Chapter 37 Transport in Plants - Connect Assignment Questions Dr. Mosley
Order the following from lowest to highest lower water potential.
1. atmosphere 2. leaves and stems 3. roots 4. soil
What type of light induces stomata to open as sunlight increases the need for evaporative cooling?
Blue
Select all factors that lower the water potential of the soil
Drought conditions Excess fertilizer
Sucrose is an important compound in plants for which reason?
It is the transport form of carbohydrates
Select all true statements about transpiration
It pulls water upward from roots to leaves. It is the most important force that helps move water across long distances in plants.
Select all functions of stomata
Minimize water loss Admit carbon dioxide CO2
Select all places where aquaporins are found
Plasma membrane Vacuolar membrane
Choose all components of water potential of a solution in a plant cell
Pressure Gravity Solute concentration
Place the following plant structures in the correct order based on water moves through the plant starting with the entry of water into a plant at the top.
Root Xylem Leaves Stomata
Choose all that contribute to the surface area through which a plant can absorb water.
Root hairs Mycorrhizae
Order the steps that lead to early morning guttation, beginning with the first step at the top
Root xylem accumulates high concentrations of ions. Water follows the ions into the interior of the root. Water is pushed upward in the xylem. Droplets of water are observed on leaves.
Which of the following statements accurately describe the relationship between CO2 concentration and stomatal opening?
Stomata may close when CO2 concentrations are high
Which of the following accurately describes how sucrose moves in the phloem?
Sucrose can move both up and down a plant
What features of guard cells allows them to open stomata when turgor pressure in them changes?
Their cells are thicker on the inside and thinner elsewhere
Select all cell types that typically carry minerals via bulk transport upwards in a plant.
Tracheids Vessel elements
Which of the following accurately compares root pressure and transpiration as forces that move water from roots to leaves in the xylem?
Transpiration is the main force; root pressure alone cannot typically move water to leaves.
Solutions that are not bounded by a cell wall or cell membrane have
a pressure potential of 0
Transpiration rates may be slowed down due to the closing of stomata when
atmospheric CO2 concentrations are high
The plant homrone that regulates stomatal opening in response to drought is (BLANK) acid
abscisic
Select the two processes that allow transpiration to pull water molecules up a plant.
adhesion and cohesion
Caviation in the xylem water column results from which of the following?
air bubbles
The transpiration rate of a plant increases when
air humidity decreases
In contrast to the symplast, the (BLANK) is composed of cell walls and intercellular spaces
apoplast
The bulk flow of water across membranes is faster than predicted by osmosis alone because water can move through specialized channels called
aquaporins
Turgor pressure requires
cell walls to constrain the expansion of cells as they take up water.
What root structure acts a molecular filter, controlling the passage of solutes that have entered through the symplast?
endodermis
In a typical terrestrial plant, water is absorbed mostly in the zone of the root that has root (BLANK)
hairs
Guard cells open when their solute concentrations
increase
The transport mechanism within the circle is (BLANK) channel transport
ion
Choose all materials that are transported in the phloem
ions amino acids sucrose plant hormones
Select all true statements about osmosis
it requires a membrane it involves the movement of water molecules
The water potential of a solution has two components: (BLANK) forces, such as pressure or gravity, and the concentration of (BLANK) in the solution.
physical solutes
if a cell loses water, the cell membrane pulls away from the wall in a process called (BLANK).
plasmolysis
The accumulation of ions in roots results in the creation of root (BLANK)
pressure
The model for phloem transport is called the (BLANK)-(BLANK) hypothesis
pressure-flow
Carbohydrates in the phloem move from source to
sink
The total water potential of a cell is obtained by adding the pressure potential and (BLANK) potential
solute
In early spring, as the buds of a tree are just beginning to open, the main source and sink of sugars in the phloem are which of the following?
source - roots sink - buds
CAM plants save water by opening (BLANK) at night
stomata
In most terrestrial plants, water enters through the roots and exits the plant through the
stomata
Under mild drought conditions, plants may be stunted because
stomata are closed so carbon dioxide is not taken in for photosynthesis
Plant sap is rich in
sucrose
Water molecules form hydrogen bonds with one another so they are difficult to pull apart. Consequently, water is said to have a high (BLANK) strength.
tensile
The current explanation for the movement of water through the xylem is called the cohesion-(BLANK) theory.
tension
Root pressure is present even when transpiration is low, due to
the continued accumulation of ions in the roots
The active uptake of ions into root cells results in
their turgor pressure increasing
Carbohydrates manufactured in leaves are distributed throughout the plant through the phloem. This process is also known as
translocation
This type of evaporation drives water movement through the xylem
transpiration
Water is pulled through the xylem by the process of
transpiration
True or false: sucrose can be transported in the phloem both up and down the plant
true
A cell that is swollen with water is said to be
turgid
Phloem transport is driven by differences in (BLANK) pressure
turgor
Stomata open when the (BLANK) pressure in guard cells increase
turgor
The Greek letter psi is an abbreviation for (BLANK) potential, which predicts the direction of water movement in a plant.
water
When stomata are open and the atmospheric humidity is low, (BLANK) vapor exits the plant
water
Evaporation of water in a leaf creates negative pressure in the xylem. This causes
water to be pulled up the stem from the roots
Transpiration aids in the movement of (BLANK) and dissolved (BLANK) over long distances in plants
water; minerals
The solute potential of pure water is
zero
