Nutrient Cycling and Input........................174
xjv Contents
7.4.4 Pesticide Use ...................................174
7.4.5 Crop Yields.....................................175
7.4.6 Selection of Crops for Rotations....................175
7.5 Cover Crops.............................................176
7.6 Cropping Intensity........................................176
7.7 Row Crops..............................................177
7.8 Multiple Cropping........................................178
7.9 Double Cropping.........................................179
7.10 Relay Cropping..........................................179
7.11 Intercropping............................................180
7.12 Contour Farming.........................................180
7.13 Strip Cropping...........................................181
7.14 Contour Strip Cropping ...................................182
7.15 Land Equivalent Ratio.....................................183
7.16 Organic Farming.........................................184
7.16.1 Definition......................................184
7.16.2 Background.....................................185
7.16.3 Importance.....................................186
7.16.4 Water Quality...................................186
7.16.5 Soil Erosion ....................................187
7.16.6 Soil Biological Properties.........................188
7.16.7 Soil Physical Properties...........................189
7.16.8 Crop Yields.....................................189
Summary......................................................190
Study Questions ................................................191
References.....................................................191
8 No-Till Farming................................................195
8.1 Seedbed and Soil Tilth....................................195
8.2 Factors Affecting Soil Tilth................................195
8.3 Tilth Index..............................................196
8.4 Tillage..................................................197
8.5 Tillage Tools ............................................198
8.6 Types of Tillage Systems..................................198
8.7 Conventional Tillage: Moldboard Plowing....................199
8.7.1 Residues.......................................199
8.7.2 Soil Properties ..................................200
8.7.3 Soil Compaction.................................200
8.8 Conservation Tillage Systems..............................201
8.9 No-Till Farming..........................................201
8.9.1 Americas.......................................202
8.9.2 Europe.........................................204
8.9.3 Africa and Asia..................................205
8.9.4 Australia.......................................205
8.10 Benefits of No-Till Farming................................205
Contents
8.10.1 Soil Structural Properties..........................206
8.10.2 Soil Water Content...............................207
8.10.3 Soil Temperature................................208
8.10.4 Micro-Scale Soil Properties .......................209
8.10.5 Soil Biota......................................211
8.10.6 Soil Erosion....................................211
8.11 Challenges in No-Till Management..........................212
8.11.1 Soil Compaction.................................213
8.11.2 Crop Yields.....................................214
8.11.3 Chemical Leaching ..............................214
8.12 No-Till and Subsoiling....................................214
8.13 Reduced Tillage..........................................215
8.14 Mulch Tillage............................................215
8.15 Strip Tillage.............................................216
8.16 Ridge Tillage............................................217
Summary......................................................219
Study Questions ................................................219
References.....................................................220
Buffer Strips...................................................223
9.1 Importance..............................................224
9.2 Mechanisms of Pollutant Removal..........................225
9.3 Factors Influencing the Performance of Buffer Strips...........226
9.4 Types and Management...................................227
9.5 Riparian Buffer Strips.....................................228
9.5.1 Design of Riparian Buffers........................229
9.5.2 Ancillary Benefits ...............................230
9.6 Filters Strips.............................................230
9.6.1 Effectiveness of Filter Strips in Concentrated Flow
Areas .........................................231
9.6.2 Grass Species for Filter Strips......................232
9.7 Grass Barriers ...........................................234
9.7.1 Natural Terrace Formation by Grass Barriers.........234
9.7.2 Runoff Ponding Above Grass Barriers...............235
9.7.3 Use of Grass Barriers for Diverse Agroecosystems .... 235
9.7.4 Use of Grass Barriers in the USA...................235
9.7.5 Grass Species for Barriers: Vetiver grass.............236
9.7.6 Grass Barriers and Pollutant Transport..............238
9.7.7 Design of Grass Barriers..........................239
9.7.8 Grass Barriers and Concentrated Flow...............240
9.7.9 Combination of Grass Barriers with Other Buffer Strips 240
9.8 Grass Waterways.........................................241
9.8.1 Design.........................................241
9.8.2 Management of Waterways........................245
9.9 Field Borders............................................245
xvi Contents
9.10 Modeling of Sediment Transport through Buffer Strips.........246
9.10.1 Process-Based Models............................247
9.10.2 Simplified Equations.............................248
Summary......................................................254
Study Questions ................................................255
References.....................................................256
10 Agroforestry...................................................259
10.1 Importance..............................................260
10.2 Classification............................................260
10.3 History.................................................260
10.4 Current Trends...........................................261
10.5 Functions of Agroforestry .................................261
10.5.1 Magnitude of Soil Erosion Reduction...............263
10.5.2 Agroforestry and Non-Point Source Pollution........263
10.6 Agroforestry and Factors of Soil Erosion.....................264
10.6.1 Rainfall and Runoff Erosivity......................264
10.6.2 Soil Erodibility..................................265
10.6.3 Terracing.......................................266
10.6.4 Surface Cover...................................267
