Verfügbarkeit: Landscape analysis and visualisation

Landscape analysis and visualisation: spatial models for natural resource management and planning

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Bibliographische Detailangaben
Weitere Verfasser:	Pettit, Christopher (HerausgeberIn), Cartwright, William (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2008
Ausgabe:	1. ed.
Schriftenreihe:	Lecture Notes in Geoinformation and Cartography
Schlagworte:	Datenverarbeitung Conservation of natural resources > Data processing Geographic information systems Information visualization Landscape assessment > Data processing Natural resources > Management > Data processing Visualisierung Landnutzung Geoinformationssystem Landschaftsanalyse Ressourcenpolitik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXXII, 614 S. Ill., graph. Darst., Kt.
ISBN:	9783540691679

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Datensatz im Suchindex

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adam_text	Contents Contributors XXI Abbreviations XXXI Introduction 1 1 Understanding Landscapes through Knowledge Management Frameworks, Spatial Models, Decision Support Tools and Visualisation 3 1.1 Introduction 3 1.2 Part 1 : Natural Resource Knowledge Management Frameworks and Tools 5 1.3 Part 2: Integrating the Ecology of Landscapes into Landscape Analysis and Visualisation 7 1.4 Part 3: Socioeconomic Dimensions to Landscapes 9 1.5 Part 4: Land Use Change and Scenario Modelling 11 1.6 Part 5: Landscape Visualisation 13 1.7 Future Challenges 15 Part 1: Natural Resource Knowledge Management Frameworks and Tools 17 2 Reading between the Lines: Knowledge for Natural Resource Management 19 2.1 Introduction 19 2.2 Knowledge Hierarchy 20 2.3 Timelag between Question and Answer 23 2.4 Organising the Questions 24 2.5 Integrating Disciplines 26 2.6 Conclusion 27 X Landscape Analysis and Visualisation 3 Improving the Use of Science in Evidence-based Policy: Some Victorian Experiences in Natural Resource Management 29 3.1 Context 29 3.1.1 Historical Perspective 3 0 3.1.2 The Policy Process: Towards Evidence-based Policy 31 3.1.3 Use of Science as Evidence in Policy 32 3.2 Some Victorian Experiences in Natural Resource Management 35 3.2.1 Survey of Policy Analysts 37 3.2.2 Market Research 38 3.2.3 Improving the Utility of Project Outputs 40 3.2.4 Observation of How Policy Decisions Are Made 40 3.3 Case Studies of Successful Science-Policy Influence 41 3.3.1 Sawlogs for Salinity 42 3.3.2 Salinity Investment Framework 3 42 3.3.3 Soil Health 43 3.3.4 Greenhouse in Agriculture 43 3.4 Discussion 44 3.4.1 Toward Better Use of Science in Evidence-based Policy 44 3.5 Conclusion 46 4 The Catchment Analysis Tool: Demonstrating the Benefits of Interconnected Biophysical Models 49 4.1 Introduction 50 4.2 Catchment Analysis Tool: Background and Description 51 4.2.1 The CA T Interface 54 4.2.2 CAT Input Data 56 4.2.3 The CA T Model Components 59 4.2.4 Model Calibration and Conceptualisation 61 4.3 Case Study 61 4.3.1 Hypothetical Case Study 61 4.3.2 Results and analysis 66 4.4 Validation and Model Improvement 68 4.5 Conclusion 69 5 The Application of a Simple Spatial Multi-Criteria Analysis Shell to Natural Resource Management Decision Making 73 5.1 Introduction 74 5.2 Multi-criteria Analysis 74 5.2.1 Spatial Applications 75 5.2.2 The Decision-making Process 77 Contents XI 5.3 The MCAS-S Approach 79 5.3.1 Design Principles 79 5.3.2 Key Functions 80 5.4 Applications 82 5.4.1 Prioritising Revegetation Investment 82 5.4.2 Assessing the Sustainability of Extensive Grazing 85 5.5 Future Trends 89 5.6 Conclusion 90 5.7 Future Research Directions 91 6 Platform for Environmental Modelling Support: a Grid Cell Data Infrastructure for Modellers 97 6.1 Introduction 98 6.2 Background 100 6.3 Methodology 102 6.4 Progress and Discussions 103 6.5 The PEMS Demonstrator Project 105 6.5.1 National Seasonal Crop Monitoring and Forecasting 105 6.5.2 Develop and Demonstrate a Market-based Approach to Environmental Policy on Private Land 108 6.5.3 Wildfire Planning: Consequence of Loss Modelling 109 6.5.4 Land Use Data, Modelling and Reporting 111 6.6 Conclusion 115 Part 2: Integrating the Ecology of Landscapes into Landscape Analysis and Visualisation 119 Looking at Landscapes for Biodiversity: Whose View Will Do? 121 7.1 Introduction 122 7.2 To be Human is to Err 122 7.3 What s Good for the Goose? 