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Chapter: 11th Botany : Chapter 11 : Transport in Plants

Water Potential (Ψ) in Plants

Water potential is potential energy of water in a system compared to pure water when both temperature and pressure are kept the same.

Water Potential (Ψ)

 

The concept of water potential was introduced in 1960 by Slatyer and Taylor. Water potential is potential energy of water in a system compared to pure water when both temperature and pressure are kept the same. It is also a measure of how freely water molecules can move in a particular environment or system. Water potential is denoted by the Greek symbol Ψ (psi) and measured in Pascal (Pa). At standard temperature, the water potential of pure water is zero. Addition of solute to pure water decreases the kinetic energy thereby decreasing the water potential. Comparatively a solution always has low water potential than pure water. In a group of cells with different water potential, a water potential gradient is generated. Water will move from higher water potential to lower water potential.

 

Water potential (Ψ) can be determined by,

 

1.           Solute concentration or Solute potential (ΨS)

 

2.           Pressure potential (ΨP)

 

By correlating two factors, water potential is written as,

 

ΨW = ΨS + ΨP

Water Potential = Solute potential + Pressure potential

 

1. Solute Potential (ΨS)

 

Solute potential, otherwise known as osmotic potential denotes the effect of dissolved solute on water potential. In pure water, the addition of solute reduces its free energy and lowers the water potential value from zero to negative. Thus the value of solute potential is always negative. In a solution at standard atmospheric pressure, water potential is always equal to solute potential (ΨW= ΨS).

 

2. Pressure Potential (ΨP)

 

Pressure potential is a mechanical force working against the effect of solute potential. Increased pressure potential will increase water potential and water enters cell and cells become turgid. This positive hydrostatic pressure within the cell is called Turgor pressure. Likewise, withdrawal of water from the cell decreases the water potential and the cell becomes flaccid.

 

3. Matric Potential (ΨM)

 

Matric potential represents the attraction between water and the hydrating colloid or gel-like organic molecules in the cell wall which is collectively termed as matric potential. Matric potential is also known as imbibition pressure. The matric potential is maximum (most negative value) in a dry material. Example: The swelling of soaked seeds in water.

 

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