Chapter 26
In land plants what % of the water transported by the xylem is used for metabolism? a. 32% b. 66% c. 85% d. 90% e. 2%
2%
____restrict the amount of water vapor that diffuses out of the plant's surfaces - but also restrict access to CO2 for photosynthesis, and oxygen for aerobic respiration
A cuticle and stomata
What benefit do root hairs provide to the plant? a. Increased nutrient absorbing ability b. Increase in surface area of the root system c. All of these choices. d. None of these choices. e. Increased water absorbing ability
All of these choices.
What features are typical of plants that are good at performing phytoremediation? a. All of these choices. b. None of these choices. c. Grow rapidly d. Grow large e. Able to uptake large amounts of contaminants
All of these choices.
Carbon, hydrogen and oxygen are _____ for plants a. macronutrients b. micronutrients c. trace elements d. required elements e. both a and d
Both a and d
Which of the following is a macronutrient? a. Calcium b. Boron c. Zinc d. Iron e. Copper
Calcium
Waxy, waterproof band that seals abutting cell walls of root endodermal cells Soil water can only enter the vascular cylinder by passing through an endodermal cell, which is covered by a waterproof _____ Transport proteins in the cells' plasma membranes control the movement of mineral ions from soil water into the plant body
Casparian strip
Steps in Pressure Flow Theory
Companion cells load sugars into sieve-tube members by active transport Solute concentration in sieve tubes increases, so water moves in by osmosis - increased fluid volume increases internal pressure (turgor) High pressure pushes fluid toward sink regions Pressure and solute concentrations decrease as fluid moves from source to sink Sugars are unloaded at sink regions; water follows by osmosis
Which two properties of water are the main driving factors behind the movement of water in vascular plants? a. Evaporation and cohesion b. Passive transport and cohesion c. Active transport and cohesion d. Diffusion and osmosis e. Cohesion and facilitate diffusion
Evaporation and cohesion
____ drives the upward movement of water through xylem inside a vascular plant
Evaporation from leaves and stems - Transpiration
One of a pair of cells that define a stoma across the epidermis of a leaf or stem
Guard cell
Decaying organic matter in soil; provides nutrients; negatively charged organic acids trap positive mineral ions
Humus
Which type of bond holds the water droplets together as they are being pulled up the plant's vascular system? a. Ionic b. Polar covalent c. Hydrogen d. Covalent e. Double covalent
Hydrogen
Process by which water moving through soil removes nutrients from it ___carries away soil nutrients; it is fastest in sandy soils, which do not bind nutrients as well as clay soils
Leaching
The role of companion cells in translocation is to A. Assist vessel members in transport of organics. B. Supply needed potassium ions for water transport. C. Load organic compounds into nearby sieve tubes. D. Supply both energy and potassium to sieve tube members. E. Supply both energy and potassium to sieve tube members and assist vessel members in transport of organics.
Load organic compounds into nearby sieve tubes.
