SECTION I Overview
Chapter 1 Introduction ..................................................... 3
1.1 The Hydrologic Cycle and the Quantity of Fresh Water ................... 3
1.2 Status of Fresh Water in the United States ............................. 7
1.3 Sources of Lake and Reservoir Problems ................................ 11
1.4 Restoration and Management of Lakes and Reservoirs .................... 13
1.5 History of Lake Restoration and Management ............................ 15
References ................................................................ 17
Chapter 2 Basic Limnology ................................................. 23
2.1 Introduction .......................................................... 23
2.2 Lakes and Reservoirs .................................................. 23
2.3 Basic Limnology ....................................................... 26
2.3.1 Physical-Chemical Limnology ..................................... 26
2.4 Biological Limnology .................................................. 28
2.5 Limiting Factors ...................................................... 30
2.6 The Eutrophication Process ............................................ 31
2.7 Characteristics of Shallow and Deep Lakes ............................. 33
2.8 Ecoregions and Attainable Lake Conditions ............................. 34
2.9 Summary ............................................................... 41
References ................................................................ 41
Chapter 3 Lake and Reservoir Diagnosis and Evaluation ..................... 47
3.1 Introduction .......................................................... 47
3.2 Diagnosis/Feasibility Studies ......................................... 47
3.2.1 Watershed ....................................................... 47
3.2.2 In-Lake ......................................................... 53
3.2.3 Data Evaluation ................................................. 57
3.2.3.1 Example 1 ............................................... 70
3.2.3.2 Example 2 ............................................... 71
3.3 Selection of Lake Restoration Alternatives ............................ 73
3.3.1 Algal Problems .................................................. 73
3.3.1.1 Nutrient Diversion/Advanced Waste Treatment ............. 73
3.3.3.1 P Inactivation .......................................... 73
3.3.3.2 Dilution/Flushing ....................................... 74
3.3.3.3 Lake Protection From Urban Runoff ....................... 74
3.3.3.4 Hypolimnetic Withdrawal ................................. 74
3.3.3.5 Artificial Circulation .................................. 74
3.3.3.6 Food-Web Manipulations .................................. 74
3.3.3.7 Copper Sulfate Treatment ................................ 74
3.3.4 Macrophyte Problems ............................................. 74
3.3.4.1 Harvesting .............................................. 75
3.3.4.2 Biological Controls ..................................... 75
3.3.4.3 Lake-Level Drawdown ..................................... 75
3.3.4.4 Sediment Covers ......................................... 75
3.3.4.5 Sediment Removal ........................................ 75
3.3.4.6 Hypolimnetic Aeration ................................... 75
3.5 Guidelines for Choosing Lake Restoration Alternatives ................. 76
3.6 The Lake Improvement Restoration Plan ................................. 78
References ................................................................ 80
SECTION II Algal Biomass Control Techniques Directed
toward Control of Plankton Algae
Chapter 4 Lake and Reservoir Response to Diversion and Advanced
Wastewater Treatment ............................................ 89
4.1 General .............................................................. 89
4.2 Techniques for Reducing External Nutrient Loads ...................... 90
4.3 Recovery of World Lakes .............................................. 91
4.4 Lake Washington, Washington .......................................... 95
4.5 Lake Sammamish, Washington ........................................... 98
4.6 Lake Norrviken, Sweden .............................................. 100
4.7 Shagawa Lake, Minnesota ............................................. 101
4.8 Madison Lakes, Wisconsin ............................................ 103
4.8 Lake Zurich, Switzerland ............................................ 104
4.9 Lake Sobygaard, Denmark ............................................. 105
4.10 Costs ............................................................... 106
4.11 In-Lake Treatment Following Diversion ............................... 107
4.12 Summary ............................................................. 108
References ............................................................... 109
Chapter 5 Lake and Reservoir Protection From Non-Point Pollution ......... 113
5.1 Introduction ........................................................ 113