10.7 Agroforestry and Land Reclamation.............,...........267
10.8 Agroforestry Plant Species.................................268
10.9 Alley Cropping ..........................................269
10.9.1 Benefits of Alley Cropping........................270
10.9.2 Design and Management of Alley Cropping Systems .. 271
10.10 Forest Farming...........................................273
10.11 Silvopastoral System......................................276
10.11.1 Silvopastoral System and Soil Erosion ..............276
10.11.2 Establishment and Management....................277
10.12 Use of Computer Tools in Agroforestry......................277
10.12.1 Geographic Information Systems...................277
10.12.2 Models.........................................278
10.13 Challenges in Agroforestry Systems.........................279
Summary......................................................280
Study Questions ................................................281
References.....................................................281
11 Mechanical Structures and Engineering Techniques................285
11.1 Types of Structures.......................................286
11.1.1 Contour Bunds..................................286
11.1.2 SiltFences......................................286
11.1.3 Surface Mats....................................288
11.1.4 Lining Measures.................................289
11.2 Farm Ponds .............................................290
11.2.1 Groundwater-fed Ponds...........................290
Contents xvii
11.2.2 Stream or Spring-fed Ponds.......................290
11.2.3 Off-stream Ponds................................291
11.2.4 Rainfed Ponds ..................................291
11.2.5 Design and Installation of Ponds...................292
11.3 Terraces ................................................295
11.4 Functions of Terraces.....................................296
11.5 Types of Terraces.........................................296
11.6 Design of Terraces........................................300
11.7 Management and Maintenance of Terraces....................304
11.8 Gully Erosion Control Structures............................307
11.8.1 Types of Structures ..............................309
11.8.2 Grassed Waterways..............................311
11.8.3 Gabions........................................311
11.8.4 Chute Spillways.................................313
11.8.5 Pipe Spillways..................................313
11.8.6 Drop Structure..................................314
11.8.7 Culverts........................................316
11.8.8 Maintenance of Gully Erosion Control Practices......316
Summary......................................................317
Study Questions ................................................317
References.....................................................318
12 Soil Erosion Under Forests......................................321
12.1 Importance of Forestlands .................................321
12.2 Classification of Forests...................................322
12.3 Natural Forests and Soil Erosion............................322
12.3.1 Canopy Structure................................323
12.3.2 Forest Litter and Roots...........................323
12.4 Deforestation and Soil Degradation..........................323
12.4.1 Soil Erosion....................................324
12.4.2 Soil Properties ..................................325
12.5 Causes of Deforestation...................................327
12.5.1 Cultivation .....................................327
12.5.2 Grazing........................................327
12.5.3 Logging........................................328
12.5.4 Urbanization....................................329
12.5.5 Wildfires.......................................329
12.6 Global Implications of Deforestation........................331
12.7 Methods of Land Clearing.................................333
12.8 Water Repellency of Forest Soils............................333
12.9 Management of Burned Forestlands.........................334
12.10 Reforestation............................................337
12.11 Afforestation............................................338
12.12 Management of Cleared Forestlands.........................338
12.13 Modeling of Erosion Under Forests..........................340
xviii Contents
12.13.1 Empirical Models................................340
12.13.2 Process-Based Models............................341
Summary......................................................342
Study Questions ................................................343
References.....................................................343
13 Erosion on Grazing Lands ......................................345
13.1 Rangeland Systems.......................................346
13.2 Pastureland Systems......................................346
13.3 Degradation of Grazing Lands..............................348
13.3.1 Rangelands.....................................348
13.3.2 Pasturelands....................................348
13.4 Grazing Impacts..........................................350
13.4.1 Soil Erosion ....................................350
13.4.2 Soil Properties ..................................352
13.4.3 Plant Growth....................................354
13.5 Grasses and Erosion Reduction: Mechanisms.................355
13.5.1 Protection of the Soil Surface......................355
13.5.2 Stabilization of Soil Matrix........................355
13.6 Root System and Soil Erodibility ...........................356
13.7 Water Pollution in Grazing Lands...........................359
13.8 Grazing and Conservation Buffers...........................360
13.9 Grasslands and Biofuel Production..........................361
13.10 Methods of Grazing.......................................362
13.11 Management of Grazing Lands.............................363
13.11.1 Benefits of Grazing..............................364
13.11.2 Fire as a Management Tool........................364
13.11.3 Resilience and Recovery of Grazed Lands...........365
13.11.4 Conversion of Pastureland to Croplands.............366
13.11.5 Conversion of Croplands to Permanent Vegetation .... 367
13.11.6 Rotational Stocking..............................367
13.11.7 Restoration of Degraded Grazed Lands..............368
13.12 Modeling of Grazing Land Management.....................369
Summary......................................................370
Study Questions ................................................371
References.....................................................372
14 Nutrient Erosion and Hypoxia of Aquatic Ecosystems..............375
14.1 Water Quality............................................375
14.2 Eutrophication...........................................376
