Interdisciplinary Environmental Solutions Using Geospatial Technologies for Bridging Disciplines, Scale and Data /
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| Summary: | XLVII, 812 p. 508 illus. text |
| Language: | English |
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Cham :
Springer Nature Switzerland : Imprint: Palgrave Macmillan,
2025.
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| Edition: | 1st ed. 2025. |
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| Online Access: | https://doi.org/10.1007/978-3-031-16763-8 |
| Format: | Electronic Book |
Table of Contents:
- Chapter 1: Introduction Interdisciplinary Environmental Solutions
- Chapter 2:Introduction Complexity of environmental systems
- Chapter 3: Illustration of System Complexity and Need for integrative analysis for effective solutions
- Chapter 4: Place, Space, Scale, Geospatial Analysis and GIS
- Chapter 5: Uncertainty Issues with Complex System
- Chapter 6: Role of Place (Space) in Decision Support Systems
- Chapter 7: Place-based approaches to Integrated Environment Solutions
- Chapter 8: Role of place and space in identification of environmental problems and finding solutions
- Chapter 9: Geographic Problem Solving: Summary of key environmental problems that need integrative approaches and the notion of uncertainty associated with ‘ways of knowing’
- Chapter 10: GIS, GeoAI, and Geospatial Framework For Integrated Place-Based Approach
- Chapter 11:Conceptual Framework for Integration of Terrestrial Systems and Aquatic Sinks using Systems Thinking and Place-based Approach
- Chapter 12: Spato-temporal variability of water quality and watershed relationship
- Chapter 13: The Impact of Wildfire on Soil Erosion and Water Quality using a GIS-integrated Framework
- Chapter 14: Geospatially Integrated Drainage Basin Scale Sediment Dynamics Under Projected Future Climate Conditions In South East Georgia, USA
- Chapter 15: Linking Watershed’s Properties to MPAs: Integration of Terrestrial Source, Landuse, and Watershed Hydrogeology in Coastal MPA Management
- Chapter 16: Modeling of Surface and Groundwater Contamination to Assess Human Health Risk: An Integrated Geospatial Approach
- Chapter 17: Application of a geospatially integrated species distribution model for seagrass in an urbanized estuary
- Chapter 18: Role of Place/Space in Conservation and Multi-scale Analysis
- Chapter 19: Analyzing Public Responses from Qualitative Data through Spatial Distribution Analysis Utilizing GIS for Effective Resilience Planning
- Chapter 20: Sensitivity Analysis and the use of Geospatial Framework: a Case Study of Soil Moisture and Soil Water Balance
- Chapter 21: Comparison of RUSLE and MUSLE models to predict and estimate soil erosion : a geospatially integrated sensitivity analysis
- Chapter 22: Comparison of Sensitivity analysis with ANN and SVM for Water Budget Calculations.