Campbell Biology Chapter 36 (powell_h)
1) All of the following are plant adaptations to life on land except
A) tracheids and vessels.
B) root hairs.
C) cuticle.
D) the Calvin cycle of photosynthesis.
E) collenchyma.
Answer: D
2) The ancestors of land plants were aquatic algae. Which of the
following is not an evolutionary adaptation to life on land?
A)
C₃ photosynthesis
B) a waxy cuticle
C) root hairs
D)
xylem and phloem
E) guard cells
Answer: A
3) Most angiosperms have alternate phyllotaxy. What allows each leaf
to get the maximum exposure to light and reduces shading of lower
leaves?
A) a leaf area index above 8
B)
self-pruning
C) one leaf only per node
D) leaf emergence
at an angle of 137.5°F from the site of previous leaves
E) a
leaf area index above 8 and leaf emergence at an angle of 137.5°F
from the site of previous leaves
Answer: D
4) A plant developed a mineral deficiency after being treated with a
fungicide. What is the most probable cause of the deficiency?
A)
Mineral receptor proteins in the plant membrane were not functioning.
B) Mycorrhizal fungi were killed.
C) Active transport of
minerals was inhibited.
D) The genes for the synthesis of
transport proteins were destroyed.
E) Proton pumps reversed the
membrane potential.
Answer: B
5) If you were to prune the shoot tips of a plant, what would be the
effect on the plant and the leaf area index?
A) bushier plants;
lower leaf area index
B) tall plants; lower leaf area index
C) tall plants; higher leaf area index
D) short plants;
lower leaf area index
E) bushier plants; higher leaf area indexes
Answer: E
6) Which structure or compartment is not part of the plant's
apoplast?
A) the lumen of a xylem vessel
B) the lumen of a
sieve tube
C) the cell wall of a mesophyll cell
D) the
cell wall of a transfer cell
E) the cell wall of a root hair
Answer: B
7) Which of the following would be least likely to affect osmosis in
plants?
A) proton pumps in the membrane
B) a difference in
solute concentrations
C) receptor proteins in the membrane
D) aquaporins
E) a difference in water potential
Answer: C
8) Active transport involves all of the following except the
A)
diffusion of solute through the lipid bilayer of a membrane.
B)
pumping of solutes across the membrane.
C) hydrolysis of ATP.
D) transport of solute against a concentration gradient.
E) specific transport protein in the membrane.
Answer: A
9) Active transport of various materials in plants at the cellular
level requires all of the following except
A) a proton gradient.
B) ATP.
C) membrane potential.
D) transport proteins
E) xylem membranes.
Answer: E
10) Which of the following is not a function of the plasma membrane
proton pump?
A) hydrolyzes ATP
B) produces a proton
gradient
C) generates a membrane potential
D) equalizes
the charge on each side of a membrane
E) stores potential energy
on one side of a membrane
Answer: D
11) Given that early land plants most likely share a common ancestor
with green algae, the earliest land plants were most likely
A)
nonvascular plants that grew leafless photosynthetic shoots above the
shallow fresh water in which they lived.
B) species that did not
exhibit alternation of generations.
C) vascular plants with
well-defined root systems.
D) plants with well-developed leaves.
E) species with a well-developed, thick cuticle.
Answer: A
12) The movement of water across biological membranes can best be
predicted by
A) negative charges in the cell wall.
B)
prevailing weather conditions.
C) aquaporins.
D) level of
active transport.
E) water potential.
Answer: E
13) An open beaker of pure water has a water potential (Ψ) of
A) -0.23 MPa.
B) +0.23 MPa.
C) +0.07 MPa.
D)
-0.0000001 MPa.
E) 0.0 (zero).
Answer: E
14) All of the following have an effect on water potential (Ψ) in
plants except
A) physical pressure.
B) water-attracting matrices.
C) dissolved solutes.
D) osmosis.
E) DNA structure.
Answer: E
15) If ΨP = 0.3 MPa and ΨS = -0.45 MPa, the resulting Ψ is
A) +0.75 MPa.
B) -0.75 MPa.
C) -0.15 MPa.
D)
+0.15 MPa.
E) -0.42 MPa.
Answer: C
16) The value for Ψ in root tissue was found to be -0.15 MPa. If you
take the root tissue and place it in a 0.1 M solution of sucrose (Ψ =
-0.23 MPa), the net water flow would
A) be from the tissue into the sucrose solution.
B) be
from the sucrose solution into the tissue.