14.3 Non-point Source Pollution and Runoff......................377
14.4 Factors Affecting Transport of Pollutants.....................377
14.5 Pollutant Sources.........................................378
14.6 Common Pollutants.......................................380
14.6.1 Sediment.......................................380
Contents xix
14.6.2 Nitrogen .......................................381
14.6.3 Phosphorus.....................................382
14.6.4 Animal Manure .................................383
14.6.5 Pesticides ......................................384
14.7 Pathways of Pollutant Transport............................385
14.7.1 Water Runoff...................................386
14.7.2 Leaching.......................................386
14.7.3 Volatilization....................................387
14.8 Hypoxia of Coastal Waters.................................387
14.9 Wetlands and Pollution....................................389
14.9.1 Degradation of Wetlands..........................390
14.9.2 Restoration of Wetland...........................391
14.10 Mitigating Non-point Source Pollution and Hypoxia...........391
14.10.1 Management of Chemical Inputs...................392
14.10.2 Conservation Practices ...........................393
14.11 Models of Non-Point Source Pollution.......................395
Summary......................................................395
Study Questions ................................................396
References.....................................................396
15 Restoration of Eroded and Degraded Soils........................399
15.1 Methods of Restoration of Agriculturally Marginal Soils........400
15.2 Compacted Soils.........................................402
15.3 Acid Soils...............................................403
15.4 Restoration of Acid Soils..................................404
15.5 Saline and Sodic Soils.....................................406
15.5.1 Causes of Salinization and Sodification..............408
15.5.2 Salinization and Soil Properties....................409
15.6 Restoration of Saline and Sodic Soils........................409
15.6.1 Leaching.......................................410
15.6.2 Increasing Soil Water Content .....................411
15.6.3 Use of Salt-Tolerant Crop Varieties.................411
15.6.4 Use of Salt-Tolerant Trees and Grasses..............412
15.6.5 Establishment of Drainage Systems.................412
15.6.6 Tillage Practices: Subsoiling.......................412
15.6.7 Application of Amendments.......................413
15.6.8 Application of Gypsum...........................413
15.6.9 Other Techniques................................415
15.7 Mined Soils.............................................415
15.8 Restoration of Mined Soils.................................417
15.8.1 Soil Restoration Practices.........................418
15.8.2 Indicators of Soil Restoration......................418
15.8.3 Soil Profile Development .........................419
15.8.4 Runoff and Soil Erosion..........................419
15.8.5 Soil Physical Properties...........................420
xx Contents
Summary......................................................421
Study Questions ................................................421
References.....................................................422
16 Soil Resilience and Conservation.................................425
16.1 Concepts of Soil Resilience................................425
16.2 Importance..............................................426
16.3 Classification of Soil Resilience ............................427
16.4 Soil Disturbance .........................................428
16.5 What Attributes Make a Soil Resilient?: Factors...............429
16.5.1 Parent Material..................................430
16.5.2 Climate........................................430
16.5.3 Biota..........................................431
16.5.4 Topography.....................................432
16.5.5 Time...........................................433
16.6 Soil Processes and Resilience ..............................433
16.7 Soil Erosion and Resilience................................435
16.8 Soil Resilience and Erodibility..............................435
16.8.1 Soil Physical Properties...........................435
16.8.2 Soil Chemical and Biological Properties.............437
16.9 Soil Resilience and Chemical Contamination .................437
16.10 Indicators of Soil Resilience................................438
16.11 Measurements of Resilience................................439
16.12 Modeling ...............................................439
16.12.1 Single Property Model............................439
16.12.2 Multiple Property Models.........................439
16.13 Management Strategies to Promote Soil Resilience.............442
Summary......................................................444
Study Questions ................................................445
References.....................................................446
17 Soil Conservation and Carbon Dynamics .........................449
17.1 Importance of Soil Organic Carbon..........................449
17.2 Soil Organic Carbon Balance...............................450
17.3 Soil Erosion and Organic Carbon Dynamics..................451
17.3.1 Aggregate Disintegration..........................451
17.3.2 Preferential Removal of Carbon....................452
17.3.3 Redistribution of Carbon Transported by Erosion.....452
17.3.4 Mineralization of Soil Organic Matter...............452
17.3.5 Deposition and Burial of Carbon by Transported by
Erosion........................................453
17.4 Fate of the Carbon Transported by Erosion...................453
17.5 Carbon Transported by Erosion: Source or Sink for Atmospheric
CO2....................................................454
17.6 Tillage Erosion and Soil Carbon............................455
Contents xxi
17.7 Conservation Practices and Soil Organic Carbon Dynamics .....456
17.8 No-Till and Soil Carbon Sequestration.......................456
17.8.1 Mechanisms of Soil Organic Carbon Sequestration .... 456
17.8.2 Excessive Plowing...............................457
17.8.3 Site Specificity of Carbon Sequestration.............457
17.8.4 Stratification of Soil Carbon.......................457
17.8.5 Soil-Profile Carbon Sequestration..................458
17.9 Crop Rotations...........................................459
17.10 Cover Crops.............................................460
17.11 Crop Residues...........................................460
17.12 Manure.................................................461
17.13 Agroforestry.............................................462
17.14 Organic Farming.........................................463
17.14.1 Excessive Tillage................................463
