| Description |
1 online resource (603 pages) |
| Contents |
Intro; In Memoriam: John Quinn, PhD, August 5, 1957-November 13, 2018; Foreword; Preface; Acknowledgements; Contents; Editors and Contributors; Chapter 1: Context for Restoration; 1.1 Introduction; 1.2 History of Lake Research in New Zealand; 1.3 Policy Framework for Lake Management and Restoration in New Zealand; 1.4 International Context; 1.5 Introduction to Chapters; References; Chapter 2: Modelling for Catchment Management; 2.1 Introduction; 2.2 The Purpose and Types of Catchment Models; 2.2.1 The Purpose of Catchment Modelling; 2.2.2 Types of Catchment Models |
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2.3 Detailed Descriptions of the Different Types of Catchment Models2.3.1 Statistically Based Catchment Models; 2.3.2 Process-Based Catchment Models; 2.3.3 Hybrid Catchment Models; 2.3.4 Regression-Based Versus Process-Based Catchment Models; 2.4 Choosing and Evaluating the Right Model; 2.4.1 Choosing the Right Model or Combination of Models; 2.4.2 Evaluation of Catchment Models; 2.4.3 The Need for Guidelines on How to Use the Model Selected; 2.5 Catchment Modelling in New Zealand; 2.5.1 Historical Context; 2.5.2 Brief Summary of Catchment Models Commonly Used in New Zealand; 2.5.2.1 GLEAMS |
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2.5.2.2 ROTAN2.5.2.3 AquiferSim; 2.5.2.4 OVERSEER; 2.5.2.5 SPASMO; 2.5.2.6 SPARROW; 2.5.2.7 CLUES; 2.5.2.8 SWAT; 2.5.2.9 DHI MIKE; 2.5.2.10 Delft3D; 2.5.2.11 Hydroepidemiological Catchment Models; 2.5.2.12 Nitrate and Phosphorus Leaching Maps; 2.5.3 Availability of Model Formulation, Algorithms, and Source Code; 2.5.4 Models for Compliance or Regulatory Purposes; 2.5.5 A Small Catchment Context. A CLUES Example; 2.5.6 A Large Catchment Context. A GLEAMS Example; 2.6 Catchment Modelling in a Large Basin Outside of New Zealand: A SPARROW Example |
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2.7 Use of Catchment Model Output for Lake and Reservoir Modelling2.8 Benefits of Integrated Monitoring and Modelling; References; Chapter 3: Modelling Water Quality to Support Lake Restoration; 3.1 Introduction to Lake Models; 3.2 Types of Models; 3.2.1 Empirical Models; 3.2.2 Neural Networks; 3.2.3 Deterministic models; 3.3 Selecting an Appropriate Model; 3.4 Model Performance Criteria and Skill Assessment; 3.5 Data Assimilation for Modelling; 3.6 Synthesising Ecological Model Applications: The Importance of Calibration; 3.7 Introduction to New Zealand Lake Model Applications |
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3.8 New Zealand Examples3.8.1 Modelling to Inform Potential for Regime Shifts and Macrophyte Collapse in Waituna Lagoon, Southland; 3.8.2 Modelling to Support an Engineered Inflow Diversion for Restoration of Water Quality in Lake Rotoiti; 3.8.3 Modelling of Pest Fish and Catchment Effects on Lake Water Quality; 3.8.4 Wastewater Dispersion Modelling in Lake Rotorua; 3.9 Future Prospects; References; Chapter 4: Agricultural Catchment Restoration; 4.1 Introduction; 4.2 Sources of Contaminants; 4.3 Pathways of Contaminant Loss; 4.4 Mitigation Strategies |
| Notes |
4.4.1 Implementing Mitigations to Decrease Catchment-Scale Losses |
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Print version record |
| Form |
Electronic book
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| Author |
Collier, Kevin J
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Quinn, John M
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Howard-Williams, Clive
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| ISBN |
9783319930435 |
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3319930435 |
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