124 7.4 Consider the Lilies 127 7.5 Best is Bunkum 128 7.6 Varied Perspectives 129 7.6.1 Mapping and Modelling Terrain, Hydrological, Pedological and Geological Features and Climate 129 7.6.2 Vegetation Mapping Using Remotely Sensed Data, Including Vegetation Condition and Temporal Variability 130 7.6.3 Mapping and Modelling Movement 131 7.6.4 Integrating Multiple Perspectives 133 7.7 Conclusion 135 XII Landscape Analysis and Visualisation 8 Native Vegetation Condition: Site to Regional Assessments 139 8.1 Introduction 140 8.2 Measuring Vegetation Condition at Sites 141 8.3 Measuring Vegetation Condition across Regions 142 8.4 Case Study: Vegetation Condition in the Murray Catchment, New South Wales 143 8.4.1 Study Area 143 8.4.2 Site Data Collection 144 8.4.3 Modelling from the Site to the Region 146 8.5 Results and Discussion for the Murray Catchment Case Study 149 8.6 Conclusion 152 8.7 Future Research Directions 153 9 Towards Adaptive Management of Native Vegetation in Regional Landscapes 159 9.1 Introduction 159 9.2 What Adaptive Management is and is not 161 9.2.1 Step i: Statement of Objectives, Constraints and Performance Measures 163 9.2.2 Step ii: Specification of Management Options 164 9.2.3 Step iii: System Modelling and Model Credibility 165 9.2.4 Step iv: Allocation, implementation and Monitoring — Closing the Loop 165 9.3 Managing and Monitoring Native Vegetation 167 9.3.1 An Example of a Formal Approach to Adaptive Management of Vegetation Condition 169 9.4 Research 175 9.5 Conclusion 176 9.6 Future Directions 177 Appendix 181 10 Revegetation and the Significance of Timelags in Provision of Habitat Resources for Birds 183 10.1 Introduction 184 10.2 Methodology 186 10.2.1 Model Description 186 10.3 Case Study 191 10.3.1 Results 192 10.3.2 Discussion 197 10.4 Caveats and Extensions 199 Appendices 204 Contents XIII 11 The Application of Genetic Markers to Landscape Management 211 11.1 Introduction 212 11.1.1 The Need for Information on How Biota Occupies and Moves through Landscapes 212 11.1.2 A Spectrum of Genetics in Landscape Management and Planning 213 11.1.3 Molecular Population Biology Supplies Information Essential for Landscape Planning and Management 213 11.2 Background 215 11.2.1 Three Levels of Analysis Assess Three Levels in Time and Space 215 11.2.2 Main Molecular Tools in Landscape Molecular Population Biology 217 11.3 CaseStudies 220 11.3.1 Impacts of Habitat Fragmentation on Cunningham s Skinks 220 11.3.2 Dispersal and Gene Flow of Greater Gliders through Forest Fragmented by Pine Plantation 221 11.3.3 Catchments Catch All: Congruent Patterns in Diverse Invertebrate Fauna in Decaying Wood at a Landscape Scale 222 11.4 Future Trends 223 11.5 Conclusion 225 11.6 Future Research Directions 225 Appendix 231 12 Scenario Analysis with Performance Indicators: a Case Study for Forest Linkage Restoration 235 12.1 Introduction 236 12.2 Background 237 12.3 Linkage restoration 239 12.3.1 Indicator Rule 1: Site Recovery Capacity 240 12.3.2 Indicator Rule 2: Site Biodiversity Value 241 12.3.3 Indicator Rule 3: Landscape Linkage Qualities 242 12.3.4 Indicator Rule 4: Landscape Connectivity 242 12.4 Atherton Tablelands Case Study 243 12.4.1 Restoration scenarios 245 12.4.2 Scenario Evaluation 246 12.5 Conclusion 247 XIV Landscape Analysis and Visualisation Part 3: Socioeconomic Dimensions to Landscapes 251 13 Strategic Spatial Governance: Deriving Social-Ecological Frameworks for Managing Landscapes and Regions 253 13.1 Introduction 254 13.2 A Potted History of Catchments for Resource Governance 254 13.3 Defining Regions for Resource Governance 256 13.3.1 Principle 1 256 13.3.2 Principle 2 257 13.3.3 Principle 3 259 13.4 Application of Principles to Spatial Analysis 259 13.4.1 Delineating Civic Regions from a Social Surface 260 13.4.2 Deriving a Hierarchy of Civic Regions 262 13.4.3 Deriving Ecoregions 264 13.4.4 Integrating Ecoregions and Civic Regions through Boundary Optimisation 265 13.4.5 Comparing the Performance of Regions 266 13.5 Conclusion: Past, Present and Future Resource Governance 269 13.6 Future Directions 270 14 Placing People at the Centre of Landscape Assessment 277 14.1 Introduction 277 14.2 Background 278 14.3 Methodology 279 14.3.1 Pressure-State—Response Model 279 14.3.2 Driving Forces—Pressure-State-Impact-Response Model 281 14.3.3 Millennium Ecosystem Assessment Framework 281 14.3.4 Indicator Selection 282 14.4 A Landscape Approach for Victoria 283 14.4.1 Definitions of Five Victoria Landscapes 284 14.4.2 The Role of Indicators 285 14.5 Case Study 1: Semi-arid Landscape 285 14.5.1 Overview 286 14.5.2 Employment Indicator 288 14.5.3 Index of Stream Condition Indicator 290 14.5.4 Land Use Diversity Indicator 291 14.5.5 Management Response 293 14.6 Case Study 2: Coastal Landscape 293 14.6.1 Overview 294 14.6.2 Visitors to Parks and Reserves Indicator 295 14.6.3 Ratio of Land Value to Production Value Indicator 296 Contents XV 14.6.4 Land Use Diversity