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Inhaltsverzeichnis
- Unit 1 Water Quantities.
- 1.1 The Soil as a Reservoir.
- 1.2 Calculating Soil Water.
- 1.3 Measuring Soil Water.
- 1.4 Value of Soil Water Information.
- References.
- Problems.
- Unit 2 Water Potentials.
- 2.1 Potentials in Soil Water.
- 2.2 Water Potentials for Equilibrium Conditions.
- 2.3 Water Potentials for Nonequilibrium Conditions.
- 2.4 Measuring Matric and Pressure Potential in the Field.
- 2.5 Scheduling Irrigation With Tensiometers.
- 2.6 Measuring Matric Potential in the Laboratory.
- 2.7 Alternate Units and Terms for Potential.
- 2.8 Calculating Potentials in Soil Columns.
- 2.9 Soil Water Characteristic Curves.
- 2.10 Hysteresis in Soil Water.
- 2.11 Solute Potential.
- 2.12 Measuring Water Potential.
- Unit 3 Water Flow in Soil.
- 3.1 Steady State Water Flow in Soil.
- 3.2 Transient State Water Flow in Soil.
- 3.3 Horizontal Infiltration Into Soil.
- 3.4 Vertical Water Infiltration Into Soil.
- 3.5 Initial and Boundary Conditions.
- 3.6 Evaporation.
- 3.7 Reducing Evaporation.
- 3.8 Water Drainage in Soil.
- 3.9 Water Vapor Movement in Soils.
- Unit 4 Soil-Plant-Atmosphere Relations.
- 4.1 Radiation.
- 4.2 Energy Budget.
- 4.3 Estimating Evapotranspiration From Climatological and Soil Data.
- 4.4 Crop Coefficients.
- 4.5 Evapotranspiration When Water is Limiting.
- 4.6 Plant Growth and Evapotranspiration.
- 4.7 Estimating Transpiration.
- Unit 5 Soil Heat Flow and Temperature.
- 5.1 Soil Heat.
- 5.2 Steady State Heat Flow.
- 5.3 Temperature in Soil.
- 5.4 Factors That Influence Soil Temperature.
- 5.5 Nonsteady State Heat Flow.
- Example Index.