17.14.2 Source of Soil Organic Carbon.....................464
17.14.3 Cropping Systems...............................464
17.15 Bioenergy Crops.........................................464
17.16 Reclaimed Lands.........................................465
17.17 Measurement of Soil Carbon Pool...........................466
17.17.1 Laser Induced Breakdown Spectroscopy (LIBS)......466
17.17.2 Inelastic Neutron Scattering (INS)..................467
17.17.3 Infrared Reflectance Spectroscopy (IRS).............467
17.17.4 Remote Sensing.................................467
17.18 Soil Management and Carbon Emissions.....................468
17.19 Biochar.................................................469
17.20 Modeling Soil Carbon Dynamics............................470
17.21 Soil Conservation and Carbon Credits .......................471
Summary......................................................472
Study Questions ................................................473
References.....................................................474
18 Erosion Control and Soil Quality.................................477
18.1 Definitions of Soil Quality.................................477
18.2 Divergences in Conceptual Definitions
and Assessment Approaches...............................478
18.3 New Perspective .........................................479
18.4 Soil Quality Paradigm and its Importance ....................480
18.5 Indicators of Soil Quality..................................481
18.5.1 Soil Physical Quality.............................482
18.5.2 Soil Chemical and Biological Quality...............482
18.5.3 Macro- and Micro-Scale Soil Attributes.............482
18.5.4 Interaction Among Soil Quality Indicators...........483
18.6 Soil Quality Index........................................484
18.7 Assessment Tools ........................................484
18.7.1 Farmer-Based Soil Quality Assessment Approach.....485
xxii Contents
18.7.2 Soil Test Kits ...................................486
18.7.3 The Soil Management Assessment Framework.......486
18.8 Soil Quality and Erosion Relationships.......................487
18.8.1 Soil Erosion and Profile Depth.....................487
18.8.2 Soil Physical Properties...........................488
18.8.3 Soil Chemical and Biological Properties.............489
18.9 Management of Soil Quality ...............................489
Summary......................................................489
Study Questions ................................................490
References.....................................................491
19 Soil Erosion and Food Security..................................493
19.1 Soil Erosion and Yield Losses..............................494
19.2 Variability of Erosion Impacts..............................495
19.2.1 Soil Type.......................................496
19.2.2 Climate........................................497
19.3 Soil Factors Affecting Crop Yields on Eroded Landscapes ......497
19.3.1 Physical Hindrance ..............................498
19.3.2 Topsoil Thickness ...............................498
19.3.3 Soil Compaction.................................499
19.3.4 Plant Available Water Capacity ....................499
19.3.5 Soil Organic Matter and Nutrient Reserves...........500
19.4 Wind Erosion and Crop Production..........................501
19.5 Response Functions of Crop Yield to Erosion.................502
19.6 Techniques of Evaluation of Crop Response to Erosion.........502
19.6.1 Removal of Topsoil..............................503
19.6.2 Addition of Topsoil..............................504
19.6.3 Natural Soil Erosion..............................504
19.7 Modeling Erosion-Yield Relationships.......................504
19.8 Productivity Index (PI)....................................505
19.9 Process-Based Models....................................506
19.9.1 EPIC ..........................................506
19.9.2 Cropsyst .......................................508
19.9.3 GIS-Based Modeling Approaches..................508
Summary......................................................510
Study Questions ................................................511
References.....................................................511
20 Climate Change and Soil Erosion Risks...........................513
20.1 Greenhouse Effect on Climatic Patterns......................514
20.1.1 Temperature....................................514
20.1.2 Precipitation....................................515
20.1.3 Droughts.......................................515
20.1.4 Other Indicators of Climate Change.................516
20.2 Climate Change and Soil Erosion...........................516
Contents xxiii
20.2.1 Water Erosion...................................516
20.2.2 Nutrient Losses in Runoff.........................518
20.2.3 Wind Erosion...................................519
20.3 Complexity of Climate Change Impacts......................519
20.4 Erosion and Crop Yields...................................519
20.5 Impacts of Climate Change on Soil Erosion Factors............520
20.5.1 Precipitation....................................520
20.5.2 Soil Erodibility..................................521
20.5.3 Vegetative Cover ................................522
20.5.4 Cropping Systems...............................522
20.6 Soil Formation...........................................522
20.7 Soil Processes ...........................................524
20.8 Soil Properties...........................................524
20.8.1 Temperature....................................524
20.8.2 Water Content...................................525
20.8.3 Color..........................................525
20.8.4 Structural Properties .............................525
20.8.5 Soil Biota......................................526
20.8.6 Soil Organic Carbon Content......................527
20.9 Crop Production..........................................528
20.9.1 Positive Impacts.................................528
20.9.2 Adverse Impacts.................................529
20.9.3 Complex Interactions.............................530
20.10 Soil Warming Simulation Studies...........................530
20.10.1 Buried Electric Cables............................530
20.10.2 Overhead Heaters................................531
20.11 Modeling Impacts of Climate Change........................531
20.12 Adapting to Global Warming...............................532
Summary......................................................533
Study Questions ................................................534
References.....................................................534
21 The Way Forward..............................................537
21.1 Strategies of Soil and Water Conservation....................538
21.2 Soil Conservation is a Multidisciplinary Issue.................540