Indicator 297 14.6.5 Policy Response 298 14.7 Overview of Results 299 14.8 Conclusion 299 14.9 Future Research Directions 300 15 The Social Landscapes of Rural Victoria 305 15.1 Introduction 305 15.2 A Narrative of Rural Transformation in Australia 306 15.2.1 International Agricultural Competition 306 15.2.2 Agricultural Restructuring 307 15.2.3 Amenity Values in the Rural Land Market 307 15.2.4 Indicators Derived from the Narrative 308 15.3 From Indicators to Social Landscapes 310 15.3.1 Factor Analysis Using the Principal Components Method 310 15.3.2 Creating a Geography of Amenity and Intensification 314 15.4 Five Social Landscapes 315 15.4.1 The Production Landscape 316 15.4.2 The Transitional Landscape 317 15.4.3 The Amenity Farming Landscape 318 15.4.4 The High Amenity Landscape 319 15.4.5 The Intensive Agriculture Landscape 319 15.5 Conclusion 322 15.6 Future Research Directions 323 16 A Decision Aiding System for Predicting People s Scenario Preferences 327 16.1 Introduction 327 16.2 Background 328 16.3 An Extra Step for the SDSS Discipline 329 16.4 Description of the Preference Prediction Software 331 16.4.1 Finding a Larger Set of Criteria 331 16.4.2 Finding Relationships between Criterion Scores and Overall Scenario Merit 331 16.4.3 The Underlying Assumption 333 16.5 An Urban Planning Case Study Application of the Preference Prediction Software 334 16.5.1 Assigning Criteria Scores to the Scenarios 335 16.5.2 Predicting Scenario Ratings for Overall Merit 336 XVI Landscape Analysis and Visualisation 16.5.3 Checking the Personal Characteristics of the Advisors 338 16.5.4 Predicting Scenario Merit Ratings on Behalf of Past Workshops 338 16.5.5 Exploring How Scenario Ratings Were Derived 339 16.5.6 Searching for Reasons behind Each Scenario Merit Rating 342 16.5.7 Predicting All Groups Preferences Simultaneously 345 16.6 Future Trends 347 16.7 Conclusion 347 16.8 Future Research Directions 348 Part 4: Land Use Change and Scenario Modelling 351 17 Mapping and Modelling Land Use Change: an Application of the SLEUTH Model 353 17.1 Introduction 353 17.2 Methodology 355 17.3 Results and Discussion 358 17.4 Conclusion 364 18 Uncertainty in Landscape Models: Sources, Impacts and Decision Making 367 18.1 Introduction 368 18.2 Models, Variability and Sources of Uncertainty 369 18.2.1 Model Structure 370 18.2.2 Natural Variability, Temporal Resolution and Spatial Resolution 371 18.2.3 Taxonomic Scale and Data Collection 375 18.2.4 Summary on Models and Sources of Uncertainty 377 18.3 Model Uncertainty and Decision Making 377 18.4 Conclusion 381 19 Assessing Water Quality Impacts of Community Defined Land Use Change Scenarios for the Douglas Shire, Far North Queensland 383 19.1 Context and Case Study Location 384 19.2 Dialogue over Sustainable Future Landscapes and Seascapes 386 19.3 Methodology of an Application of a Social-Ecological Framework for Sustainable Landscape Planning 387 19.3.1 Stage I: Community Perceptions and Visions 387 19.3.2 Stage II: Community-driven Landscape Scenarios 389 Contents XVII 19.3.3 Stage III: Modelling of Landscape Scenarios and Assessing Water Quality 389 19.4 Results and Discussion 391 19.4.1 Visions for the Douglas Shire Coastal Landscape 391 19.4.2 Spatially Explicit Land Use Change Scenarios 392 19.4.3 Inputs into SedNet for Water Quality Analysis and Model Results 399 19.5 Conclusion 401 20 Analysing Landscape Futures for Dryland Agricultural Areas: a Case Study in the Lower Murray Region of Southern Australia 407 20.1 Introduction 408 20.2 Futures Thinking and Scenario Analysis 409 20.3 The Lower Murray Landscape Futures study 411 20.3.1 Collaborative and Participatory Approach 412 20.3.2 Defining Targets, Scenarios and Policy Options 413 20.3.3 Landscape Futures Analysis 419 20.4 Results 425 20.5 Risk, Preference and Strategic Policy Adoption 429 20.6 Further Research 430 20.7 Application in Other Regions and Contexts 431 20.8 Conclusion 431 21 Applying the What If? Planning Support System for Better Understanding Urban Fringe Growth 435 21.1 Introduction 435 21.2 The What If? Planning Support System 436 21.2.1 Suitability Module 438 21.2.2 Demand Module 438 21.2.3 Allocation Module 438 21.3 Mitchell Shire Application of What If? 439 21.3.1 Input Data Layers 442 21.3.2 Land Suitability Analysis 445 21.3.3 Demographic Projections and Land Use Demand 447 21.3.4 Future Land Use Allocation Scenarios 2031 449 21.4 Future Work 451 21.5 Conclusion 451 XVIII Landscape Analysis and Visualisation Part 5: Landscape Visualisation 455 22 Understanding Place and Agreeing Purpose: the Role of Virtual Worlds 457 22.1 Introduction 457 22.2 Established Options for Understanding Place 459 22.3 