How do transpiration, cohesion and adhesion all work together to pro.pdf

How do transpiration, cohesion and adhesion all work together to provide the forces necessary to
overcome gravity to transport water from the roots to the leaves without expending energy?
Include definitions of the three terms as they relate to the transport of water up the plant.
HINT: Begin with t...

How do transpiration, cohesion and adhesion all work together to provide the forces necessary to
overcome gravity to transport water from the roots to the leaves without expending energy?
Include definitions of the three terms as they relate to the transport of water up the plant.
HINT: Begin with transpiration (define); then explain how cohesion (define) and adhesion
(define) work together to get water up the plant. Don\'t be too long
Solution
Transpiration is the process of water movement through a plant and evaporates from aerial parts
- leaves, stems and flowers. Water is necessary for plants but only a small amount of water is
used for growth and metabolism, above 97% of water is lost by transpiration and guttation.
Transpiration occurs through the stomata cells during photosynthesis. Transpiration also cools
plants, changes osmotic pressure of cells, and enables mass flow of mineral nutrients and water
from roots to shoots.
Cohesion: It is the phenomenon attraction between the similar molecules. The water molecules
remain attracted by cohesive forces and cannot be separated from one another.
Adhesion: The ability of a substance to stick to an unlike molecules (attraction between unlike
molecules)
Cohesion Tension theory is a theory of ascent of sap. It was proposed by Dixon and Joly in
1894. The theory describes the movement of water from roots to the leaves of a plant. Water
molecules are bonded to each other by hydrogen bonding, hence water form a string (linear) of
molecules during its movement toward xylem.
The water is filled inside the xylem capillaries and due to the cohesion and adhesion properties
of water it forms a continuous water column from roots to leaves.
Cohesive and adhesive properties of water molecules to form an unbroken continuous water
column in the xylem. Transpiration pull exerted on this water column. The water column could
not be pulled away from the xylem walls because of cohesion-adhesion properties of water..