C) be in both
directions and the concentrations would remain equal.
D) occur
only as ATP was hydrolyzed in the tissue.
E) be impossible to
determine from the values given here.
Answer: A
17) Compared to a cell with few aquaporins in its membrane, a cell
containing many aquaporins will
A) have a faster rate of
osmosis.
B) have a lower water potential.
C) have a higher
water potential.
D) have a faster rate of active transport.
E) be flaccid.
Answer: A
18) Some botanists argue that the entire plant should be considered
as a single unit rather than a composite of many individual cells.
Which of the following cellular structures cannot be used to support
this view?
A) cell wall
B) cell membrane
C) cytosol
D) tonoplast
E) symplast
Answer: D
19) Which of the following statements is false about bulk flow?
A) It is driven primarily by pressure potential.
B) It is
more effective than diffusion over distances greater than 100 μm.
C) It depends on a difference in pressure potential at the
source and sink.
D) It depends on the force of gravity on a
column of water.
E) It may be the result of either positive or
negative pressure potential.
Answer: D
20) Which of the following would likely not contribute to the surface
area available for water absorption from the soil by a plant root
system?
A) root hairs
B) endodermis
C) mycorrhizae
D) fungi associated with the roots
E) fibrous arrangement
of the roots
Answer: B
21) Root hairs are most important to a plant because they
A)
anchor a plant in the soil.
B) store starches.
C) increase
the surface area for absorption.
D) provide a habitat for
nitrogen-fixing bacteria.
E) contain xylem tissue.
Answer: C
22) A water molecule could move all the way through a plant from soil
to root to leaf to air and pass through a living cell only once. This
living cell would be a part of which structure?
A) the Casparian
strip
B) a guard cell
C) the root epidermis
D) the
endodermis
E) the root cortex
Answer: D
23) All of the following involve active transport across membranes
except
A) the movement of mineral nutrients from the apoplast to
the symplast.
B) the movement of sugar from mesophyll cells into
sieve-tube elements.
C) the movement of sugar from one
sieve-tube element to the next.
D) the movement of K+ across
guard cell membranes during stomatal opening.
E) the movement of
mineral nutrients into cells of the root cortex.
Answer: C
24) Which of the following statements about xylem is incorrect?
A) It conducts material from root tips to leaves.
B) The
conducting cells are part of the apoplast.
C) It transports
mainly sugars and amino acids.
D) It typically has a lower water
potential than is found in soil.
E) No energy input is required
for transport.
Answer: C
25) What is the role of proton pumps in root hair cells?
A)
establish ATP gradients
B) maintain the H+ gradient
C)
pressurize xylem transport
D) eliminate excess electrons
E) assist in active uptake of water molecules
Answer: B
26) In plant roots, the Casparian strip is correctly described by
which of the following?
A) It aids in the uptake of nutrients.
B) It provides energy for the active transport of minerals into
the stele from the cortex.
C) It ensures that all minerals are
absorbed from the soil in equal amounts.
D) It ensures that all
water and dissolved substances must pass through a cell membrane
before entering the stele.
E) It provides increased surface area
for the absorption of mineral nutrients.
Answer: D
27) Which of the following is not an important component of the
long-distance transport process in plants?
A) the cohesion of
water molecules
B) a negative water potential
C) the root
parenchyma
D) the active transport of solutes
E) bulk flow
from source to sink
Answer: C
28) Pine seedlings grown in sterile potting soil grow much slower
than seedlings grown in soil from the area where the seeds were
collected. This is most likely because
A) the sterilization
process kills the root hairs as they emerge from the seedling.
B) the normal symbiotic fungi are not present in the sterilized
soil.
C) sterilization removes essential nutrients from the
soil.
D) water and mineral uptake is faster when mycorrhizae are
present.
E) B and D.
Answer: E
29) The following factors may sometimes play a role in the movement
of sap through xylem. Which one depends on the direct expenditure of
ATP by the plant?
A) capillarity of water within the xylem
B) evaporation of water from leaves
C) cohesion among
water molecules
D) concentration of ions in the symplast
E) bulk flow of water in the root apoplast
Answer: D
30) One is most likely to see guttation in small plants when the
A) transpiration rates are high.
B) root pressure exceeds
transpiration pull.
C) preceding evening was hot, windy, and
dry.
D) water potential in the stele of the root is high.
E) roots are not absorbing minerals from the soil.
Answer: B
31) One would expect to find the highest density of aquaporins in
which of the following?