Emerging Options 460 22.4 Development Methodology 461 22.4.1 SIEVE 461 22.4.2 Links to Decision Support Systems 463 22.4.3 Virtual Decision Environment 463 22.5 Conclusion 464 23 Geographic Landscape Visualisation in Planning Adaptation to Climate Change in Victoria, Australia 469 23.1 Introduction 470 23.2 Context of Visualisation and Sense of Place 471 23.3 Climate Change Predictions and Impacts in South-eastern Australia 472 23.3.1 Climate Change and the Need for Ecological Connectivity 473 23.3.2 Biolink Zones in South-eastern Australia 474 23.3.3 Visualisation Tools for Explaining the Context of Biolinks 474 23.3.4 Visualisation of Environmental Change at a Site over Time 475 23.4 Realism behind Visualisation Technology 479 23.5 Realism at the Front End 480 23.6 Future Directions 483 23.7 Conclusion 484 24 Visualising Alternative Futures 489 24.1 Introduction 490 24.2 The Barwon Heads Peri-urban Development Visualisation Tool 491 24.3 The Central Business District of Melbourne What the City Might Be? Prototype 495 24.3.1 Marvellous Melbourne 495 24.3.2 Melbourne and the Removal of Significant Buildings 497 24.3.3 Prototype World 498 24.3.4 Initial Impressions 502 Contents XIX 24.4 Visualising Proposed Landscapes: Sydney Rd, Brunswick 503 24.5 Usefulness of the Prototypes 505 24.6 Conclusion 505 25 Virtual Globes: the Next GIS? 509 25.1 Introduction 510 25.2 Methodology 511 25.3 Results 515 25.3.1 Hardware 515 25.3.2 Background Data 516 25.3.3 GIS Data Import 517 25.3.4 Display and Data Manipulation 519 25.3.5 Data Sharing 522 25.3.6 Openness and Customisation 522 25.3.7 Performance 522 25.4 Discussion 523 25.4.1 Applications 524 25.5 Conclusion 529 26 A Virtual Knowledge World for Natural Resource Management 533 26.1 Introduction 534 26.2 Virtual Worlds 535 26.3 NRM Virtual Knowledge World 536 26.4 Bet Bet Virtual Landscape 537 26.5 Victorian Virtual NRM Knowledge Arcade 544 26.6 Future Work 547 26.7 Conclusion 548 27 Computer Games for Interacting with a Rural Landscape 551 27.1 Introduction 552 27.2 Cognitive Science 554 27.3 Conversation Theory 555 27.4 Visualisations 555 27.4.1 Viewing Simulations 556 27.4.2 Mobile and Computer Games 557 27.5 Game Development 558 27.5.1 Trainz 559 27.5.2 Farcry 561 27.5.3 Unreal Tournament 2004 562 27.5.4 Second Life 563 27.6 The Bushfire Rescue Game 565 27.7 Conclusion 568 XX Landscape Analysis and Visualisation 28 Automated Generation of Enhanced Virtual Environments for Collaborative Decision Making Via a Live Link to GIS 571 28.1 Introduction 572 28.2 Background 574 28.3 Methodology 576 28.4 Case Study and Discussion 580 28.5 Conclusion and Outlook 587 29 Land Use Decision Making in a Virtual Environment 591 29.1 Introduction 592 29.2 Rational Decision Making 593 29.2.1 Values, Attitudes and Behaviours 593 29.3 Methodology 594 29.3.1 Social: Agent-based Modelling 595 29.3.2 Environmental: Three-dimensional Visualisation 595 29.3.3 Economic: Experimental Economics 596 29.3.4 Experiment Design 597 29.4 Environmental and Economic Efficiency: Results and Discussion 600 29.4.1 Complexity 601 29.4.2 Visualisation 602 29.4.3 Social context (ABM) 604 29.4.4 Value Priorities 605 29.4.5 Experience 606 29.5 Conclusion 606 Index 609
adam_txt	Contents Contributors XXI Abbreviations XXXI Introduction 1 1 Understanding Landscapes through Knowledge Management Frameworks, Spatial Models, Decision Support Tools and Visualisation 3 1.1 Introduction 3 1.2 Part 1 : Natural Resource Knowledge Management Frameworks and Tools 5 1.3 Part 2: Integrating the Ecology of Landscapes into Landscape Analysis and Visualisation 7 1.4 Part 3: Socioeconomic Dimensions to Landscapes 9 1.5 Part 4: Land Use Change and Scenario Modelling 11 1.6 Part 5: Landscape Visualisation 13 1.7 Future Challenges 15 Part 1: Natural Resource Knowledge Management Frameworks and Tools 17 2 Reading between the Lines: Knowledge for Natural Resource Management 19 2.1 Introduction 19 2.2 Knowledge Hierarchy 20 2.3 Timelag between Question and Answer 23 2.4 Organising the Questions 24 2.5 Integrating Disciplines 26 2.6 Conclusion 27 X Landscape Analysis and Visualisation 3 Improving the Use of Science in Evidence-based Policy: Some Victorian Experiences in Natural Resource Management 29 3.1 Context 29 3.1.1 Historical Perspective 3 0 3.1.2 The Policy Process: Towards Evidence-based Policy 31 3.1.3 Use of Science as Evidence in Policy 32 3.2 Some Victorian Experiences in Natural Resource Management 35 3.2.1 Survey of Policy Analysts 37 3.2.2 Market Research 38 3.2.3 Improving the Utility of Project Outputs 40 3.2.4 Observation of How Policy Decisions Are Made 40 3.3 Case Studies of Successful Science-Policy Influence 41 3.3.1 Sawlogs