Soil with roughly equal amounts of sand, silt, and clay have the best oxygen and water penetration
Loams
Which plant specialization mutually benefits the young root and a fungus? a. Mycorrhizae b. Root nodules c. None of these choices. d. All of these choices. e. Root hairs
Mycorrhizae
Plant growth requires the sixteen elements:
Nine elements are macronutrients, required in amounts above 0.5% of the plant's dry weight Seven other elements are micronutrients, which make up traces of the plant body Carbon, oxygen, and hydrogen are obtained from air and water Other nutrients are taken up by roots as minerals dissolved in soil water
Conversion of nitrogen gas to ammonia
Nitrogen Fixation Nitrogen-fixing bacteria form root nodules on clover, peas, and other legumes In nitrogen fixation, a bacterial enzyme uses ATP to convert nitrogen gas to ammonia (NH3) Other bacteria convert ammonia to nitrate (NO3-), a form of nitrogen that plants can absorb
Which macronutrient is responsible for the activation of enzymes in plants? a. Copper b. Zinc c. Potassium d. Sulfur e. Carbon
Potassium
thin extensions of root epidermal cells - enormously increase surface area absorbing water and nutrients They do not develop into new roots, and last only a few days
Root hairs
consists of particles from weathered rocks, mixed with variable amounts of decomposing organic material (humus) Mineral particles (sand, silt, and clay) differ in size and chemical properties Sand and silt provide air spaces Negatively-charged clay attracts positive mineral ions
Soil Mixture of various mineral particles and humus
________ is the loss of soil under the force of wind and water. a. Decomposition b. Soil erosion c. Bioremediation d. Leaching e. Phytoremediation
Soil erosion
What is the main form of stored carbohydrates in plants? a. Glucose b. Cellulose c. Chitin d. Glycogen e. Starch
Starch
Through which plant structure does the majority of water evaporate? a. Leaves b. Root hairs c. Stoma d. Root nodules e. Stroma
Stoma
Which two structures will help the plant conserve water during times of drought? a. Stomata and porous roots b. Cuticle and broad surface area on the leaves c. Stomata and cuticle d. Stomata and porous epidermis e. Cuticle and porous roots
Stomata and cuticle
In CAM plants, A. Stomata remain open day and night. B. The stomata are open during the day. C. There are no stomata, which decreases water loss. D. Stomata open at night. E. Guard cells are reversed, closing when turgid and opening when flaccid.
Stomata open at night
___prevents water loss from evaporation It consists of epidermal cell secretions: waxes, pectin, and cellulose fibers embedded in cutin, an insoluble lipid polymer ____ is translucent, so it does not prevent light from reaching photosynthetic tissues
The cuticle
When compared to the conducting tubes of xylem what is unique about phloem? a. The sieve tubes are folded over. b. The sieve tubes are formed from vessel elements. c. The sieve tubes contain tracheids. d. The sieve tubes are blocked. e. The sieve tubes are living.
The sieve tubes are living.
Uppermost soil layer Contains the most nutrients for plant growth _____typically contains the greatest amount of organic matter, so the roots of most plants grow most densely in it
Topsoil
Process that moves organic molecules through phloem Organic compounds in phloem flow from a source - region where companion cells load molecules into sieve tubes - to a sink - region where molecules are being used or stored
Translocation
Factors Affecting Stomata
Water availability, the level of carbon dioxide inside the leaf, and light intensity affect whether stomata open or close Examples: Light causes guard cells to pump potassium ions into their cytoplasm; the stoma opens to begin photosynthesis Root cells release abscisic acid (ABA) when soil water becomes scarce; binding in guard cells closes stoma
___ allows it to be pulled from roots into all other parts of the plant
Water's cohesion
Transport of photosynthetically produced sugars from leaves to roots occurs by___ a. pressure flow b. differences in source and sink solute concentrations c. the pumping force of xylem vessels d. transpiration, tension, and cohesion of water e. a and b
a and b: pressure flow and differences in source and sink solute
When guard cells swell, ____ a. transpiration ceases b. sugars enter phloem c. a stoma open d. root cells die
a stoma open
when soil is dry, guard cells respond to ___ by collapsing against on another, so stomata close a. air temperature b. low humidity c. abscisic acid d. oxygen
abscisic acid
The sink region in the pressure flow explanation of phloem transport could be A. growing leaves B. seeds C. fruits D. roots E. all of these
all of these
The stomata A. only open at night B. are open when guard cells are turgid C. close when the turgor pressure of guard cells increases D. are covered by the cuticle to reduce water loss E. all of these