A) the plasma membrane of guard cells
B) the pits of a tracheid
C) the plasma membrane of
parenchyma cells in a ripe fruit
D) the plasma membrane of a
mature mesophyll cell in a leaf
E) the membrane lining plasmodesmata
Answer: A
32) If isolated plant cells with a water potential averaging -0.5 MPa
are placed into a solution with a water potential of -0.3 MPa, which
of the following would be the most likely outcome?
A) The
pressure potential of the cells would increase.
B) Water would
move out of the cells.
C) The cell walls would rupture, killing
the cells.
D) Solutes would move out of the cells.
E) The
osmotic pressure of the cells would decrease.
Answer: A
33) What drives the flow of water through the xylem?
A) passive
transport by the endodermis
B) the number of companion cells in
the phloem
C) the evaporation of water from the leaves
D)
active transport by sieve-tube elements
E) active transport by
tracheid and vessel elements
Answer: C
34) What is the main force by which most of the water within xylem
vessels moves toward the top of a tree?
A) active transport of
ions into the stele
B) atmospheric pressure on roots
C)
evaporation of water through stoma
D) the force of root pressure
E) osmosis in the root
Answer: C
35) In which plant cell or tissue would the pressure component of
water potential most often be negative?
A) leaf mesophyll cell
B) stem xylem
C) stem phloem
D) root cortex cell
E) root epidermis
Answer: B
36) Water potential is generally most negative in which of the
following parts of a plant?
A) mesophyll cells of the leaf
B) xylem vessels in leaves
C) xylem vessels in roots
D) cells of the root cortex
E) root hairs
Answer: A
37) Which of the following has the lowest (most negative) water
potential?
A) root cortical cells
B) root xylem
C)
trunk xylem
D) leaf cell walls
E) leaf air spaces
Answer: E
38) Which of the following is responsible for the cohesion of water
molecules?
A) hydrogen bonds between the oxygen atoms of a water
molecule and cellulose in a vessel cell
B) covalent bonds
between the hydrogen atoms of two adjacent water molecules
C)
hydrogen bonds between the oxygen atom of one water molecule and a
hydrogen atom of another water molecule
D) covalent bonds
between the oxygen atom of one water molecule and a hydrogen atom of
another water molecule
E) low concentrations of charged solutes
in the fluid
Answer: C
39) Transpiration in plants requires all of the following except
A) adhesion of water molecules to cellulose.
B) cohesion
between water molecules.
C) evaporation of water molecules.
D) active transport through xylem cells.
E) transport
through tracheids.
Answer: D
40) Which of the following statements about transport in plants is
false?
A) Weak bonding between water molecules and the walls of
xylem vessels or tracheids helps support the columns of water in the
xylem.
B) Hydrogen bonding between water molecules, which
results in the high cohesion of the water, is essential for the rise
of water in tall trees.
C) Although some angiosperm plants
develop considerable root pressure, this is not sufficient to raise
water to the tops of tall trees.
D) Most plant physiologists now
agree that the pull from the top of the plant resulting from
transpiration is sufficient, when combined with the cohesion of water,
to explain the rise of water in the xylem in even the tallest trees.
E) Gymnosperms can sometimes develop especially high root
pressure, which may account for the rise of water in tall pine trees
without transpiration pull.
Answer: E
41) Active transport would be least important in the normal
functioning of which of the following plant tissue types?
A)
leaf transfer cells
B) stem tracheary elements
C) root
endodermal cells
D) leaf mesophyll cells
E) root
sieve-tube elements
Answer: B
42) Which of the following statements is false concerning the xylem?
A) Xylem tracheids and vessels fulfill their vital function only
after their death.
B) The cell walls of the tracheids are
greatly strengthened with cellulose fibrils forming thickened rings or
spirals.
C) Water molecules are transpired from the cells of the
leaves, and replaced by water molecules in the xylem pulled up from
the roots due to the cohesion of water molecules.
D) Movement of
materials is by mass flow; solutes in xylary sap move due to a
positive turgor pressure gradient from source to sink.
E) In the
morning, sap in the xylem begins to move first in the twigs of the
upper portion of the tree, and later in the lower trunk.
Answer: D
43) Xylem vessels, found in angiosperms, have a much greater internal
diameter than tracheids, the only xylem-conducting cells found in
gymnosperms. The tallest living trees, redwoods, are gymnosperms.
Which of the following is an advantage of tracheids over vessels for
long-distance transport to great heights?
A) Adhesive forces are
proportionally greater in narrower cylinders than in wider cylinders.