for Salinity 42 3.3.2 Salinity Investment Framework 3 42 3.3.3 Soil Health 43 3.3.4 Greenhouse in Agriculture 43 3.4 Discussion 44 3.4.1 Toward Better Use of Science in Evidence-based Policy 44 3.5 Conclusion 46 4 The Catchment Analysis Tool: Demonstrating the Benefits of Interconnected Biophysical Models 49 4.1 Introduction 50 4.2 Catchment Analysis Tool: Background and Description 51 4.2.1 The CA T Interface 54 4.2.2 CAT Input Data 56 4.2.3 The CA T Model Components 59 4.2.4 Model Calibration and Conceptualisation 61 4.3 Case Study 61 4.3.1 Hypothetical Case Study 61 4.3.2 Results and analysis 66 4.4 Validation and Model Improvement 68 4.5 Conclusion 69 5 The Application of a Simple Spatial Multi-Criteria Analysis Shell to Natural Resource Management Decision Making 73 5.1 Introduction 74 5.2 Multi-criteria Analysis 74 5.2.1 Spatial Applications 75 5.2.2 The Decision-making Process 77 Contents XI 5.3 The MCAS-S Approach 79 5.3.1 Design Principles 79 5.3.2 Key Functions 80 5.4 Applications 82 5.4.1 Prioritising Revegetation Investment 82 5.4.2 Assessing the Sustainability of Extensive Grazing 85 5.5 Future Trends 89 5.6 Conclusion 90 5.7 Future Research Directions 91 6 Platform for Environmental Modelling Support: a Grid Cell Data Infrastructure for Modellers 97 6.1 Introduction 98 6.2 Background 100 6.3 Methodology 102 6.4 Progress and Discussions 103 6.5 The PEMS Demonstrator Project 105 6.5.1 National Seasonal Crop Monitoring and Forecasting 105 6.5.2 Develop and Demonstrate a Market-based Approach to Environmental Policy on Private Land 108 6.5.3 Wildfire Planning: Consequence of Loss Modelling 109 6.5.4 Land Use Data, Modelling and Reporting 111 6.6 Conclusion 115 Part 2: Integrating the Ecology of Landscapes into Landscape Analysis and Visualisation 119 Looking at Landscapes for Biodiversity: Whose View Will Do? 121 7.1 Introduction 122 7.2 To be Human is to Err 122 7.3 What's Good for the Goose? 124 7.4 Consider the Lilies 127 7.5 Best is Bunkum 128 7.6 Varied Perspectives 129 7.6.1 Mapping and Modelling Terrain, Hydrological, Pedological and Geological Features and Climate 129 7.6.2 Vegetation Mapping Using Remotely Sensed Data, Including Vegetation Condition and Temporal Variability 130 7.6.3 Mapping and Modelling Movement 131 7.6.4 Integrating Multiple Perspectives 133 7.7 Conclusion 135 XII Landscape Analysis and Visualisation 8 Native Vegetation Condition: Site to Regional Assessments 139 8.1 Introduction 140 8.2 Measuring Vegetation Condition at Sites 141 8.3 Measuring Vegetation Condition across Regions 142 8.4 Case Study: Vegetation Condition in the Murray Catchment, New South Wales 143 8.4.1 Study Area 143 8.4.2 Site Data Collection 144 8.4.3 Modelling from the Site to the Region 146 8.5 Results and Discussion for the Murray Catchment Case Study 149 8.6 Conclusion 152 8.7 Future Research Directions 153 9 Towards Adaptive Management of Native Vegetation in Regional Landscapes 159 9.1 Introduction 159 9.2 What Adaptive Management is and is not 161 9.2.1 Step i: Statement of Objectives, Constraints and Performance Measures 163 9.2.2 Step ii: Specification of Management Options 164 9.2.3 Step iii: System Modelling and Model Credibility 165 9.2.4 Step iv: Allocation, implementation and Monitoring — Closing the Loop 165 9.3 Managing and Monitoring Native Vegetation 167 9.3.1 An Example of a Formal Approach to Adaptive Management of Vegetation Condition 169 9.4 Research 175 9.5 Conclusion 176 9.6 Future Directions 177 Appendix 181 10 Revegetation and the Significance of Timelags in Provision of Habitat Resources for Birds 183 10.1 Introduction 184 10.2 Methodology 186 10.2.1 Model Description 186 10.3 Case Study 191 10.3.1 Results 192 10.3.2 Discussion 197 10.4 Caveats and Extensions 199 Appendices 204 Contents XIII 11 The Application of Genetic Markers to Landscape Management 211 11.1 Introduction 212 11.1.1 The Need for Information on How Biota Occupies and Moves through Landscapes 212 11.1.2 A Spectrum of 'Genetics' in Landscape Management and Planning 213 11.1.3 Molecular Population Biology Supplies Information Essential for Landscape Planning and Management 213 11.2 Background 215 11.2.1 Three Levels of Analysis Assess Three Levels in Time and Space 215 11.2.2 Main Molecular Tools in Landscape Molecular Population Biology 217 11.3 CaseStudies 220 11.3.1 Impacts of Habitat Fragmentation on Cunningham's Skinks 220 11.3.2 Dispersal and Gene Flow of Greater Gliders through Forest Fragmented by Pine Plantation 221 11.3.3 Catchments Catch All: Congruent Patterns in Diverse Invertebrate Fauna in Decaying Wood at a Landscape Scale 222 11.4 Future Trends 223 11.5 Conclusion 225 11.6 Future Research