21.3 Policy Imperatives........................................540
21.4 Specific Strategies........................................541
21.5 Food Production .........................................541
21.6 Crop Residues and Biofuel Production.......................542
21.7 Biological Practices and Soil Conditioners....................543
21.8 Buffer Strips.............................................543
21.9 Agroforestry.............................................544
21.10 Tillage Erosion...........................................545
21.11 Organic Farming.........................................546
21.12 Soil Quality and Resilience ................................547
xxiv Contents
21.13 No-Till Farming..........................................549
21.14 Soil Organic Carbon......................................549
21.15 Deforestation............................................551
21.16 Abrupt Climate Change...................................552
21.17 Modeling...............................................553
21.18 Soil Management Techniques for Small Land Holders
in Resource-Poor Regions.................................554
Summary......................................................556
Study Questions ................................................556
References.....................................................557
Appendix A........................................................559
Appendix B........................................................561
Color Plates .......................................................565
Index.............................................................601
|
| adam_txt |
Titel: Principles of soil conservation and management
Autor: Blanco, Humberto
Jahr: 2008
Contents
1 Soil and Water Conservation. 1
1.1 Why Conserve Soil?. 1
1.2 Agents that Degrade Soil. 2
1.3 Soil Erosion. 3
1.3.1 Water Erosion. 3
1.3.2 Wind Erosion. 4
1.4 History of Soil Erosion. 5
1.5 Consequences of Soil Erosion. 6
1.5.1 On-site Problems. 6
1.5.2 Off-site Problems. 7
1.6 Drivers of Soil Erosion. 8
1.6.1 Deforestation . 9
1.6.2 Overgrazing. 9
1.6.3 Mismanagement of Cultivated Lands. 10
1.7 Erosion in the USA. 10
1.8 Global Distribution of Soil Erosion Risks. 11
1.8.1 Soil Erosion in Africa and Haiti. 13
1.8.2 Drylands. 14
1.8.3 Magnitude of Wind Erosion. 15
1.9 Current Trends in Soil and Water Conservation. 16
Summary. 17
Study Questions . 17
References. 18
2 Water Erosion. 21
2.1 Types. 21
.1 Splash Erosion. 21
.2 Interrill Erosion. 22
.3 Rill Erosion. 23
.4 Gully Erosion. 24
.5 Tunnel Erosion. 26
2.1.6 Streambank Erosion. 26
2.2 Processes . 27
x Contents
2.3 Factors . 28
2.4 Agents. 28
2.5 Rainfall Erosivity. 30
2.6 Runoff Erosivity . 32
2.6.1 Estimation of Runoff. 33
2.6.2 Time of Concentration. 33
2.6.3 Runoff Volume. 36
2.6.4 Characteristics of the Hydrologic Groups. 37
2.6.5 Peak Runoff Rate. 40
2.7 Soil Properties Affecting Erodibility. 41
2.7.1 Texture. 41
2.7.2 Structure. 42
2.7.3 Surface Sealing. 42
2.7.4 Aggregate Properties. 43
2.7.5 Antecedent Soil Water Content. 44
2.7.6 Soil Organic Matter Content. 45
2.7.7 Water Transmission Properties. 46
2.8 Measuring Erosion . 49
Summary. 50
Study Questions . 51
References. 52
3 Wind Erosion. 55
3.1 Processes . 55
3.2 Factors . 58
3.3 Wind Erosivity. 59
3.4 Soil Erodibility . 61
3.4.1 Texture. 61
3.4.2 Crusts . 62
3.4.3 Dry Aggregate Size Distribution . 62
3.4.4 Aggregate Stability . 63
3.4.5 Soil Surface Roughness. 63
3.4.6 Soil Water Content. 64
3.4.7 Wind Affected Area. 64
3.4.8 Surface Cover. 64
3.4.9 Management-Induced Changes. 65
3.5 Measuring Wind Erosion. 65
3.5.1 Efficiency of Sediment Samplers. 65
3.5.2 Types of Sediment Samplers. 66
3.6 Management of Wind Erosion. 68
3.7 Windbreaks . 68
3.7.1 Reduction in Wind Velocity. 70
3.7.2 Density and Porosity. 72
3.7.3 Side-Benefits . 72
3.7.4 Constraints. 73
Contents
3.8 Crop Residues. 73
3.8.1 Flat and Standing Residues. 74
3.8.2 Availability of Residues. 74
3.9 Perennial Grasses . 74
3.10 Conservation Tillage. 75
Summary. 77
Study Questions . 77
References. 78
Modeling Water and Wind Erosion. 81
4.1 Modeling Erosion. 81
4.2 Empirical Models . 82
4.3 Universal Soil Loss Equation (USLE). 82
4.3.1 Rainfall and Runoff Erosivity Index (El). 83
4.3.2 Soil Erodibility Factor (K) . 84
4.3.3 Topographic Factor (LS). 84
4.3.4 Cover-Management Factor (C). 84
4.3.5 Support Practice Factor (P). 85
4.4 Modified USLE (MUSLE). 88
4.5 Revised USLE (RUSLE) . 88
4.6 Process-Based Models . 89
4.7 Water Erosion Prediction Project (WEPP). 89
4.8 Ephemeral Gully Erosion Model (EGEM). 92
4.9 Other Water Erosion Models. 93
4.10 Modeling Wind Erosion. 93
4.11 Wind Erosion Equation (WEQ). 94
4.11.1 Erodiblity Index (I) . 95
4.11.2 Climatic Factor (C). 95
4.11.3 Soil Ridge Roughness Factor (K). 96
4.11.4 Vegetative Cover Factor (V). 96
4.12 Revised WEQ (RWEQ) . 98
4.12.1 Weather Factor (WF). 98
4.12.2 Soil Roughness Factor (K). 99
4.12.3 Erodible Fraction (EF). 99
4.12.4 Surface Crust Factor (SCF).100
4.12.5 Combined Crop Factors (COG).100
4.13 Process-Based Models .101
4.14 Wind Erosion Prediction System (WEPS).101
4.15 Other Wind Erosion Models.103
4.15.1 Wind Erosion Stochastic Simulator (WESS) .103
4.15.2 Texas Tech Erosion Analysis Model (TEAM).103
4.15.3 Wind Erosion Assessment Model (WEAM).103
4.15.4 Wind Erosion and European Light Soils (WEELS)_103
4.15.5 Dust Production Model (DPM).104
4.16 Limitations of Water and Wind Models.104
Contents
Summary.104
Study Questions .105
References.105
Tillage Erosion.109
5.1 Definition and Magnitude of the Problem.110
5.2 Tillage Erosion Research: Past and Present.Ill
5.3 Tillage Erosion versus Water and Wind Erosion.112
5.4 Factors Affecting Tillage Erosion.113
5.5 Landform Erodibility .114
5.6 Soil Erodibility .114
5.7 Tillage Erosivity .114
5.7.1 Tillage Depth.114
5.7.2 Tillage Implement.115
5.7.3 Tillage Direction .116
5.7.4 Tillage Speed.116
5.7.5 Frequency of Tillage Passes.117
5.8 Tillage Erosion and Soil Properties.117
5.8.1 Soil Profile Characteristics.117
5.8.2 Soil Properties .118
5.9 Indicators of Tillage Erosion.118
5.9.1 Changes in Surface Elevation.119
5.9.2 Activity of Radionuclides.119
5.10 Measurement of Soil Displacement.120
5.11 Tillage Erosion and Crop Production .121
5.12 Management of Tillage Erosion.121
5.13 Tillage Erosion Modeling.122
5.13.1 Predictive Equations .122
5.14 Computer Models.127
5.14.1 Tillage Erosion Prediction (TEP) Model.127
5.14.2 Water and Tillage Erosion Model (WaTEM).127
5.14.3 Soil Redistribution by Tillage (SORET).128
5.14.4 Soil Erosion by Tillage (SETi).129
5.14.5 Water- and Tillage-Induced Soil Redistribution
(SPEROS). 129
5.15 Soil Erosion and Harvesting of Root Crops.130
Summary.132
Study Questions .132
References.133
Biological Measures of Erosion Control.137
6.1 Functions of Canopy Cover.137