B) The smaller the diameter of the xylem, the more likely
cavitation will occur.
C) Cohesive forces are greater in narrow
tubes than in wide tubes of the same height.
D) Adhesive forces
are proportionally greater in narrower cylinders than in wider
cylinders, and cohesive forces are greater in narrow tubes than in
wide tubes of the same height.
E) Adhesive forces are
proportionally greater in narrower cylinders than in wider cylinders,
and the smaller the diameter of the xylem, the more likely cavitation
will occur.
Answer: D
44) Water rises in plants primarily by cohesion-tension. Which of the
following is not true about the cohesion-tension model?
A) Water
loss (transpiration) is the driving force for water movement.
B)
The "tension" of this model represents the excitability of
the xylem cells.
C) Cohesion represents the tendency for water
molecules to stick together by hydrogen bonds.
D) The physical
forces in the capillary-sized xylem cells make it easier to overcome
gravity.
E) The water potential of the air is more negative than
the xylem.
Answer: B
45) Assume that a particular chemical interferes with the
establishment and maintenance of proton gradients across the membranes
of plant cells. All of the following processes would be directly
affected by this chemical except
A) photosynthesis.
B)
phloem loading.
C) xylem transport.
D) cellular
respiration.
E) stomatal opening.
Answer: C
46) Which cells in a root form a protective barrier to the vascular
system where all materials must move through the symplast?
A)
pericycle
B) cortex
C) epidermis
D) endodermis
E) exodermis
Answer: D
47) Guard cells do which of the following?
A) protect the
endodermis
B) accumulate K+ and close the stomata
C)
contain chloroplasts that import K+ directly into the cells
D)
guard against mineral loss through the stomata
E) help balance
the photosynthesis-transpiration compromise
Answer: E
48) All of the following normally enter the plant through the roots
except
A) carbon dioxide.
B) nitrogen.
C) potassium.
D) water.
E) calcium.
Answer: A
49) Photosynthesis begins to decline when leaves wilt because
A) chloroplasts within wilted leaves are incapable of
photosynthesis.
B) CO2 accumulates in the leaves and inhibits
the enzymes needed for photosynthesis.
C) there is insufficient
water for photolysis during the light reactions.
D) stomata
close, restricting CO₂ entry into the leaf.
E) wilted leaves
cannot absorb the red and blue wavelengths of light.
Answer: D
50) The water lost during transpiration is a side effect of the
plant's exchange of gases. However, the plant derives some benefit
from this water loss in the form of
A) evaporative cooling.
B) mineral transport.
C) increased turgor.
D)
increased growth,
E) only evaporative cooling and mineral transport.
Answer: E
51) Ignoring all other factors, what kind of day would result in the
fastest delivery of water and minerals to the leaves of a tree?
A) cool, dry day
B) warm, dry day
C) warm, humid day
D) cool, humid day
E) very hot, dry, windy day
Answer: B
52) If the guard cells and surrounding epidermal cells in a plant are
deficient in potassium ions, all of the following would occur except
A) photosynthesis would decrease.
B) roots would take up
less water.
C) phloem transport rates would decrease.
D)
leaf temperatures would decrease.
E) stomata would be closed.
Answer: D
53) The opening of stomata is thought to involve
A) an increase
in the solute concentration of the guard cells.
B) a decrease in
the solute concentration of the stoma.
C) active transport of
water out of the guard cells.
D) decreased turgor pressure in
guard cells.
E) movement of K+ from the guard cells.
Answer: A
54) Which of the following experimental procedures would most likely
reduce transpiration while allowing the normal growth of a
plant?
A) subjecting the leaves of the plant to a partial vacuum
B) increasing the level of carbon dioxide around the plant
C) putting the plant in drier soil
D) decreasing the
relative humidity around the plant
E) injecting potassium ions
into the guard cells of the plant
Answer: B
55) Guard cells are the only cells in the epidermis that contain
chloroplasts and can undergo photosynthesis. This is important because
A) chloroplasts sense when light is available so that guard
cells will open.
B) photosynthesis provides the energy necessary
for contractile proteins to flex and open the guard cells.
C)
guard cells will produce the O₂ necessary to power active transport.
D) ATP is required to power proton pumps in the guard cell
membranes.
E) chloroplasts sense when light is available so that
guard cells will open and guard cells will produce the O₂ necessary to
power active transport.
Answer: D
56) All of the following are adaptations that help reduce water loss
from a plant except
A) transpiration.