Directions 225 Appendix 231 12 Scenario Analysis with Performance Indicators: a Case Study for Forest Linkage Restoration 235 12.1 Introduction 236 12.2 Background 237 12.3 Linkage restoration 239 12.3.1 Indicator Rule 1: Site Recovery Capacity 240 12.3.2 Indicator Rule 2: Site Biodiversity Value 241 12.3.3 Indicator Rule 3: Landscape Linkage Qualities 242 12.3.4 Indicator Rule 4: Landscape Connectivity 242 12.4 Atherton Tablelands Case Study 243 12.4.1 Restoration scenarios 245 12.4.2 Scenario Evaluation 246 12.5 Conclusion 247 XIV Landscape Analysis and Visualisation Part 3: Socioeconomic Dimensions to Landscapes 251 13 Strategic Spatial Governance: Deriving Social-Ecological Frameworks for Managing Landscapes and Regions 253 13.1 Introduction 254 13.2 A Potted History of Catchments for Resource Governance 254 13.3 Defining Regions for Resource Governance 256 13.3.1 Principle 1 256 13.3.2 Principle 2 257 13.3.3 Principle 3 259 13.4 Application of Principles to Spatial Analysis 259 13.4.1 Delineating Civic Regions from a Social Surface 260 13.4.2 Deriving a Hierarchy of Civic Regions 262 13.4.3 Deriving Ecoregions 264 13.4.4 Integrating Ecoregions and Civic Regions through Boundary Optimisation 265 13.4.5 Comparing the Performance of Regions 266 13.5 Conclusion: Past, Present and Future Resource Governance 269 13.6 Future Directions 270 14 Placing People at the Centre of Landscape Assessment 277 14.1 Introduction 277 14.2 Background 278 14.3 Methodology 279 14.3.1 Pressure-State—Response Model 279 14.3.2 Driving Forces—Pressure-State-Impact-Response Model 281 14.3.3 Millennium Ecosystem Assessment Framework 281 14.3.4 Indicator Selection 282 14.4 A Landscape Approach for Victoria 283 14.4.1 Definitions of Five Victoria Landscapes 284 14.4.2 The Role of Indicators 285 14.5 Case Study 1: Semi-arid Landscape 285 14.5.1 Overview 286 14.5.2 Employment Indicator 288 14.5.3 Index of Stream Condition Indicator 290 14.5.4 Land Use Diversity Indicator 291 14.5.5 Management Response 293 14.6 Case Study 2: Coastal Landscape 293 14.6.1 Overview 294 14.6.2 Visitors to Parks and Reserves Indicator 295 14.6.3 Ratio of Land Value to Production Value Indicator 296 Contents XV 14.6.4 Land Use Diversity Indicator 297 14.6.5 Policy Response 298 14.7 Overview of Results 299 14.8 Conclusion 299 14.9 Future Research Directions 300 15 The Social Landscapes of Rural Victoria 305 15.1 Introduction 305 15.2 A Narrative of Rural Transformation in Australia 306 15.2.1 International Agricultural Competition 306 15.2.2 Agricultural Restructuring 307 15.2.3 Amenity Values in the Rural Land Market 307 15.2.4 Indicators Derived from the Narrative 308 15.3 From Indicators to Social Landscapes 310 15.3.1 Factor Analysis Using the Principal Components Method 310 15.3.2 Creating a Geography of Amenity and Intensification 314 15.4 Five Social Landscapes 315 15.4.1 The Production Landscape 316 15.4.2 The Transitional Landscape 317 15.4.3 The Amenity Farming Landscape 318 15.4.4 The High Amenity Landscape 319 15.4.5 The Intensive Agriculture Landscape 319 15.5 Conclusion 322 15.6 Future Research Directions 323 16 A Decision Aiding System for Predicting People's Scenario Preferences 327 16.1 Introduction 327 16.2 Background 328 16.3 An Extra Step for the SDSS Discipline 329 16.4 Description of the Preference Prediction Software 331 16.4.1 Finding a Larger Set of Criteria 331 16.4.2 Finding Relationships between Criterion Scores and Overall Scenario Merit 331 16.4.3 The Underlying Assumption 333 16.5 An Urban Planning Case Study Application of the Preference Prediction Software 334 16.5.1 Assigning Criteria Scores to the Scenarios 335 16.5.2 Predicting Scenario Ratings for Overall Merit 336 XVI Landscape Analysis and Visualisation 16.5.3 Checking the Personal Characteristics of the Advisors 338 16.5.4 Predicting Scenario Merit Ratings on Behalf of Past Workshops 338 16.5.5 Exploring How Scenario Ratings Were Derived 339 16.5.6 Searching for Reasons behind Each Scenario Merit Rating 342 16.5.7 Predicting All Groups' Preferences Simultaneously 345 16.6 Future Trends 347 16.7 Conclusion 347 16.8 Future Research Directions 348 Part 4: Land Use Change and Scenario Modelling 351 17 Mapping and Modelling Land Use Change: an Application of the SLEUTH Model 353 17.1 Introduction 353 17.2 Methodology 355 17.3 Results and Discussion 358 17.4 Conclusion 364 18 Uncertainty in Landscape Models: Sources, Impacts and Decision Making 367 18.1 Introduction 368 18.2 Models, Variability and Sources of Uncertainty 369 18.2.1 Model Structure 370 18.2.2 Natural Variability, Temporal Resolution and Spatial Resolution 371 18.2.3 Taxonomic Scale and Data Collection 375 18.2.4 Summary on