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primary root
the root has tiny root hairs which absorb most of the water,this water then moves from one cell to another
The higher osmotic potential in the plant cells (root hairs and its surrounding cells) is the cause of entering water in plants from the soil by endo-osmosis. Once the water reaches near xylem it is pulled upward by cohesion force. And thus the continuity of water entring in the root is maintained.
transpiration and root pressure
Capillary action, transpiration, and root pressure move water up through the plant.
they help in production
primary root
osmosis
No, "intern" is not a root word. It is derived from the Latin word "internus," meaning 'internal' or 'inward.'
the root has tiny root hairs which absorb most of the water,this water then moves from one cell to another
The higher osmotic potential in the plant cells (root hairs and its surrounding cells) is the cause of entering water in plants from the soil by endo-osmosis. Once the water reaches near xylem it is pulled upward by cohesion force. And thus the continuity of water entring in the root is maintained.
Capillary action, transpiration, and root pressure move water up through the plant.
transpiration and root pressure
because transpiration stream is created after every water is lost
Capillary action, transpiration, and root pressure move water up through the plant.
No. Root pressure can move water a short distance up the xylem because of the lower water potential of the xylem in comparison to the water potential in the surrounding cells
an icicle