5.2 In-Stream Phosphorus Removal ........................................ 114
5.3 non-point Nutrient Source Controls: Introduction .................... 116
5.4 non-point Source Controls: Manure Management ........................ 119
5.5 non-point Nutrient Source Controls: Ponds and Wetlands .............. 122
5.5.1 Introduction .................................................. 122
5.5.2 Dry And Wet Extended Detention (ED) Ponds ..................... 122
5.5.3 Constructed Wetlands .......................................... 124
5.6 Constructed Wetlands: Case Histories ................................ 127
5.7 Pre-Dams ............................................................ 130
5.8 Riparian Zone Rehabilitation: Introduction .......................... 131
5.9 Riparian Zone Rehabilitaton Methods ................................. 132
5.10 Reservoir Shoreline Rehabilitation .................................. 135
5.11 Lakeshore Rehabilitation ............................................ 137
5.12 Summary ............................................................. 140
References ............................................................... 140
Chapter 6 Dilution and Flushing .......................................... 149
6.1 Introduction ......................................................... 149
6.2 Theory and Predictions ............................................... 150
6.3 Case Studies ......................................................... 151
6.3.1 Moses Lake ..................................................... 152
6.3.2 Green Lake ..................................................... 158
6.3.3 Lake Veluwe .................................................... 160
6.4 Summary: Effects, Applications, and Precautions ...................... 161
References ............................................................... 162
Chapter 7 Hypolimnetic Withdrawal ........................................ 165
7.1 Introduction ......................................................... 165
7.2 Test Cases ........................................................... 167
7.2.1 General Trends ................................................. 167
7.2.1 Specific Cases ................................................. 170
7.2.1.1 Mauen See .............................................. 170
7.2.1.2 Austrian Lakes ......................................... 170
7.2.1.3 U.S. Lakes ............................................. 171
7.2.1.4 Canada ................................................. 172
7.3 Costs ................................................................ 173
7.4 Adverse Effects ...................................................... 173
7.5 Summary .............................................................. 173
References ............................................................... 174
Chapter 8 Phosphorus Inactivation and Sediment Oxidation ................. 177
8.1 Introduction ......................................................... 177
8.2 Chemical Background .................................................. 178
8.2.1 Aluminum ....................................................... 178
8.2.2 Iron and Calcium ............................................... 180
8.3 Dose Determination and Application Techniques ........................ 182
8.3.1 Aluminum ....................................................... 182
8.3.2 Iron and Calcium ............................................... 191
8.3.3 Application Techniques for Alum ................................ 191
8.4 Effectiveness and Longevity of P Inactivation ........................ 195
8.4.1 Introduction ................................................... 195
8.4.2 Stratified Lake Cases .......................................... 195
8.4.2.1 Mirror and Shadow Lakes, Wisconsin (WI) ................ 200
8.4.2.2 West Twin Lake (WTL), Ohio ............................. 201
8.4.2.3 Kezar Lake, New Hampshire .............................. 203
8.4.2.4 Lake Morey, Vermont .................................... 204
8.4.3 Shallow, Unstratified Lake Cases ............................... 206
8.4.3.1 Long Lake, Kitsap County, Washington ................... 208
8.4.3.2 Campbell and Erie Lakes, Washington .................... 209
8.4.3.3 Green Lake, Washington ................................. 210
8.4.4 Reservoirs ..................................................... 211
8.4.5 Ponds .......................................................... 211
8.4.6 Iron Applications .............................................. 212
8.4.7 Calcium Applications to Hardwater Lakes ........................ 213
8.5 Problems that Limit Effectiveness of P Inactivation .................. 215
8.6 Negative Aspects ..................................................... 216
8.7 Costs ................................................................ 224
8.8 Sediment Oxidation ................................................... 224
8.8.1 Equipment and Application Rates ................................ 225