Models and Sources of Uncertainty 377 18.3 Model Uncertainty and Decision Making 377 18.4 Conclusion 381 19 Assessing Water Quality Impacts of Community Defined Land Use Change Scenarios for the Douglas Shire, Far North Queensland 383 19.1 Context and Case Study Location 384 19.2 Dialogue over Sustainable Future Landscapes and Seascapes 386 19.3 Methodology of an Application of a Social-Ecological Framework for Sustainable Landscape Planning 387 19.3.1 Stage I: Community Perceptions and Visions 387 19.3.2 Stage II: Community-driven Landscape Scenarios 389 Contents XVII 19.3.3 Stage III: Modelling of Landscape Scenarios and Assessing Water Quality 389 19.4 Results and Discussion 391 19.4.1 Visions for the Douglas Shire Coastal Landscape 391 19.4.2 Spatially Explicit Land Use Change Scenarios 392 19.4.3 Inputs into SedNet for Water Quality Analysis and Model Results 399 19.5 Conclusion 401 20 Analysing Landscape Futures for Dryland Agricultural Areas: a Case Study in the Lower Murray Region of Southern Australia 407 20.1 Introduction 408 20.2 Futures Thinking and Scenario Analysis 409 20.3 The Lower Murray Landscape Futures study 411 20.3.1 Collaborative and Participatory Approach 412 20.3.2 Defining Targets, Scenarios and Policy Options 413 20.3.3 Landscape Futures Analysis 419 20.4 Results 425 20.5 Risk, Preference and Strategic Policy Adoption 429 20.6 Further Research 430 20.7 Application in Other Regions and Contexts 431 20.8 Conclusion 431 21 Applying the What If? Planning Support System for Better Understanding Urban Fringe Growth 435 21.1 Introduction 435 21.2 The What If? Planning Support System 436 21.2.1 Suitability Module 438 21.2.2 Demand Module 438 21.2.3 Allocation Module 438 21.3 Mitchell Shire Application of What If? 439 21.3.1 Input Data Layers 442 21.3.2 Land Suitability Analysis 445 21.3.3 Demographic Projections and Land Use Demand 447 21.3.4 Future Land Use Allocation Scenarios 2031 449 21.4 Future Work 451 21.5 Conclusion 451 XVIII Landscape Analysis and Visualisation Part 5: Landscape Visualisation 455 22 Understanding Place and Agreeing Purpose: the Role of Virtual Worlds 457 22.1 Introduction 457 22.2 Established Options for Understanding Place 459 22.3 Emerging Options 460 22.4 Development Methodology 461 22.4.1 SIEVE 461 22.4.2 Links to Decision Support Systems 463 22.4.3 Virtual Decision Environment 463 22.5 Conclusion 464 23 Geographic Landscape Visualisation in Planning Adaptation to Climate Change in Victoria, Australia 469 23.1 Introduction 470 23.2 Context of Visualisation and'Sense of Place' 471 23.3 Climate Change Predictions and Impacts in South-eastern Australia 472 23.3.1 Climate Change and the Need for Ecological Connectivity 473 23.3.2 Biolink Zones in South-eastern Australia 474 23.3.3 Visualisation Tools for Explaining the Context of Biolinks 474 23.3.4 Visualisation of Environmental Change at a Site over Time 475 23.4 Realism behind Visualisation Technology 479 23.5 Realism at the Front End 480 23.6 Future Directions 483 23.7 Conclusion 484 24 Visualising Alternative Futures 489 24.1 Introduction 490 24.2 The Barwon Heads Peri-urban Development Visualisation Tool 491 24.3 The Central Business District of Melbourne What the City Might Be? Prototype 495 24.3.1 Marvellous Melbourne 495 24.3.2 Melbourne and the Removal of Significant Buildings 497 24.3.3 Prototype World 498 24.3.4 Initial Impressions 502 Contents XIX 24.4 Visualising Proposed Landscapes: Sydney Rd, Brunswick 503 24.5 Usefulness of the Prototypes 505 24.6 Conclusion 505 25 Virtual Globes: the Next GIS? 509 25.1 Introduction 510 25.2 Methodology 511 25.3 Results 515 25.3.1 Hardware 515 25.3.2 Background Data 516 25.3.3 GIS Data Import 517 25.3.4 Display and Data Manipulation 519 25.3.5 Data Sharing 522 25.3.6 Openness and Customisation 522 25.3.7 Performance 522 25.4 Discussion 523 25.4.1 Applications 524 25.5 Conclusion 529 26 A Virtual Knowledge World for Natural Resource Management 533 26.1 Introduction 534 26.2 Virtual Worlds 535 26.3 NRM Virtual Knowledge World 536 26.4 Bet Bet Virtual Landscape 537 26.5 Victorian Virtual NRM Knowledge Arcade 544 26.6 Future Work 547 26.7 Conclusion 548 27 Computer Games for Interacting with a Rural Landscape 551 27.1 Introduction 552 27.2 Cognitive Science 554 27.3 Conversation Theory 555 27.4 Visualisations 555 27.4.1 Viewing Simulations 556 27.4.2 Mobile and Computer Games 557 27.5 Game Development 558 27.5.1 Trainz 559 27.5.2 Farcry 561 27.5.3 Unreal Tournament 2004 562 27.5.4 Second Life 563 27.6 The Bushfire Rescue Game 565 27.7 Conclusion 568 XX Landscape Analysis and Visualisation 28 Automated Generation of Enhanced Virtual Environments for Collaborative Decision