Diana Mitsova, Ann-Margaret Esnard
Geospatial Applications for Climate Adaptation Planning (eBook, ePUB)
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Diana Mitsova, Ann-Margaret Esnard
Geospatial Applications for Climate Adaptation Planning (eBook, ePUB)
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Presents an overview of the range of strategies, tools, and techniques that must be used to assess myriad overlapping vulnerabilities and to formulate appropriate climate-relevant solutions at multiple scales and in varying contexts.
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Presents an overview of the range of strategies, tools, and techniques that must be used to assess myriad overlapping vulnerabilities and to formulate appropriate climate-relevant solutions at multiple scales and in varying contexts.
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Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 358
- Erscheinungstermin: 7. Dezember 2018
- Englisch
- ISBN-13: 9781351113939
- Artikelnr.: 54791320
- Verlag: Taylor & Francis
- Seitenzahl: 358
- Erscheinungstermin: 7. Dezember 2018
- Englisch
- ISBN-13: 9781351113939
- Artikelnr.: 54791320
Diana Mitsova is Associate Professor in the School of Urban and Regional Planning and Director of the Visual Planning Technology Lab at Florida Atlantic University. Her research focuses on the use of geographic information systems in disaster planning, critical infrastructure protection, coastal resilience, and climate adaptation of urban systems. Her research has been funded by the National Science Foundation, USGS, the National Park Service, The Nature Conservancy, and the Florida Sea Grant. She holds a Master's of Public Affairs from the School of Public and Environmental Affairs at Indiana University-urdue University, Indianapolis, and a Ph.D. in Regional Development Planning from the University of Cincinnati. She is also a recipient of a NATO Democratic Institutions Research Fellowship.
Ann-Margaret Esnard is a Distinguished University Professor in the Department of Public Management and Policy at Georgia State University. Her expertise encompasses urban planning, disaster planning, and hazard and vulnerability assessment. Esnard has been involved in a number of research initiatives, including NSF-funded projects on the topics of population displacement from catastrophic disasters, school recovery after disasters, long-term recovery, and community resilience. She holds degrees in Agricultural Engineering (B.Sc., University of the West Indies-Trinidad), Agronomy and Soils (M.S., University of Puerto Rico-Mayaguez), and Regional Planning (Ph.D., UMASS-Amherst). She also completed a two-year post-doc at UNC-Chapel Hill.
Ann-Margaret Esnard is a Distinguished University Professor in the Department of Public Management and Policy at Georgia State University. Her expertise encompasses urban planning, disaster planning, and hazard and vulnerability assessment. Esnard has been involved in a number of research initiatives, including NSF-funded projects on the topics of population displacement from catastrophic disasters, school recovery after disasters, long-term recovery, and community resilience. She holds degrees in Agricultural Engineering (B.Sc., University of the West Indies-Trinidad), Agronomy and Soils (M.S., University of Puerto Rico-Mayaguez), and Regional Planning (Ph.D., UMASS-Amherst). She also completed a two-year post-doc at UNC-Chapel Hill.
1. Introduction Part 1: Climate Change and Climate Adaptation Planning:
Context and Concepts 2. Climate Change: Historical Context and Global
Initiatives 3. Climate Adaptation: A Nexus of Science, Policy, and Planning
4. Addressing Climate Change: Initiatives and Coping Strategies from Across
the Globe Part 2: Geospatial Technologies: Fundamentals and Terminology 5.
Natural Hazards: Visualization and Basic Mapping 6. Spatial Analysis and
GIS Modeling 7. Climate Hazard Assessment and Adaptation Indicators 8.