8.8.2 Lake Response .................................................. 225
8.8.3 Costs .......................................................... 228
8.8.4 Prospectus ..................................................... 228
References ............................................................... 230
Chapter 9 Biomanipulation ................................................ 239
9.1 Introduction ......................................................... 239
9.2 Trophic Cascade ...................................................... 239
9.3 Basic Trophic Cascade Research ....................................... 243
9.4 Biomanipulation ...................................................... 244
9.5 Shallow Lakes ........................................................ 245
9.6 Biomanipulation: Shallow Lakes ....................................... 247
9.6.1 Cockshoot Broad (UK) ........................................... 247
9.6.2 Lake Zwemlust (and Other Dutch Lakes) .......................... 248
9.6.3 Lake Vaeng (and other Danish Lakes) ............................ 250
9.6.4 Lake Christina, Minnesota ...................................... 250
9.7 Biomanipulation: Deep Lakes .......................................... 252
9.7.1 Lake Mendota, Wisconsin ........................................ 252
9.7.2 Bautzen Reservoir And Grafenheim Experimental Lakes
(Germany) ...................................................... 253
9.8 Costs ................................................................ 255
9.9 Summary and Conclusions .............................................. 255
References ............................................................... 256
Chapter 10 Copper Sulfate ................................................ 263
10.1 Introduction ........................................................ 263
10.2 Principle of Copper Sulfate Applications ............................ 263
10.3 Application Guidelines .............................................. 265
10.4 Effectiveness of Copper Sulfate ..................................... 266
10.5 Negative Effects of Copper Sulfate .................................. 267
10.6 Costs of Copper Sulfate ............................................. 269
References ............................................................... 270
SECTION III Macrophyte Biomass Control
Chapter 11 Macrophyte Ecology and Lake Management ........................ 275
11.1 Introduction ........................................................ 275
11.2 Planning and Monitoring for Aquatic Plant Management ................ 275
11.2.1 Case Study: White River Lake Aquatic Plant Management
Plan ......................................................... 276
11.3 Species and Life-Form Considerations ................................ 280
11.4 Aquatic Plant Growth and Productivity ............................... 281
11.4.1 Light ........................................................ 281
11.4.2 Nutrients .................................................... 282
11.4.3 Dissolved Inorganic Carbon (DIC), pH, and Oxygen (O2) ........ 283
11.4.4 Substrate .................................................... 284
11.4.5 Temperature .................................................. 284
11.5 Plant Distribution within Lakes ..................................... 285
11.6 Resource Allocation and Phenology ................................... 285
11.7 Reproduction and Survival Strategies ................................ 286
11.8 Relationships with Other Organisms .................................. 287
11.9 The Effects of Macrophytes on Their Environment ..................... 289
References ............................................................... 291
Chapter 12 Plant Community Restoration ................................... 295
12.1 Introduction ........................................................ 295
12.2 The "Do Nothing" Approach ........................................... 296
12.2.1 Case history: Lake Wingra, "Doing Nothing" ................... 297
12.3 The Habitat Alteration Approach ..................................... 298
12.3.1 Case History: No-Motor, Slow-No-Wake Regulations ............. 299
12.3.1.1 Long and Big Green Lakes: Heavily Used
Recreational Lakes in Southeastern Wisconsin ........ 299
12.3.1.2 Active Habitat Manipulation: Engineering and
Biomanipulation Case Studies ........................ 300
12.4 Aquascaping ......................................................... 307
12.5 The Founder Colony: A Reasonable Restoration Approach ............... 315
12.5.1 Case Studies ................................................. 316
12.5.1.1 Founder Colonies in North Lake, Lake
Lewisville, and Lake Conroe, Texas and
Guntersville Reservoir, Alabama ..................... 316
12.5.1.2 Cootes Paradise Marsh: Volunteers in Action ......... 317
12.5.1.3 Rice Lake at Milltown, Wisconsin: Lessons
Learned ............................................. 317
12.6 Concluding Thoughts ................................................. 321