B) sunken stomata.
C) C4 photosynthesis.
D) small, thick leaves.
E)
crassulacean acid metabolism.
Answer: A
57) Which of the following best explains why very few CAM plants are
tall?
A) They have difficulty moving water and minerals to the
top of the plant during the day.
B) They would be unable to
supply sufficient sucrose for active transport of minerals into the
roots during the day or night.
C) Transpiration occurs only at
night, and this would cause a highly negative Ψ in the roots of a tall
plant during the day.
D) Since the stomata are closed in the
leaves, the Casparian strip is closed in the endodermis of the root.
E) With the stomata open at night, the transpiration rate would
limit plant height.
Answer: A
58) As a biologist, it is your job to look for plants that have
evolved structures with a selective advantage in dry, hot conditions.
Which of the following adaptations would be least likely to meet your
objective?
A) CAM plants that grow rapidly
B) small, thick
leaves with stomata on the lower surface
C) a thick cuticle on
fleshy leaves
D) large, fleshy stems with the ability to carry
out photosynthesis
E) plants that do not produce abscisic acid
and have a short, thick taproot
Answer: E
59) A primary result for stomatal closure on a hot, dry day would be
A) release of K+ ions to the apoplast and subsidiary cells.
B) displacement of Ca++ ions from the thick inner walls of the
guard cells.
C) disassembly of the microfibrils in the cell walls
of the subsidiary cells.
D) upregulation of aquaporin synthesis.
E) downregulation of extension proteins.
Answer: A
60) What is the driving force for the movement of solutes in the
phloem of plants?
A) gravity
B) a difference in water
potential (Ψ) between the source and the sink
C) root pressure
D) transpiration of water through the stomata
E) adhesion
of water to phloem sieve tubes
Answer: B
61) Phloem transport of sucrose is often described as going from
source to sink. Which of the following would not normally function as
a sink?
A) growing leaf
B) growing root
C) storage
organ in summer
D) mature leaf
E) shoot tip
Answer: D
62) Which of the following is a correct statement about sugar
movement in phloem?
A) Diffusion can account for the observed
rates of transport.
B) Movement can occur both upward and
downward in the plant.
C) Sugar is translocated from sinks to
sources.
D) Only phloem cells with nuclei can perform sugar
movement.
E) Sugar transport does not require energy.
Answer: B
63) Phloem transport is described as being from source to sink. Which
of the following would most accurately complete this statement about
phloem transport as applied to most plants in the late spring?
Phloem transports ________ from the ________ source to the
________ sink.
A) amino acids; root; mycorrhizae
B) sugars; leaf; apical
meristem
C) nucleic acids; flower; root
D) proteins; root;
leaf
E) sugars; stem; root
Answer: B
64) Arrange the following five events in an order that explains the
mass flow of materials in the phloem.
1. Water diffuses into the sieve tubes.
2. Leaf cells
produce sugar by photosynthesis.
3. Solutes are actively
transported into sieve tubes.
4. Sugar is transported from cell
to cell in the leaf.
5. Sugar moves down the stem.
A) 2, 1, 4, 3, 5
B) 1, 2, 3, 4, 5
C) 2, 4, 3, 1, 5
D) 4, 2, 1, 3, 5
E) 2, 4, 1, 3, 5
Answer: C
65) Water flows into the source end of a sieve tube because
A)
sucrose has diffused into the sieve tube, making it hypertonic.
B) sucrose has been actively transported into the sieve tube,
making it hypertonic.
C) water pressure outside the sieve tube
forces in water.
D) the companion cell of a sieve tube actively
pumps in water.
E) sucrose has been transported out of the sieve
tube by active transport.
Answer: B
66) Which one of the following statements about transport of
nutrients in phloem is false?
A) Solute particles can be
actively transported into phloem at the source.
B) Companion
cells control the rate and direction of movement of phloem sap.
C) Differences in osmotic concentration at the source and sink
cause a hydrostatic pressure gradient to be formed.
D) A sink is
that part of the plant where a particular solute is consumed or
stored.
E) A sink may be located anywhere in the plant.
Answer: B
67) According to the pressure flow hypothesis of phloem transport,
A) solute moves from a high concentration in the source to a
lower concentration in the sink.
B) water is actively
transported into the source region of the phloem to create the turgor
pressure needed.
C) the combination of a high turgor pressure in
the source and transpiration water loss from the sink moves solutes
through phloem conduits.
D) the formation of starch from sugar
in the sink increases the osmotic concentration.
