Thursday, 3 January 2013

AS Biology: Plant cells and water

Water potential


  • Pure water has a water potential of 0 however cells have negative water potential when there are more solute particles than water molecules therefore cells have higher water potential when there are less solute particles and more water molecules
  • The plant cells becomes TURGID when water enters by osmosis, vacuole sweels and pushes against the cell wall. Plant cell is FLACCID when the water is lost from the cell and the vacuole shrinks hence the cell loses its shape
Water can travel via three different pathways:

1. Apoplast pathway - water moves through the cell wall
  • The cellulose cell wall has many water filled spaces between the cellulose molecule, water can move through these spaces and between cells. The water does not pass through any plasma membranes.
2. Symplast pathway - water moves through the plasma membrane into the cytoplasm
  • Water enters the cytoplasm via the plasma membrane. The plasmodesmata allows the movement of water from one cell to the next.
3. Vacuolar pathway - water moves through the vacuole
  • This is similar to symplast pathway but the water can now enter and pas through the vacuoles as well.
Water uptake from soil
  • The roots have root hair cells, to increase the surface area to absorb minerals by active transport.
  • This lowers the water potential in the roots so water moves into the root hair cells by osmosis. 
  • Water enter root hair cell by osmosis - minerals are actively transported into xylem. (water moves into xylem my osmosis.) 
Solute can enter the xylem by going through cell membrances - the Casparian strip blocks apoplastic route (outside cells) - water cannot pass between the cell or through cell walls - it must pass into cytoplasm or into symplast pathway

Water moves up the stem due to root pressure, transpirational pull, capillary action
  • Transpiration pull - as water molecules are removed from the xylem, more water molecule are pulled to replaced them aka transpirational pull.
Mass flow of water also relies on the properties of water
  • Cohesion - the water molecules tend to stick together
  • Adhesion - the water molecules also stick the the inside of the xylem vessel
  • the drawing of continuous column of water up to xylem vessel is aka cohesion-tension theory

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