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Remote Sensing of the Terrestrial Hydrologic Cycle
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This book provides a practical introduction to remote sensing applications for detecting changes in the terrestrial water cycle and understanding the causes and consequences of these changes. Covering a wide range of innovative remote sensing approaches for hydrological study, this book contributes significantly to the knowledge base of hydrology in the Anthropocene, i.e., global change hydrology. It is an excellent reference for students and professionals in the fields of hydrology, climate change, and geography.
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Keywords
- China
- ChinaFLUX
- Climate Change
- clouds and earth’s radiation energy system (CERES)
- cloudy sky
- cooling effects
- Daihai Lake
- deep learning
- Doppler radar
- dry-wet regime
- Error analysis
- Evaluation
- evapotranspiration
- evapotranspiration (ET)
- exorheic catchments
- Fengyun
- Geography
- GIMMS
- GLDAS
- GPM
- grâce
- Huangqihai Lake
- hydrological cycle
- IMERG
- infrared remote sensing
- irrigation intensity
- irrigation mapping
- irrigation signal
- K-nearest neighbor
- lake degradation
- land cover change
- leave-one-out cross validation
- Microwave emissivity difference vegetation index (EDVI)
- MODIS
- n/a
- precipitation
- precipitation classification
- quantitative precipitation estimates
- radar-rain gauge merging
- rain gauge
- random forest
- Reference, information & interdisciplinary subjects
- Remote sensing
- Research & information: general
- reservoir storage
- runoff
- satellite remote sensing
- SMAP
- soil moisture
- SRTM
- subhumid region
- terrestrial water storage changes
- Three-North region
- three-temperature model
- Tropical Precipitation Measurement Mission (TRMM)
- urban hedges
- Variable Infiltration Capacity (VIC) model
- vegetation dynamics
- Verification
- Water balance
- weather radar quantitative precipitation estimation
- winter wheat
- Yarlung Zangbo River