References ............................................................... 321
Chapter 13 Water Level Drawdown .......................................... 325
13.1 Introduction ........................................................ 325
13.2 Methods ............................................................. 325
13.3 Positive and Negative Factors of Water Level Drawdown ............... 330
13.4 Case Studies ........................................................ 332
13.4.1 Tennessee Valley Authority (TVA) Reservoirs .................. 332
13.4.2 Louisiana Reservoirs ......................................... 333
13.4.3 Florida ...................................................... 333
13.4.4 Wisconsin .................................................... 334
13.4.5 Connecticut .................................................. 337
13.4.6 Oregon ....................................................... 337
13.5 Fish Management with Water Level Drawdown ........................... 337
13.6 Case Histories ...................................................... 337
13.7 Summary ............................................................. 339
References ............................................................... 339
Chapter 14 Preventive, Manual, and Mechanical Methods .................... 343
14.1 Introduction ........................................................ 343
14.2 Preventive Approaches ............................................... 343
14.2.1 The Probabilities of Invasion ............................... 344
14.2.2 Education, Enforcement, and Monitoring as Preventive
Approaches .................................................. 346
14.2.3 Barriers and Sanitation ..................................... 346
14.3 Manual Methods and Soft Technologies ................................ 348
14.4 Mechanical Methods .................................................. 349
14.4.1 The Materials Handling Problem .............................. 349
14.4.2 Machinery and Equipment ..................................... 350
14.4.3 Cutting ..................................................... 352
14.4.3.1 Case Study: Water chestnut (Trapa natans)
Management in New York, Maryland, and
Vermont ............................................ 352
14.4.3.2 Case Study: Pre-Emptive Cutting to Manage
Curly-Leaf Pondweed (Potamogeton crispus)
in Minnesota ....................................... 353
14.4.3.3 Case Study: Deep Cutting, Fish Lake,
Wisconsin .......................................... 353
14.4.3.4 Case Study: Cutting the Emergents, Cattails
(Typha spp.) and Reeds (Phragmites spp.) ........... 355
14.4.4 Harvesting .................................................. 355
14.4.4.1 Efficacy, Regrowth, and Change in Community
Structure .......................................... 355
14.4.4.2 The Nutrient Removal Question ...................... 358
14.4.4.3 Environmental Effects .............................. 362
14.4.4.4 Operational Challenges ............................. 365
14.4.5 Shredding and Crushing ...................................... 365
14.4.6 Diver-Operated Suction Dredges .............................. 366
14.4.7 Hydraulic Washing ........................................... 367
14.4.8 Weed Rollers: Automated, Untended Aquatic Plant
Control Devices ............................................. 367
14.4.9 Mechanical Derooting ........................................ 368
14.4.10 Costs and Productivity ...................................... 369
14.5 Concluding Remarks .................................................. 374
References ............................................................... 375
Chapter 15 Sediment Covers and Surface Shading for Macrophyte
Control ....................................................... 381
15.1 Introduction ........................................................ 381
15.2 Comparison of Synthetic Sediment Covers ............................. 381
15.2.1 Polyethylene ................................................. 381
15.2.2 Polypropylene ................................................ 382
15.2.3 Aquascreen ................................................... 383
15.2.4 Burlap ....................................................... 383
15.3 Application Procedures for Sediment Covers .......................... 384
15.4 Shading of Macrophytes with Surface Covers .......................... 384
References ............................................................... 385
Chapter 16 Chemical Controls ............................................. 387
16.1 Introduction ........................................................ 387
16.2 Effective Concentration - Dose, Time Considerations, Active
Ingredients, Site-Specific Factors, and Herbicide
Formulation ......................................................... 387
16.3 Types of Chemicals .................................................. 388
16.3.1 Contact vs. Systemic ......................................... 389
16.3.2 Broad-spectrum vs. Selective Herbicides ...................... 390