6.1.1 Measurement of Canopy Cover.138
6.1.2 Canopy Cover vs. Soil Erosion Relationships.138
6.2 Soil Amendments .139
Contents
6.2.1 Classification .139
6.2.2 Specificity.140
6.2.3 Soil Conditioner.140
6.3 Cover Crops.140
6.3.1 Water Erosion.142
6.3.2 Wind Erosion.142
6.3.3 Soil Properties .143
6.3.4 Management of Cover Crops.143
6.4 Crop Residues.144
6.4.1 Quantity .144
6.4.2 Soil Properties .145
6.4.3 Runoff and Soil Erosion.146
6.4.4 Crop Production.147
6.5 Residue Harvesting for Biofuel Production.148
6.5.1 Threshold Level of Residue Removal.149
6.5.2 Rapid Impacts of Residue Removal.150
6.6 Bioenergy Plantations as an Alternative to Crop Residue Removal 150
6.7 Manuring.151
6.7.1 Manuring and Soil Erosion.152
6.7.2 Manuring and Soil Properties.152
6.8 Soil Conditioners: Polymers.153
6.9 Polyacrylamides (PAMs) .154
6.9.1 Mechanisms of Soil Erosion Reduction by
Polyacrylamides. 155
6.9.2 Factors Affecting Performance of Polyacrylamides . 157
6.9.3 Soil Characteristics .157
6.9.4 Polyacrylamide Characteristics.157
6.9.5 Rainfall/Irrigation Patterns.158
6.9.6 Soil Management.159
6.9.7 Polyacrylamide vs. Soil Water Dynamics.159
6.9.8 Use of Polyacrylamide in Agricultural Soils.160
6.9.9 Use of Polyacrylamide in Non-Agricultural Soils.161
6.9.10 Cost-effectiveness of PAM.161
Summary.162
Study Questions .163
References.163
Cropping Systems.167
7.1 Fallow Systems.168
7.2 Summer Fallows.168
7.3 Monoculture.169
7.4 Crop Rotations.171
7.4.1 Soil Erosion.172
7.4.2 Soil Physical Properties.173
7.4.3 Nutrient Cycling and Input.174
xjv Contents
7.4.4 Pesticide Use .174
7.4.5 Crop Yields.175
7.4.6 Selection of Crops for Rotations.175
7.5 Cover Crops.176
7.6 Cropping Intensity.176
7.7 Row Crops.177
7.8 Multiple Cropping.178
7.9 Double Cropping.179
7.10 Relay Cropping.179
7.11 Intercropping.180
7.12 Contour Farming.180
7.13 Strip Cropping.181
7.14 Contour Strip Cropping .182
7.15 Land Equivalent Ratio.183
7.16 Organic Farming.184
7.16.1 Definition.184
7.16.2 Background.185
7.16.3 Importance.186
7.16.4 Water Quality.186
7.16.5 Soil Erosion .187
7.16.6 Soil Biological Properties.188
7.16.7 Soil Physical Properties.189
7.16.8 Crop Yields.189
Summary.190
Study Questions .191
References.191
8 No-Till Farming.195
8.1 Seedbed and Soil Tilth.195
8.2 Factors Affecting Soil Tilth.195
8.3 Tilth Index.196
8.4 Tillage.197
8.5 Tillage Tools .198
8.6 Types of Tillage Systems.198
8.7 Conventional Tillage: Moldboard Plowing.199
8.7.1 Residues.199
8.7.2 Soil Properties .200
8.7.3 Soil Compaction.200
8.8 Conservation Tillage Systems.201
8.9 No-Till Farming.201
8.9.1 Americas.202
8.9.2 Europe.204
8.9.3 Africa and Asia.205
8.9.4 Australia.205
8.10 Benefits of No-Till Farming.205
Contents
8.10.1 Soil Structural Properties.206
8.10.2 Soil Water Content.207
8.10.3 Soil Temperature.208
8.10.4 Micro-Scale Soil Properties .209
8.10.5 Soil Biota.211
8.10.6 Soil Erosion.211
8.11 Challenges in No-Till Management.212
8.11.1 Soil Compaction.213
8.11.2 Crop Yields.214
8.11.3 Chemical Leaching .214
8.12 No-Till and Subsoiling.214
8.13 Reduced Tillage.215
8.14 Mulch Tillage.215
8.15 Strip Tillage.216
8.16 Ridge Tillage.217
Summary.219
Study Questions .219
References.220
Buffer Strips.223
9.1 Importance.224
9.2 Mechanisms of Pollutant Removal.225
9.3 Factors Influencing the Performance of Buffer Strips.226
9.4 Types and Management.227
9.5 Riparian Buffer Strips.228
9.5.1 Design of Riparian Buffers.229
9.5.2 Ancillary Benefits .230
9.6 Filters Strips.230
9.6.1 Effectiveness of Filter Strips in Concentrated Flow
Areas .231
9.6.2 Grass Species for Filter Strips.232
9.7 Grass Barriers .234
9.7.1 Natural Terrace Formation by Grass Barriers.234
9.7.2 Runoff Ponding Above Grass Barriers.235
9.7.3 Use of Grass Barriers for Diverse Agroecosystems . 235
9.7.4 Use of Grass Barriers in the USA.235
9.7.5 Grass Species for Barriers: Vetiver grass.236
9.7.6 Grass Barriers and Pollutant Transport.238
9.7.7 Design of Grass Barriers.239
9.7.8 Grass Barriers and Concentrated Flow.240
9.7.9 Combination of Grass Barriers with Other Buffer Strips 240
9.8 Grass Waterways.241
9.8.1 Design.241
9.8.2 Management of Waterways.245
9.9 Field Borders.245
xvi Contents
9.10 Modeling of Sediment Transport through Buffer Strips.246
9.10.1 Process-Based Models.247
9.10.2 Simplified Equations.248
Summary.254
Study Questions .255
References.256
10 Agroforestry.259
10.1 Importance.260
10.2 Classification.260
10.3 History.260
10.4 Current Trends.261
10.5 Functions of Agroforestry .261
10.5.1 Magnitude of Soil Erosion Reduction.263
10.5.2 Agroforestry and Non-Point Source Pollution.263
10.6 Agroforestry and Factors of Soil Erosion.264
10.6.1 Rainfall and Runoff Erosivity.264
10.6.2 Soil Erodibility.265
10.6.3 Terracing.266
10.6.4 Surface Cover.267
10.7 Agroforestry and Land Reclamation.,.267
10.8 Agroforestry Plant Species.268
10.9 Alley Cropping .269
10.9.1 Benefits of Alley Cropping.270
10.9.2 Design and Management of Alley Cropping Systems . 271
10.10 Forest Farming.273
10.11 Silvopastoral System.276
10.11.1 Silvopastoral System and Soil Erosion .276
10.11.2 Establishment and Management.277
10.12 Use of Computer Tools in Agroforestry.277
10.12.1 Geographic Information Systems.277
10.12.2 Models.278
10.13 Challenges in Agroforestry Systems.279
Summary.280
Study Questions .281
References.281
11 Mechanical Structures and Engineering Techniques.285
11.1 Types of Structures.286
11.1.1 Contour Bunds.286
11.1.2 SiltFences.286
11.1.3 Surface Mats.288
11.1.4 Lining Measures.289
11.2 Farm Ponds .290
11.2.1 Groundwater-fed Ponds.290
Contents xvii
11.2.2 Stream or Spring-fed Ponds.290
11.2.3 Off-stream Ponds.291
11.2.4 Rainfed Ponds .291
11.2.5 Design and Installation of Ponds.292
11.3 Terraces .295
11.4 Functions of Terraces.296
11.5 Types of Terraces.296
11.6 Design of Terraces.300
11.7 Management and Maintenance of Terraces.304
11.8 Gully Erosion Control Structures.307
11.8.1 Types of Structures .309
11.8.2 Grassed Waterways.311
11.8.3 Gabions.311
11.8.4 Chute Spillways.313
11.8.5 Pipe Spillways.313
11.8.6 Drop Structure.314
11.8.7 Culverts.316
11.8.8 Maintenance of Gully Erosion Control Practices.316
Summary.317
Study Questions .317
References.318
12 Soil Erosion Under Forests.321
12.1 Importance of Forestlands .321
12.2 Classification of Forests.322
12.3 Natural Forests and Soil Erosion.322
12.3.1 Canopy Structure.323
12.3.2 Forest Litter and Roots.323
12.4 Deforestation and Soil Degradation.323
12.4.1 Soil Erosion.324
12.4.2 Soil Properties .325
12.5 Causes of Deforestation.327
12.5.1 Cultivation .327
12.5.2 Grazing.327
12.5.3 Logging.328
12.5.4 Urbanization.329
12.5.5 Wildfires.329
12.6 Global Implications of Deforestation.331
12.7 Methods of Land Clearing.333
12.8 Water Repellency of Forest Soils.333
12.9 Management of Burned Forestlands.334
12.10 Reforestation.337
12.11 Afforestation.338
12.12 Management of Cleared Forestlands.338