Applications of Remote Sensing and GIS in Climate Change Assessments Part
3: GIS and Climate Vulnerability Assessments 9. Mapping and Assessing the
Impacts of SLR on Coastal Regions 10. Vulnerability of Critical
Infrastructure to Climate Impacts 11. Assessing the Impact of Rising
Temperatures and Urban Heat Islands on People and Places 12. Climate
Hazards and Impact on Public Health Part 4: Technical Approaches to
Formulating Mitigation and Adaptation Strategies 13. Climate Resilience of
Urban Systems and Interdependent Infrastructures 14. Urban Growth Modeling
and Decision Support Systems 15. Internet-Based GIS Applications to
Facilitate the Adaptation of the Built Environment to Climate Change
Context and Concepts 2. Climate Change: Historical Context and Global
Initiatives 3. Climate Adaptation: A Nexus of Science, Policy, and Planning
4. Addressing Climate Change: Initiatives and Coping Strategies from Across
the Globe Part 2: Geospatial Technologies: Fundamentals and Terminology 5.
Natural Hazards: Visualization and Basic Mapping 6. Spatial Analysis and
GIS Modeling 7. Climate Hazard Assessment and Adaptation Indicators 8.
Applications of Remote Sensing and GIS in Climate Change Assessments Part
3: GIS and Climate Vulnerability Assessments 9. Mapping and Assessing the
Impacts of SLR on Coastal Regions 10. Vulnerability of Critical
Infrastructure to Climate Impacts 11. Assessing the Impact of Rising
Temperatures and Urban Heat Islands on People and Places 12. Climate
Hazards and Impact on Public Health Part 4: Technical Approaches to
Formulating Mitigation and Adaptation Strategies 13. Climate Resilience of
Urban Systems and Interdependent Infrastructures 14. Urban Growth Modeling
and Decision Support Systems 15. Internet-Based GIS Applications to
Facilitate the Adaptation of the Built Environment to Climate Change
1. Introduction Part 1: Climate Change and Climate Adaptation Planning:
Context and Concepts 2. Climate Change: Historical Context and Global
Initiatives 3. Climate Adaptation: A Nexus of Science, Policy, and Planning
4. Addressing Climate Change: Initiatives and Coping Strategies from Across
the Globe Part 2: Geospatial Technologies: Fundamentals and Terminology 5.
Natural Hazards: Visualization and Basic Mapping 6. Spatial Analysis and
GIS Modeling 7. Climate Hazard Assessment and Adaptation Indicators 8.
Applications of Remote Sensing and GIS in Climate Change Assessments Part
3: GIS and Climate Vulnerability Assessments 9. Mapping and Assessing the
Impacts of SLR on Coastal Regions 10. Vulnerability of Critical
Infrastructure to Climate Impacts 11. Assessing the Impact of Rising
Temperatures and Urban Heat Islands on People and Places 12. Climate
Hazards and Impact on Public Health Part 4: Technical Approaches to
Formulating Mitigation and Adaptation Strategies 13. Climate Resilience of
Urban Systems and Interdependent Infrastructures 14. Urban Growth Modeling
and Decision Support Systems 15. Internet-Based GIS Applications to
Facilitate the Adaptation of the Built Environment to Climate Change
Context and Concepts 2. Climate Change: Historical Context and Global
Initiatives 3. Climate Adaptation: A Nexus of Science, Policy, and Planning
4. Addressing Climate Change: Initiatives and Coping Strategies from Across
the Globe Part 2: Geospatial Technologies: Fundamentals and Terminology 5.
Natural Hazards: Visualization and Basic Mapping 6. Spatial Analysis and
GIS Modeling 7. Climate Hazard Assessment and Adaptation Indicators 8.
Applications of Remote Sensing and GIS in Climate Change Assessments Part
3: GIS and Climate Vulnerability Assessments 9. Mapping and Assessing the
Impacts of SLR on Coastal Regions 10. Vulnerability of Critical
Infrastructure to Climate Impacts 11. Assessing the Impact of Rising
Temperatures and Urban Heat Islands on People and Places 12. Climate
Hazards and Impact on Public Health Part 4: Technical Approaches to
Formulating Mitigation and Adaptation Strategies 13. Climate Resilience of
Urban Systems and Interdependent Infrastructures 14. Urban Growth Modeling
and Decision Support Systems 15. Internet-Based GIS Applications to
Facilitate the Adaptation of the Built Environment to Climate Change