Extreme Hydroclimatic Events and Multivariate Hazards in a Changing Environment: A Remote Sensing Approach
Editat de Viviana Maggioni, Christian Massarien Limba Engleză Paperback – 7 iun 2019
In addition, the book covers multivariate hazards, like landslides, in case studies that analyze the combination of natural hazards and their impact on the natural and built environment. Finally, it ties hydroclimatic hazards into the Sendai Framework, providing another set of tools for reducing disaster impacts.
- Emphasizes recent and future satellite missions to study, monitor and forecast hydroclimatic hazards
- Provides a complete overview and differentiation of remotely sensed products that are useful for monitoring extreme hydroclimatic and related events
- Covers real-life examples and applications of integrating remote sensing products to study complex multi-hydroclimatic hazards
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Specificații
ISBN-13: 9780128148990
ISBN-10: 0128148993
Pagini: 438
Dimensiuni: 152 x 229 x 25 mm
Greutate: 0.59 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128148993
Pagini: 438
Dimensiuni: 152 x 229 x 25 mm
Greutate: 0.59 kg
Editura: ELSEVIER SCIENCE
Public țintă
meteorologists, climatologists, hydrologists, agronomists, geologists, geographers, water resource scientists and managers, scientists and environmental managers focusing on climate change, researchers whose focus is on sustainability, land use, disaster management, risk-assessment, and risk reductionCuprins
Part I: Water cycle variables for monitoring hydroclimatic hazards: state-of-the-art and future directions
1. Precipitation
2. Terrestrial Water Storage
3. Soil Moisture
4. Water Surface Elevation
5. Evaporation
6. Vegetation
Part II: Remote sensing and modeling techniques for monitoring and predicting hydroclimatic hazards: Perspectives and Applications
7. Studying extreme precipitation events in mountainous regions with satellite-based precipitation products
8. Spatiotemporal patterns of precipitation concentration, aggressiveness, and seasonality in Bangladesh
9. Characterizing meteorological droughts in data scarce regions using remotely sensed precipitation
10. Recent advances in remote sensing of precipitation and soil moisture for riverine flood prediction
11. Using altimetry and optical sensors for monitoring and forecasting river discharge
12. Inundation mapping using remote sensing techniques
13. Storm Surge and Sea Level Rise: Threat to the Coastal Areas of Bangladesh
14. Hazard assessment and forecasting of landslides and debris flows: A case study in Northern Italy
15. Remote sensing-based techniques for avalanche risk assessment and forecasting
1. Precipitation
2. Terrestrial Water Storage
3. Soil Moisture
4. Water Surface Elevation
5. Evaporation
6. Vegetation
Part II: Remote sensing and modeling techniques for monitoring and predicting hydroclimatic hazards: Perspectives and Applications
7. Studying extreme precipitation events in mountainous regions with satellite-based precipitation products
8. Spatiotemporal patterns of precipitation concentration, aggressiveness, and seasonality in Bangladesh
9. Characterizing meteorological droughts in data scarce regions using remotely sensed precipitation
10. Recent advances in remote sensing of precipitation and soil moisture for riverine flood prediction
11. Using altimetry and optical sensors for monitoring and forecasting river discharge
12. Inundation mapping using remote sensing techniques
13. Storm Surge and Sea Level Rise: Threat to the Coastal Areas of Bangladesh
14. Hazard assessment and forecasting of landslides and debris flows: A case study in Northern Italy
15. Remote sensing-based techniques for avalanche risk assessment and forecasting