12.13 Modeling of Erosion Under Forests.340
xviii Contents
12.13.1 Empirical Models.340
12.13.2 Process-Based Models.341
Summary.342
Study Questions .343
References.343
13 Erosion on Grazing Lands .345
13.1 Rangeland Systems.346
13.2 Pastureland Systems.346
13.3 Degradation of Grazing Lands.348
13.3.1 Rangelands.348
13.3.2 Pasturelands.348
13.4 Grazing Impacts.350
13.4.1 Soil Erosion .350
13.4.2 Soil Properties .352
13.4.3 Plant Growth.354
13.5 Grasses and Erosion Reduction: Mechanisms.355
13.5.1 Protection of the Soil Surface.355
13.5.2 Stabilization of Soil Matrix.355
13.6 Root System and Soil Erodibility .356
13.7 Water Pollution in Grazing Lands.359
13.8 Grazing and Conservation Buffers.360
13.9 Grasslands and Biofuel Production.361
13.10 Methods of Grazing.362
13.11 Management of Grazing Lands.363
13.11.1 Benefits of Grazing.364
13.11.2 Fire as a Management Tool.364
13.11.3 Resilience and Recovery of Grazed Lands.365
13.11.4 Conversion of Pastureland to Croplands.366
13.11.5 Conversion of Croplands to Permanent Vegetation . 367
13.11.6 Rotational Stocking.367
13.11.7 Restoration of Degraded Grazed Lands.368
13.12 Modeling of Grazing Land Management.369
Summary.370
Study Questions .371
References.372
14 Nutrient Erosion and Hypoxia of Aquatic Ecosystems.375
14.1 Water Quality.375
14.2 Eutrophication.376
14.3 Non-point Source Pollution and Runoff.377
14.4 Factors Affecting Transport of Pollutants.377
14.5 Pollutant Sources.378
14.6 Common Pollutants.380
14.6.1 Sediment.380
Contents xix
14.6.2 Nitrogen .381
14.6.3 Phosphorus.382
14.6.4 Animal Manure .383
14.6.5 Pesticides .384
14.7 Pathways of Pollutant Transport.385
14.7.1 Water Runoff.386
14.7.2 Leaching.386
14.7.3 Volatilization.387
14.8 Hypoxia of Coastal Waters.387
14.9 Wetlands and Pollution.389
14.9.1 Degradation of Wetlands.390
14.9.2 Restoration of Wetland.391
14.10 Mitigating Non-point Source Pollution and Hypoxia.391
14.10.1 Management of Chemical Inputs.392
14.10.2 Conservation Practices .393
14.11 Models of Non-Point Source Pollution.395
Summary.395
Study Questions .396
References.396
15 Restoration of Eroded and Degraded Soils.399
15.1 Methods of Restoration of Agriculturally Marginal Soils.400
15.2 Compacted Soils.402
15.3 Acid Soils.403
15.4 Restoration of Acid Soils.404
15.5 Saline and Sodic Soils.406
15.5.1 Causes of Salinization and Sodification.408
15.5.2 Salinization and Soil Properties.409
15.6 Restoration of Saline and Sodic Soils.409
15.6.1 Leaching.410
15.6.2 Increasing Soil Water Content .411
15.6.3 Use of Salt-Tolerant Crop Varieties.411
15.6.4 Use of Salt-Tolerant Trees and Grasses.412
15.6.5 Establishment of Drainage Systems.412
15.6.6 Tillage Practices: Subsoiling.412
15.6.7 Application of Amendments.413
15.6.8 Application of Gypsum.413
15.6.9 Other Techniques.415
15.7 Mined Soils.415
15.8 Restoration of Mined Soils.417
15.8.1 Soil Restoration Practices.418
15.8.2 Indicators of Soil Restoration.418
15.8.3 Soil Profile Development .419
15.8.4 Runoff and Soil Erosion.419
15.8.5 Soil Physical Properties.420
xx Contents
Summary.421
Study Questions .421
References.422
16 Soil Resilience and Conservation.425
16.1 Concepts of Soil Resilience.425
16.2 Importance.426
16.3 Classification of Soil Resilience .427
16.4 Soil Disturbance .428
16.5 What Attributes Make a Soil Resilient?: Factors.429
16.5.1 Parent Material.430
16.5.2 Climate.430
16.5.3 Biota.431
16.5.4 Topography.432
16.5.5 Time.433
16.6 Soil Processes and Resilience .433
16.7 Soil Erosion and Resilience.435
16.8 Soil Resilience and Erodibility.435
16.8.1 Soil Physical Properties.435
16.8.2 Soil Chemical and Biological Properties.437
16.9 Soil Resilience and Chemical Contamination .437
16.10 Indicators of Soil Resilience.438
16.11 Measurements of Resilience.439
16.12 Modeling .439
16.12.1 Single Property Model.439
16.12.2 Multiple Property Models.439
16.13 Management Strategies to Promote Soil Resilience.442
Summary.444
Study Questions .445
References.446
17 Soil Conservation and Carbon Dynamics .449
17.1 Importance of Soil Organic Carbon.449
17.2 Soil Organic Carbon Balance.450
17.3 Soil Erosion and Organic Carbon Dynamics.451
17.3.1 Aggregate Disintegration.451
17.3.2 Preferential Removal of Carbon.452
17.3.3 Redistribution of Carbon Transported by Erosion.452
17.3.4 Mineralization of Soil Organic Matter.452
17.3.5 Deposition and Burial of Carbon by Transported by
Erosion.453
17.4 Fate of the Carbon Transported by Erosion.453
17.5 Carbon Transported by Erosion: Source or Sink for Atmospheric
CO2.454
17.6 Tillage Erosion and Soil Carbon.455
Contents xxi
17.7 Conservation Practices and Soil Organic Carbon Dynamics .456
17.8 No-Till and Soil Carbon Sequestration.456
17.8.1 Mechanisms of Soil Organic Carbon Sequestration . 456
17.8.2 Excessive Plowing.457
17.8.3 Site Specificity of Carbon Sequestration.457
17.8.4 Stratification of Soil Carbon.457
17.8.5 Soil-Profile Carbon Sequestration.458
17.9 Crop Rotations.459
17.10 Cover Crops.460
17.11 Crop Residues.460
17.12 Manure.461
17.13 Agroforestry.462
17.14 Organic Farming.463
17.14.1 Excessive Tillage.463
17.14.2 Source of Soil Organic Carbon.464
17.14.3 Cropping Systems.464
17.15 Bioenergy Crops.464
17.16 Reclaimed Lands.465
17.17 Measurement of Soil Carbon Pool.466
17.17.1 Laser Induced Breakdown Spectroscopy (LIBS).466
17.17.2 Inelastic Neutron Scattering (INS).467
17.17.3 Infrared Reflectance Spectroscopy (IRS).467
17.17.4 Remote Sensing.467
17.18 Soil Management and Carbon Emissions.468
17.19 Biochar.469
17.20 Modeling Soil Carbon Dynamics.470
17.21 Soil Conservation and Carbon Credits .471
Summary.472
Study Questions .473
References.474
18 Erosion Control and Soil Quality.477
18.1 Definitions of Soil Quality.477
18.2 Divergences in Conceptual Definitions
and Assessment Approaches.478
18.3 New Perspective .479
18.4 Soil Quality Paradigm and its Importance .480
18.5 Indicators of Soil Quality.481
18.5.1 Soil Physical Quality.482
18.5.2 Soil Chemical and Biological Quality.482
18.5.3 Macro- and Micro-Scale Soil Attributes.482
18.5.4 Interaction Among Soil Quality Indicators.483
18.6 Soil Quality Index.484
18.7 Assessment Tools .484
18.7.1 Farmer-Based Soil Quality Assessment Approach.485
xxii Contents
18.7.2 Soil Test Kits .486
18.7.3 The Soil Management Assessment Framework.486
18.8 Soil Quality and Erosion Relationships.487
18.8.1 Soil Erosion and Profile Depth.487
18.8.2 Soil Physical Properties.488
18.8.3 Soil Chemical and Biological Properties.489
18.9 Management of Soil Quality .489
Summary.489
Study Questions .490
References.491
19 Soil Erosion and Food Security.493
19.1 Soil Erosion and Yield Losses.494
19.2 Variability of Erosion Impacts.495
19.2.1 Soil Type.496
19.2.2 Climate.497
19.3 Soil Factors Affecting Crop Yields on Eroded Landscapes .497
19.3.1 Physical Hindrance .498
19.3.2 Topsoil Thickness .498
