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Modelling terrestrial water and energy balances at local (1 km
2
) scales
R. P. Silberstein,
M. Sivapalan
Research output
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Article
›
peer-review
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2
) scales'. Together they form a unique fingerprint.
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Keyphrases
Energy Balance
100%
Terrestrial Water Balance
100%
Surface Temperature
50%
Fold Increase
50%
Moisture
50%
Effective Surface
50%
Soil Moisture Content
50%
Transpiration
50%
Soil Moisture
50%
Pasture
50%
Runoff Generation
50%
Stomatal Resistance
50%
Moisture Flux
50%
Soil Water Balance
50%
Surface Water Balance
50%
Land Surface Energy Balance
50%
Bare Soil Evaporation
50%
Atmospheric Demand
50%
Soil Surface Moisture
50%
Moisture Potential
50%
Earth and Planetary Sciences
Energy Balance
100%
Water Balance
100%
Soil Moisture
66%
Atmospherics
33%
Land Surface
33%
Soil Surface
33%
Surface Water
33%
Surface Energy
33%
Moisture Flux
33%
Feedback
33%
Bare Soil
33%
Agricultural and Biological Sciences
Soil Moisture
100%
Surface Water
50%
Sweating
50%
Stomatal Conductance
50%
Water Balance
50%
Engineering
Energy Engineering
100%
Fold Increase
33%
Soil Surface
33%
Surface Water
33%
Land Surface
33%
Bare Soil
33%