Table 1.
Some basic meteorological and plant factors affecting water uptake of plants.
| Meteorological factors | |
|---|---|
| Solar radiation (K↓) | Atmospheric water demand increases with K↓. 1 to 5% of the intercepted K↓ by plants is used for photosynthesis; |
| Atmospheric temperature (Ta) | The water amount in atmospheric increases with Ta. For every 10°C rise in atmospheric temperature, atmospheric can hold twice as much water as it can at a 10°C lower temperature. |
| Wind velocity (Va) | Transpiration increases with Va. Higher wind speeds reduce the boundary layer thickness. In the boundary layer RH is 100%. A high RH decreases the water potential gradient hence decreasing transpiration. |
| Relative humidity (RH) | High atmospheric RH results in a less steep water potential gradient (less transpiration). Transpiration increases with decreasing RH; |
| Plant factors | |
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| |
| Rooting depth | Plants with deep roots have more potential to find soil water since they are able to reach the groundwater table. |
| Leaf amount and Leaf Are Index (LAI) | a The larger the leaf surface area the higher the transpiration flux. LAI is the ratio of plant leaf area to leaf area projected on the field. |
| Stomatal conductance | Light and moisture levels affect stomatal conductance most prominently. Leaf moisture content affects turgor pressure in the guard cells of stomata. Water stress (even under normal field conditions) results in a loss of turgor in the guard cells and hence induces leaf wilting. |
| Leaf enrolling folding and reflection | Typically maize and bluegrass reduce the exposed leaf area under water stress. The silver skin of soybean leaves reflects more K↓ when enrolled |