Scaling up in hydrology using remote sensing
著者
書誌事項
Scaling up in hydrology using remote sensing
John Wiley & Sons, 1996
大学図書館所蔵 全11件
注記
Includes bibliographical references
内容説明・目次
内容説明
The most pressing environmental problems are considered to affect the entire globe. For example, climate change, deforestation, desertification are all happening on such a large scale they may affect the sustainability of man's future. To address this question quantitatively there is a need for more reliable data on large scale land use change, and their impacts on water resources and climate. This book brings together the presentations made at a recent workshop of experts to consider the problems of scaling up from local to global spatial scales and from the instantaneous satellite measurements to daily or longer time scales. The authors' collective views represent the state of the art of their science as seen by an active international remote sensing community and ground and planetary-based measurement scientists and modellers.
目次
- Remote Sensing and Scaling in Hydrology
- Effects on Surface Heterogeneity on Thermal Remote Sensing of Land Parameters
- Estimation of Aerodynamic Roughness at Various Patial Scales
- Areal Average Surface Fluxes from Mesoscale Meteorological Models
- Surface Radiation Budget
- Estimation of Surface Resistance and Priestley-Taylor Parameter at Different Scales
- Spatial Structure and Scaling of Surface Fluxes in a Great Basin Ecosystem
- Sensible Heat Flux Remotely-Sensed Data at Different Resolutions
- Scintillometer Measurements of Sensible Heat Flux over Heterogeneous Surfaces
- Scaling-up Surface Fluxes from Canopy to Region
- Responses of the Convective Boundary Layer and the Surface Energy Balance to Large Scale Heterogeneity
- Soil Moisture Variability
- Spatial Variability of Saturated Soil Hydraulic Conductivity Derived from Remotely Sensed Data
- Errors in Estimation of Areal Soil Water Content from SAR Data
- Radar and Optional Remote Sensing to Infer Evapotranspriration and Soil Moisture
- Daytime Evaporation from Conservation of Surface Flux Ratios
- Extrapolation of Evaporation at Time of Satellite Overpass to Daily Totals.
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