Earth and Planetary Sciences
Approach
20%
Area
10%
Atmospherics
10%
Australia
10%
Calculation
10%
Comparison
10%
Datum
20%
Difference
10%
Eddy Covariance
10%
Energy Flux
20%
Estimate
10%
Evaluation
10%
Evaporation
10%
Evapotranspiration
30%
FTIR Spectroscopy
10%
Heat
10%
Heat Flux
20%
Hydrological Cycle
10%
Ideal Gas
10%
In Situ
20%
In Situ Measurement
10%
Isotope
100%
Isotopic Composition
10%
Land Surface
70%
Latent Heat
10%
Magnitude
10%
Model
70%
Month
10%
Observation
20%
Ocean
10%
Research
20%
Simulation
20%
Site
20%
Soil
30%
Soil Layer
10%
Soil Water
20%
Stable
40%
Transpiration
10%
Variability
10%
Variation
10%
Water
20%
Water Flux
10%
Water Isotopes
40%
Water Vapor
20%
Social Sciences
Australia
10%
Australia
10%
Boundaries
10%
Calculation
10%
Capacity
20%
Comparison
10%
Contribution
10%
Difference
10%
Disparity
10%
Evaporation
10%
Evapotranspiration
30%
Gases
10%
Heat
40%
Hydrological Cycle
10%
Integration
10%
Legislation
10%
Measurement
20%
Meteorological Data
10%
Model Evaluation
10%
Observation
20%
Ocean
10%
Process
20%
Relative
10%
Research
20%
Simulation
20%
Soil Water
10%
Soils
20%
Spatial Variability
10%
Temporal Variability
10%
Water
89%
Physics
Area
10%
Atmospherics
10%
Calculation
10%
Differences
10%
Estimates
10%
Evaluation
10%
Evaporation
10%
FTIR Spectroscopy
10%
Heat
10%
Hydrological Cycle
10%
Ideal Gas
10%
in Situ Measurement
10%
Land Surface
70%
Latent Heat
10%
Magnitude
10%
Model
70%
Simulation
20%
Sites
20%
Stable Isotope
40%
Variability
10%
Variations
10%
Water
20%
Water Vapor
20%
Agricultural and Biological Sciences
Area
10%
Behavior
20%
Eddy Covariance
10%
Evapotranspiration
30%
Fourier Transform Infrared Spectroscopy
10%
Land
70%
Measurement
20%
Meteorological Data
10%
Oceans
10%
Research
20%
Surfaces
89%
Variability
10%
Water
70%
Biochemistry, Genetics and Molecular Biology
Energy
20%
Evaporation
10%
Evapotranspiration
30%
Gas
10%
Heat
40%
Introspection
10%
Surface Property
89%
Sweating
10%
Volume
10%
Water Vapor
20%