Making Via a Live Link to GIS 571 28.1 Introduction 572 28.2 Background 574 28.3 Methodology 576 28.4 Case Study and Discussion 580 28.5 Conclusion and Outlook 587 29 Land Use Decision Making in a Virtual Environment 591 29.1 Introduction 592 29.2 Rational Decision Making 593 29.2.1 Values, Attitudes and Behaviours 593 29.3 Methodology 594 29.3.1 Social: Agent-based Modelling 595 29.3.2 Environmental: Three-dimensional Visualisation 595 29.3.3 Economic: Experimental Economics 596 29.3.4 Experiment Design 597 29.4 Environmental and Economic Efficiency: Results and Discussion 600 29.4.1 Complexity 601 29.4.2 Visualisation 602 29.4.3 Social context (ABM) 604 29.4.4 Value Priorities 605 29.4.5 Experience 606 29.5 Conclusion 606 Index 609
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spelling	Landscape analysis and visualisation spatial models for natural resource management and planning Christopher Pettit ... (eds.) 1. ed. Berlin [u.a.] Springer 2008 XXXII, 614 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Lecture Notes in Geoinformation and Cartography Datenverarbeitung Conservation of natural resources Data processing Geographic information systems Information visualization Landscape assessment Data processing Natural resources Management Data processing Visualisierung (DE-588)4188417-6 gnd rswk-swf Landnutzung (DE-588)4259046-2 gnd rswk-swf Geoinformationssystem (DE-588)4261642-6 gnd rswk-swf Landschaftsanalyse (DE-588)4120646-0 gnd rswk-swf Ressourcenpolitik (DE-588)4177874-1 gnd rswk-swf Ressourcenpolitik (DE-588)4177874-1 s Landnutzung (DE-588)4259046-2 s Visualisierung (DE-588)4188417-6 s Geoinformationssystem (DE-588)4261642-6 s DE-604 Landschaftsanalyse (DE-588)4120646-0 s Pettit, Christopher edt Cartwright, William (DE-588)134284224 edt Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016601388&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Landscape analysis and visualisation spatial models for natural resource management and planning Datenverarbeitung Conservation of natural resources Data processing Geographic information systems Information visualization Landscape assessment Data processing Natural resources Management Data processing Visualisierung (DE-588)4188417-6 gnd Landnutzung (DE-588)4259046-2 gnd Geoinformationssystem (DE-588)4261642-6 gnd Landschaftsanalyse (DE-588)4120646-0 gnd Ressourcenpolitik (DE-588)4177874-1 gnd
subject_GND	(DE-588)4188417-6 (DE-588)4259046-2 (DE-588)4261642-6 (DE-588)4120646-0 (DE-588)4177874-1
title	Landscape analysis and visualisation spatial models for natural resource management and planning
title_auth	Landscape analysis and visualisation spatial models for natural resource management and planning
title_exact_search	Landscape analysis and visualisation spatial models for natural resource management and planning
title_exact_search_txtP	Landscape analysis and visualisation spatial models for natural resource management and planning
title_full	Landscape analysis and visualisation spatial models for natural resource management and planning Christopher Pettit ... (eds.)
title_fullStr	Landscape analysis and visualisation spatial models for natural resource management and planning Christopher Pettit ... (eds.)
title_full_unstemmed	Landscape analysis and visualisation spatial models for natural resource management and planning Christopher Pettit ... (eds.)
title_short	Landscape analysis and visualisation
title_sort	landscape analysis and visualisation spatial models for natural resource management and planning
title_sub	spatial models for natural resource management and planning
topic	Datenverarbeitung Conservation of natural resources Data processing Geographic information systems Information visualization Landscape assessment Data processing Natural resources Management Data processing Visualisierung (DE-588)4188417-6 gnd Landnutzung (DE-588)4259046-2 gnd Geoinformationssystem (DE-588)4261642-6 gnd Landschaftsanalyse (DE-588)4120646-0 gnd Ressourcenpolitik (DE-588)4177874-1 gnd
topic_facet	Datenverarbeitung Conservation of natural resources Data processing Geographic information systems Information visualization Landscape assessment Data processing Natural resources Management Data processing Visualisierung Landnutzung Geoinformationssystem Landschaftsanalyse Ressourcenpolitik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016601388&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT pettitchristopher landscapeanalysisandvisualisationspatialmodelsfornaturalresourcemanagementandplanning AT cartwrightwilliam landscapeanalysisandvisualisationspatialmodelsfornaturalresourcemanagementandplanning

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