E) the pressure
in the phloem of a root is normally greater than the pressure in the
phloem of a leaf.
Answer: A
68) Plants do not have a circulatory system like that of some
animals. If a water molecule did "circulate" (that is, go
from one point in a plant to another and back in the same day), it
would require the activity of
A) only the xylem.
B) only
the phloem.
C) only the endodermis.
D) both the xylem and
the endodermis.
E) both the xylem and the phloem.
Answer: E
69) Long-distance electrical signaling in the phloem has been shown
to elicit a change in all of the following except
A) rapid leaf
movement.
B) gene transcription.
C) a switch from C4 to C3
photosynthesis.
D) gene transcription.
E) phloem unloading.
Answer: C
70) Plasmodesmata can change in number, and when dilated can provide
a passageway for
A) macromolecules such as RNA and proteins.
B) ribosomes.
C) chloroplasts.
D) mitochondria.
E) cytoskeletal components.
Answer: A
The following photo shows a strawberry leaf displaying guttation.
Answer the following question regarding guttation.
71) What is the main cause of guttation in plants?
A) root
pressure
B) transpiration
C) pressure flow in phloem
D) plant injury
E) condensation of atmospheric water
Answer: A
72) A fellow student brought in a leaf to be examined. The leaf was
dark green, thin, had stoma on the lower surface only, and had a total
surface area of 10 square meters. Where is the most likely environment
where this leaf was growing?
A) a dry, sandy region
B) a
large, still pond
C) a tropical rain forest
D) an oasis
within a grassland
E) the floor of a deciduous forest
Answer: C
73) Several tomato plants are growing in a small garden plot. If soil
water potential were to drop significantly on a hot summer afternoon,
which of the following would most likely occur?
A) Stomatal
apertures would decrease.
B) Transpiration would increase.
C) The leaves would become more turgid.
D) The uptake of
CO2 would be enhanced.
E) The proton gradient would dissipate.
Answer: A
74) The symplast transports all of the following except
A)
sugars.
B) mRNA.
C) DNA.
D) proteins.
E) viruses.
Answer: C
75) Which of the following is an adaptation that enhances the uptake
of water and minerals by roots?
A) mycorrhizae
B)
cavitation
C) active uptake by vessel elements
D) rhythmic
contractions by cortical cells
E) pumping through plasmodesmata
Answer: A
76) Which structure or compartment is part of the symplast?
A)
the interior of a vessel element
B) the interior of a sieve tube
C) the cell wall of a mesophyll cell
D) an extracellular
air space
E) the cell wall of a root hair
Answer: B
77) Movement of phloem sap from a source to a sink
A) occurs
through the apoplast of sieve-tube elements.
B) depends
ultimately on the activity of proton pumps.
C) depends on
tension, or negative pressure potential.
D) depends on pumping
water into sieve tubes at the source.
E) results mainly from diffusion.
Answer: B
78) Photosynthesis ceases when leaves wilt, mainly because
A)
the chlorophyll in wilting leaves is degraded.
B) flaccid
mesophyll cells are incapable of photosynthesis.
C) stomata
close, preventing CO₂ from entering the leaf.
D) photolysis, the
water-splitting step of photosynthesis, cannot occur when there is a
water deficiency.
E) accumulation of CO₂ in the leaf inhibits enzymes.
Answer: C
79) What would enhance water uptake by a plant cell?
A)
decreasing the Ψ of the surrounding solution
B) increasing the
pressure exerted by the cell wall
C) the loss of solutes from
the cell
D) increasing the Ψ of the cytoplasm
E) positive
pressure on the surrounding solution
Answer: E
80) A plant cell with a ΨS of -0.65 MPa maintains a constant volume
when bathed in a solution that has a ΨS of -0.30 MPa and is in an open
container. The cell has a
A) ΨP of +0.65 MPa.
B) Ψ of -0.65 MPa.
C) ΨP of
+0.35 MPa.
D) ΨP of +0.30 MPa.
E) Ψ of 0 MPa.
Answer: C
81) Compared with a cell with few aquaporins in its membrane, a cell
containing many aquaporins will
A) have a faster rate of
osmosis.
B) have a lower water potential.
C) have a higher
water potential.
D) have a faster rate of active transport.
E) accumulate water by active transport.
Answer: A
82) Which of the following would tend to increase transpiration?
A) a rainstorm
B) sunken stomata
C) a thicker
cuticle
D) higher stomatal density
E) spiny leaves
Answer: D