transpiration
Cards (4)
- why is water needed in plants?
- maintains turgor pressure- hydrostatic skeleton to support stems and leaves
- drives cell expansion- so roots can force their way underground
- lose water by evaporation to keep plants cool
- mineral ions/photosynthetic products transported in aqueous solutions
- water is needed for photosynthesis
- how are root hair cells adapted?
- root hairs- maximise surface area to volume ratio
- microscopic size
- thin surface layer
- high solute concentration within the cytoplasm of a root hair cell so water potential gradient is maintained, water moves into it by osmosis
- what two pathways can water continue to move through after entering the roots?SYMPLAST-
- continuous cytoplasm linked by plasmodesmata by osmosis
- the cells ahead have a higher solute concentration than the cell water is moving through, so water moves continuously through cytoplasms
- continues ACROSS THE ROOT until the xylem is reached
- as water leaves root hair cell, this causes fall in WP so that more water is drawn up though the root
APOPLAST-- cell walls and intercellular spaces
- as water moves into the root, more water is pulled into the apoplast by cohesive forces between water molecules, little resistance, and moves along the pathway
- water continues moving in apoplast until it reaches root endodermis, Casparian strip (waterproof) forces water out the apoplast into the symplast pathway
- this is because water is then forced to pass through the cell membranes, which prevent any toxins from the soil entering the cell
- how does water move from the root to the xylem?
- moves across through the root through symplast/apoplast until it reaches endodermis of xylem
- casparian strip forces water into endodermal cells
- solute concentration of endodermal cells is lower than of xylem cells.
- endodermal cells can also move minerals into the xylem by active transport
- therefore water moves into the xylem by osmosis/AT
- once in the xylem it returns to the apoplast pathway
- active pumping of minerals into the xylem produces root pressure, which gives water a push up the xylem
OVERALL- water is pulled through the apoplast pathway by cohesive forces, and through the symplast pathway through osmosis