16.3.3 Persistent vs. Non-Persistent ................................ 390
16.3.4 Tank Mixes ................................................... 390
16.3.5 Plant Growth Regulators (PGRs) ............................... 390
16.3.6 Adjuvants .................................................... 391
16.4 Increasing Herbicide Selectivity .................................... 391
16.5 Environmental Impacts, Safety and Health Considerations ............. 393
16.5.1 Herbicide Fate in the Environment ............................ 393
16.5.2 Toxic Effects ................................................ 394
16.5.2.1 Direct Effects ....................................... 395
16.5.2.2 Indirect Impacts ..................................... 397
16.5.2.3 What Should a Lake Manager or Concerned
Citizen Do? .......................................... 399
16.6 Ways of Minimizing Environmental Risks .............................. 399
16.7 Case Studies ........................................................ 401
16.7.1 Plant Management with Fluridone in the Northern United
States ....................................................... 401
16.7.1.1 Minnesota Experiences ............................... 401
16.7.1.2 Wisconsin Experiences - Potters and Random
Lakes ............................................... 404
16.7.1.3 Michigan Experiences ................................ 406
16.7.1.4 Vermont Experiences - Lake Hortonia and Burr
Pond ................................................ 409
16.7.1.5 Increasers and Decreasers ........................... 412
16.7.2 2,4-D in Cayuga Lake, New York and Loon Lake,
Washington State ............................................. 412
16.7.2.1 Cayuga Lake ......................................... 412
16.7.2.2 Loon Lake ........................................... 414
16.7.3 Triclopyr in Pend Oreille River, Washington State and
Lake Minnetonka, Minnesota ................................... 415
16.7.3.1 Pend Oreille River .................................. 415
16.7.3.2 Lake Minnetonka ..................................... 417
16.8 Costs ............................................................... 418
16.9 Concluding Remarks .................................................. 418
References ............................................................... 420
Chapter 17 Phytophagous Insects, Fish, and Other Biological
Controls ..................................................... 425
17.1 Introduction ........................................................ 425
17.2 Hydrilla (Hydrilla verticillata) .................................... 426
17.3 Water Hyacinth (Eichhornia crassipes) ............................... 427
17.4 Alligatorweed (Alternanthera philoxeroides) ......................... 429
17.5 Eurasian Watermilfoil (Myriophyllum spicatum) ....................... 430
17.6 Grass Carp .......................................................... 433
17.6.1 History and Restrictions ..................................... 433
17.6.2 Biology of Grass Carp ........................................ 434
17.6.3 Reproduction of Grass Carp ................................... 435
17.6.4 Stocking Rates ............................................... 438
17.6.5 Case Histories ............................................... 440
17.6.5.1 Deer Point Lake, Florida ............................ 440
17.6.5.2 Lake Conway, Florida ................................ 442
17.6.5.3 Lake Conroe, Texas .................................. 442
17.6.5.4 Smaller Lakes and Ponds ............................. 443
17.6.6 Water Quality Changes ........................................ 443
17.7 Other Phytophagous Fish ............................................. 445
17.8 Developing Areas of Macrophyte and Algae Management ................. 446
17.8.1 Fungal Pathogens ............................................. 446
17.8.2 Water hyacinth ............................................... 446
17.8.3 Hydrilla ..................................................... 447
17.8.4 Eurasian Watermilfoil ........................................ 447
17.8.5 Allelopathic Substances ...................................... 447
17.8.6 Plant Growth Regulators ...................................... 448
17.8.7 Barley Straw ................................................. 448
17.8.8 Reducing Algae Growth with Bacteria .......................... 448
17.8.9 Viruses for Blue-Green Algae Management ...................... 449
References ............................................................... 449
SECTION IV Multiple Benefit Treatments
Chapter 18 Hypolimnetic Aeration and Oxygenation ......................... 459
18.1 Introduction ........................................................ 459
18.2 Description and Operation of Units .................................. 459
18.3 Unit Sizing ......................................................... 464
18.4 Beneficial Effects and Limitations .................................. 465
18.5 Undesirable Effects ................................................. 470
