Plant-water Relationships |
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Page 13
... relative vapour pressure and capillary pore radius is of considerable significance in considerations of sorption of water by porous materials and hence has particular significance to water retention and distribution in plants and soils ...
... relative vapour pressure and capillary pore radius is of considerable significance in considerations of sorption of water by porous materials and hence has particular significance to water retention and distribution in plants and soils ...
Page 55
... vapour pressure is , instead , a function of the water potential , I , at the evaporating surface ( see Chapter 1 ) . In most cases Tleaf does not fall below about 25 bars , equivalent to a relative vapour pressure of about 0.98 at ...
... vapour pressure is , instead , a function of the water potential , I , at the evaporating surface ( see Chapter 1 ) . In most cases Tleaf does not fall below about 25 bars , equivalent to a relative vapour pressure of about 0.98 at ...
Page 131
... relative vapour pressures above 0.98 % , which represents the range of equivalent water contents of most interest ... pressure ( e / e ° ) FIG . 5.2 . Sorption isotherms for Klinki pine wood at 25 ° C ( after Kelsey , 1957 ) . In dehydrated ...
... relative vapour pressures above 0.98 % , which represents the range of equivalent water contents of most interest ... pressure ( e / e ° ) FIG . 5.2 . Sorption isotherms for Klinki pine wood at 25 ° C ( after Kelsey , 1957 ) . In dehydrated ...
Contents
Some Properties of Water and Aqueous Solutions | 1 |
Chapter | 8 |
Chapter 2 | 27 |
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absorption atmospheric bars boundary layer bulk air cell wall changes Chapter characteristics chemical potential cm sec-1 cm³ coefficient component constant crop curve cutinized cytoplasm decreases developed effect energy Eqns equation equilibrium evaporating surfaces evapotranspiration exchange expression factors flux forces Gardner gradient hydraulic conductivity increase infiltration rate influence internal matric measurements membrane molal mole occurs osmotic pressure pathway permanent wilting percentage permeability Philip photosynthesis plant communities pores protoplast pure free water radiation reduced relationship relative vapour pressure root saturation vapour pressure sec cm-1 significant Slatyer soil water content soil water potential specific stomatal stomatal aperture suction techniques term tissue transfer transport turgor pressure vacuolar vacuole vapour concentration vascular volume water content water deficit water flow water molecules water movement water potential water stress water table water uptake water vapour Weatherley wind speed xylem zero zone Όμω