Tabla de Contenidos:
- Theory and Practice
- Introduction: Ecological Knowledge, Theory and Information in Space and Time
- Space and Time in Ecology: Noise or Fundamental Driver?
- The Problem of Ecological Scaling in Spatially Complex, Nonequilibrium Ecological Systems
- Landscape Ecology: Past, Present, and Future
- The Gradient Paradigm: A Conceptual and Analytical Framework for Landscape Ecology
- Method and Data
- Data on Distribution and Abundance: Monitoring for Research and Management
- Animal Movement Data: GPS Telemetry, Autocorrelation and the Need for Path-Level Analysis
- Using a Random Forest Model and Public Data to Predict the Distribution of Prey for Marine Wildlife Management
- Landscape Genomics: A Brief Perspective
- Spatial Information Management in Wildlife Ecology: Adding Spatially Explicit Behaviour Data to the Equation?
- Critical Remote Sensing Contributions to Spatial Wildlife Ecological Knowledge and Management
- Spatial Data Management Through Metadata: Global Concepts, Formats, Tools and Requirements
- Free Database Availability, Metadata and the Internet: An Example of Two High Latitude Components of the Census of Marine Life
- Components of Spatial Information Management in Wildlife Ecology: Software for Statistical and Modeling Analysis
- Spatial Analysis of Wildlife Distribution and Disease Spread
- Current State of the Art for Statistical Modelling of Species Distributions
- Landscape Genetics
- Examples
- Using Geographical Mapping and Occupancy Modeling to Study the Distribution of the Critically Endangered Leopard (Panthera pardus) Population in Armenia
- Mapping Landscape Resistance to Identify Corridors and Barriers for Elephant Movement in Southern Africa
- Habitat Fragmentation Effects Depend on Complex Interactions Between Population Size and Dispersal Ability: Modeling Influences of Roads, Agriculture and Residential Development Across a Range of Life-History Characteristics
- Linking Cetaceans to Their Environment: Spatial Data Acquisition, Digital Processing and Predictive Modeling for Marine Spatial Planning in the Northwest Atlantic
- Multi-spectral Satellite-Airborne Management of Ice Form Marine Mammals and Their Habitat in the Presence of Climate Change Using a “Hot Spots” Approach
- How Spatial Information Contributes to the Conservation and Management of Biodiversity
- Future and Outlook: Where Are We, and Where Will the Spatial Information Management in Wildlife Ecology Be in 50 Years from Now?. .