19.3.3 Soil Compaction.499
19.3.4 Plant Available Water Capacity .499
19.3.5 Soil Organic Matter and Nutrient Reserves.500
19.4 Wind Erosion and Crop Production.501
19.5 Response Functions of Crop Yield to Erosion.502
19.6 Techniques of Evaluation of Crop Response to Erosion.502
19.6.1 Removal of Topsoil.503
19.6.2 Addition of Topsoil.504
19.6.3 Natural Soil Erosion.504
19.7 Modeling Erosion-Yield Relationships.504
19.8 Productivity Index (PI).505
19.9 Process-Based Models.506
19.9.1 EPIC .506
19.9.2 Cropsyst .508
19.9.3 GIS-Based Modeling Approaches.508
Summary.510
Study Questions .511
References.511
20 Climate Change and Soil Erosion Risks.513
20.1 Greenhouse Effect on Climatic Patterns.514
20.1.1 Temperature.514
20.1.2 Precipitation.515
20.1.3 Droughts.515
20.1.4 Other Indicators of Climate Change.516
20.2 Climate Change and Soil Erosion.516
Contents xxiii
20.2.1 Water Erosion.516
20.2.2 Nutrient Losses in Runoff.518
20.2.3 Wind Erosion.519
20.3 Complexity of Climate Change Impacts.519
20.4 Erosion and Crop Yields.519
20.5 Impacts of Climate Change on Soil Erosion Factors.520
20.5.1 Precipitation.520
20.5.2 Soil Erodibility.521
20.5.3 Vegetative Cover .522
20.5.4 Cropping Systems.522
20.6 Soil Formation.522
20.7 Soil Processes .524
20.8 Soil Properties.524
20.8.1 Temperature.524
20.8.2 Water Content.525
20.8.3 Color.525
20.8.4 Structural Properties .525
20.8.5 Soil Biota.526
20.8.6 Soil Organic Carbon Content.527
20.9 Crop Production.528
20.9.1 Positive Impacts.528
20.9.2 Adverse Impacts.529
20.9.3 Complex Interactions.530
20.10 Soil Warming Simulation Studies.530
20.10.1 Buried Electric Cables.530
20.10.2 Overhead Heaters.531
20.11 Modeling Impacts of Climate Change.531
20.12 Adapting to Global Warming.532
Summary.533
Study Questions .534
References.534
21 The Way Forward.537
21.1 Strategies of Soil and Water Conservation.538
21.2 Soil Conservation is a Multidisciplinary Issue.540
21.3 Policy Imperatives.540
21.4 Specific Strategies.541
21.5 Food Production .541
21.6 Crop Residues and Biofuel Production.542
21.7 Biological Practices and Soil Conditioners.543
21.8 Buffer Strips.543
21.9 Agroforestry.544
21.10 Tillage Erosion.545
21.11 Organic Farming.546
21.12 Soil Quality and Resilience .547
xxiv Contents
21.13 No-Till Farming.549
21.14 Soil Organic Carbon.549
21.15 Deforestation.551
21.16 Abrupt Climate Change.552
21.17 Modeling.553
21.18 Soil Management Techniques for Small Land Holders
in Resource-Poor Regions.554
Summary.556
Study Questions .556
References.557
Appendix A.559
Appendix B.561
Color Plates .565
Index.601 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Blanco, Humberto Lal, Rattan 1944- |
| author_GND | (DE-588)115580271 |
| author_facet | Blanco, Humberto Lal, Rattan 1944- |
| author_role | aut aut |
| author_sort | Blanco, Humberto |
| author_variant | h b hb r l rl |
| building | Verbundindex |
| bvnumber | BV035069849 |
| callnumber-first | S - Agriculture |
| callnumber-label | S623 |
| callnumber-raw | S623 |
| callnumber-search | S623 |
| callnumber-sort | S 3623 |
| callnumber-subject | S - General Agriculture |
| classification_rvk | RB 10165 |
| ctrlnum | (OCoLC)231885010 (DE-599)DNB988629895 |
| dewey-full | 631.45 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 631 - Techniques, equipment & materials |
| dewey-raw | 631.45 |
| dewey-search | 631.45 |
| dewey-sort | 3631.45 |
| dewey-tens | 630 - Agriculture and related technologies |
| discipline | Bauingenieurwesen Agrar-/Forst-/Ernährungs-/Haushaltswissenschaft / Gartenbau Geographie |
| discipline_str_mv | Bauingenieurwesen Agrar-/Forst-/Ernährungs-/Haushaltswissenschaft / Gartenbau Geographie |
| edition | 1. ed. |
| format | Book |
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| id | DE-604.BV035069849 |
| illustrated | Illustrated |
| index_date | 2024-07-02T22:03:49Z |
| indexdate | 2024-07-09T21:21:30Z |
| institution | BVB |
| isbn | 9781402087080 9781402087097 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016738246 |
| oclc_num | 231885010 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | 617 S. Ill., graph. Darst. 235 mm x 155 mm |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Springer |
| record_format | marc |
| spelling | Blanco, Humberto Verfasser aut Principles of Soil Conservation and Management Humperto Blanco ; Lal Rattan 1. ed. Berlin Springer 2008 617 S. Ill., graph. Darst. 235 mm x 155 mm txt rdacontent n rdamedia nc rdacarrier Soil conservation Soil erosion Soil erosion Climatic factors Soil productivity Klimaänderung (DE-588)4164199-1 gnd rswk-swf Bodenschutz (DE-588)4069568-2 gnd rswk-swf Bodenerosion (DE-588)4007367-1 gnd rswk-swf Minimalbearbeitung (DE-588)4244533-4 gnd rswk-swf Gewässerschutz (DE-588)4020830-8 gnd rswk-swf Bodenschutz (DE-588)4069568-2 s Gewässerschutz (DE-588)4020830-8 s Bodenerosion (DE-588)4007367-1 s Minimalbearbeitung (DE-588)4244533-4 s Klimaänderung (DE-588)4164199-1 s DE-604 Lal, Rattan 1944- Verfasser (DE-588)115580271 aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016738246&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Blanco, Humberto Lal, Rattan 1944- Principles of Soil Conservation and Management Soil conservation Soil erosion Soil erosion Climatic factors Soil productivity Klimaänderung (DE-588)4164199-1 gnd Bodenschutz (DE-588)4069568-2 gnd Bodenerosion (DE-588)4007367-1 gnd Minimalbearbeitung (DE-588)4244533-4 gnd Gewässerschutz (DE-588)4020830-8 gnd |
| subject_GND | (DE-588)4164199-1 (DE-588)4069568-2 (DE-588)4007367-1 (DE-588)4244533-4 (DE-588)4020830-8 |
| title | Principles of Soil Conservation and Management |
| title_auth | Principles of Soil Conservation and Management |
| title_exact_search | Principles of Soil Conservation and Management |
| title_exact_search_txtP | Principles of Soil Conservation and Management |
| title_full | Principles of Soil Conservation and Management Humperto Blanco ; Lal Rattan |
| title_fullStr | Principles of Soil Conservation and Management Humperto Blanco ; Lal Rattan |
| title_full_unstemmed | Principles of Soil Conservation and Management Humperto Blanco ; Lal Rattan |
| title_short | Principles of Soil Conservation and Management |
| title_sort | principles of soil conservation and management |
| topic | Soil conservation Soil erosion Soil erosion Climatic factors Soil productivity Klimaänderung (DE-588)4164199-1 gnd Bodenschutz (DE-588)4069568-2 gnd Bodenerosion (DE-588)4007367-1 gnd Minimalbearbeitung (DE-588)4244533-4 gnd Gewässerschutz (DE-588)4020830-8 gnd |
| topic_facet | Soil conservation Soil erosion Soil erosion Climatic factors Soil productivity Klimaänderung Bodenschutz Bodenerosion Minimalbearbeitung Gewässerschutz |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016738246&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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