18.6 Costs ............................................................... 470
18.7 Summary ............................................................. 470
References ............................................................... 471
Chapter 19 Artificial Circulation ........................................ 475
19.1 Introduction ........................................................ 475
19.2 Devices and Air Quantities .......................................... 475
19.3 Theoretical Effects of Circulation .................................. 483
19.3.1 Dissolved Oxygen (DO) ........................................ 483
19.3.2 Nutrients .................................................... 483
19.3.3 Physical Control of Phytoplankton Biomass .................... 484
19.3.4 Effects on Phytoplankton Composition ......................... 488
19.4 Effects of Circulation on Trophic Indicators ........................ 490
19.5 Undesirable Effects ................................................. 494
19.6 Costs ............................................................... 494
19.7 Summary and Recommendations ......................................... 496
References ............................................................... 496
Chapter 20 Sediment Removal .............................................. 503
20.1 Introduction ........................................................ 503
20.2 Objectives of Sediment Removal ...................................... 503
20.2.1 Deepening .................................................... 503
20.2.2 Nutrient Control ............................................. 503
20.2.3 Toxic Substances Removal ..................................... 504
20.2.4 Rooted Macrophyte Control .................................... 504
20.3 Environmental Concerns .............................................. 505
20.3.1 In-Lake Concerns ............................................. 505
20.3.2 Disposal Area Concerns ....................................... 506
20.4 Sediment Removal Depth .............................................. 507
20.5 Sediment Removal Techniques ......................................... 508
20.5.1 Mechanical Dredges ........................................... 509
20.5.2 Hydraulic Dredges ............................................ 509
20.5.3 Special-Purpose Dredges ...................................... 513
20.5.4 Pneumatic Dredges ............................................ 514
20.6 Suitable Lake Conditions ............................................ 514
20.7 Dredge Selection and Disposal Area Design ........................... 516
20.7.1 Dredge Selection ............................................. 517
20.7.1.1 Plan to Optimize the Available Disposal Area ........ 517
20.7.1.2 Analyze the Production Capacity of Available
Dredging Equipment .................................. 518
20.7.1.3 Compute Dredging Days Required to Complete
the Job ............................................. 520
20.7.1.4 Determine the Required Head Discharge
Characteristics of the Main Pump When Pumping
Material with the Specific Gravity of Lake
Sediment (Approximately 1.20) ....................... 520
20.7.1.5 Determine Minimum Head Conditions When
Pumping to the Nearest Disposal Area ................ 528
20.7.1.6 Analyze Booster Pump Requirements for Pumping
to Distances Beyond the Capacity of the Main
Pump ................................................ 529
20.7.2 Disposal Area Design ......................................... 535
20.7.2.1 Flocculent Settling Procedure ....................... 535
20.7.2.2 Zone/Compression Settling Test Procedure ............ 536
20.7.2.3 Design Procedures ................................... 537
20.8 Case Studies ........................................................ 543
20.8.1 Lake Trainmen, Sweden ........................................ 544
20.8.2 Lilly Lake, Wisconsin ........................................ 548
20.8.2.1 Initial Diagnosis and Results ....................... 548
20.8.2.2 Long-Term Effects ................................... 550
20.8.2.3 Other WDNR Dredging Experiences ..................... 553
20.8.3 Lake Springfield, Illinois ................................... 554
20.8.3.1 Sediment Removal Guidelines ......................... 555
20.8.3.2 Sediment Removal Techniques and Disposal Site
Selection ........................................... 556
20.8.3.3 Permits ............................................. 557
20.8.3.4 Disposal Site ....................................... 558
20.8.3.5 Sediment Removal .................................... 558
20.8.4 Lake Jarnsjon, Sweden ........................................ 559
20.9 Costs ............................................................... 562
20.10 Summary ............................................................ 567
References ............................................................... 567
Index .................................................................... 575
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