The loss of water from a plant by transpiration cools the leaf. Movement of water in transpiration requires both adhesion to the conducting walls and wood fibers of the plant and cohesion of the molecules to each other. A scientist wanted to increase the rate of transpiration of a crop species to extend its range into warmer climates. The scientist substituted a nonpolar solution with an atomic mass similar to that of water for hydrating the plants. What do you expect the scientist's data will indicate from this experiment? O The rate of transpiration will be the same for both water and the nonpolar substance. Transpiration rates will fall to zero as nonpolar compounds do not have the properties necessary for adhesion and cohesion. Transpiration rates will increase as nonpolar compounds undergo adhesion and cohesion with wood fibers more readily than water. The rate of transpiration will be slightly lower with the nonpolar substance as the plant will not have evolved with the nonpolar compound.

Human Anatomy & Physiology (11th Edition)
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The loss of water from a plant by transpiration cools the leaf. Movement of water in transpiration requires both adhesion to the
conducting walls and wood fibers of the plant and cohesion of the molecules to each other. A scientist wanted to increase the rate
of transpiration of a crop species to extend its range into warmer climates. The scientist substituted a nonpolar solution with an
atomic mass similar to that of water for hydrating the plants. What do you expect the scientist's data will indicate from this
experiment?
The rate of transpiration will be the same for both water and the nonpolar substance.
Transpiration rates will fall to zero as nonpolar compounds do not have the properties necessary for adhesion and cohesion.
Transpiration rates will increase as nonpolar compounds undergo adhesion and cohesion with wood fibers more readily than water.
The rate of transpiration will be slightly lower with the nonpolar substance as the plant will not have evolved with the nonpolar
compound.
Transcribed Image Text:The loss of water from a plant by transpiration cools the leaf. Movement of water in transpiration requires both adhesion to the conducting walls and wood fibers of the plant and cohesion of the molecules to each other. A scientist wanted to increase the rate of transpiration of a crop species to extend its range into warmer climates. The scientist substituted a nonpolar solution with an atomic mass similar to that of water for hydrating the plants. What do you expect the scientist's data will indicate from this experiment? The rate of transpiration will be the same for both water and the nonpolar substance. Transpiration rates will fall to zero as nonpolar compounds do not have the properties necessary for adhesion and cohesion. Transpiration rates will increase as nonpolar compounds undergo adhesion and cohesion with wood fibers more readily than water. The rate of transpiration will be slightly lower with the nonpolar substance as the plant will not have evolved with the nonpolar compound.
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