are open when guard cells are turgid
A vascular cylinder consists of cells of the ____ a. exodermis b. endodermis c. root cortex d. xylem and phloem e. b and d f. all of the above
b and d: endodermis, xylem and phloem
The movement of materials already in the phloem is described using the term(s) A. source-to-sink B. pressure flow C. cohesion D. active transport E. both source-to-sink and pressure flow
both source-to-sink and pressure flow
A _____ strip between abutting endodermal cell walls forces water and solutes to move through these cells rather than around them a. cutin b. casparian c. cohesion d. cellulose
casparian
The inorganic soil constituent with the finest particles is A. clay B. gravel C. humus D. sand E. silt
clay
At night, the stomata of most plants will ________. a. close b. open c. close to prevent the loss of oxygen from the leaf d. regulate the diffusion of nitrogen e. regulate the diffusion of carbon dioxide
close
Which part of the theory of water transport states that hydrogen bonding allows water molecules to maintain a continuous fluid column as water is pulled from roots to leaves? A. pressure flow B. evaporation C. cohesion D. abscission E. fusion
cohesion
How transpiration creates a tension that pulls a cohesive column of water through xylem, from roots to shoots
cohesion-tension theory
The waxy covering of the leaf is the A. cuticle B. epidermis C. Casparian strip D. stomata E. none of these
cuticle
The Casparian strip is associated with the A. epidermis B. vascular tissue C. cortex D. root hairs E. endodermis
endodermis
A waxy cuticle is secreted by _____ a. ground tissue b. epidermal cells c. a stoma d. root hairs
epidermal cells
Mycorrhizae are A. roots B. bacteria-root associations C. fungus-root associations D. bacteria E. small animals found in agricultural soils
fungus-root associations
The cells that surround stomata are A. endodermal cells B. guard cells C. mesophyll cells D. vascular bundle cells E. vessel cells
guard cells
Stomata open in response to light when____ a. guard cells pumps ion into their cytoplasm b. guard cells pump ions out of their cytoplasm c. water evaporates out of guard cells
guard cells pumps ion into their cytoplasm
Decomposing matter in soil is called_____ a. loam b. humus c. topsoil d. nutrients
humus
What is the organic constituent of soil called? A. clay B. gravel C. humus D. sand E. silt
humus
Most of the water that enters the plant A. leaves the plant through the root system B. is lost through transpiration C. remains in the plant to form the high concentration of water in plant tissue D. remains in the plant to function in translocation E. is used up in cellular metabolism
is lost through transpiration
The soil type that has the best oxygen concentration and water penetration is called ________. a. rock b. topsoil c. leaching d. loam e. humus
loam
The type of relationship between nitrogen fixing bacteria and the roots of various plants is ________. a. parasitic b. None of these c. mutually beneficial d. predatory e. commensalistic
mutually beneficial
Fungal hyphae in and around roots help roots absorb mineral ions from a larger volume of soil than roots alone Mutually beneficial fungus-plant root partnership
mycorrhiza
The nutrition of some plants depends on a mutually beneficial association between a root and a fungus. The association is known as a____ a. root nodule b. mycorrhiza c. root hair d. root hypha
mycorrhiza
According to the pressure flow theory what do sugars do in the sieve tube members? a. Decrease the solute concentration and cause water to move into the tube. b. Increase the solute concentration and cause water to move into the tube. c. Increase the solute concentration and cause water to move out of the tube. d. Sugars are not associated with the pressure flow theory. e. Decrease the solute concentration and cause water to move out of the tube.
ncrease the solute concentration and cause water to move into the tube.
Water inside all of the xylem cells is being pulled upward by A. turgor pressure B. negative pressures (tensions) C. osmotic gradients D. pressure flow forces E. all of these
negative pressures (tensions)
Nodules found on the roots of leguminous plants are involved in supplying which element for the plant? A. aluminum B. boron C. magnesium D. nitrogen E. chlorine
nitrogen
Which of the following would not be used when describing a Casparian strip? A. waxy B. endodermis C. permeable D. exodermis E. waterproof
permeable
Sieve tubes are part of ____ a. cortex b. mesophyll c. phloem d. xylem
phloem
Sugars are usually carried throughout the plant in which tissue? A. cortex B. parenchyma C. xylem D. phloem E. cambium
phloem
The process by which plants take up and concentrate or degrade environmental contaminants is called ________. a. cellular respiration b. bioaugmentation c. phytoremediation d. bioremediation e. photosynthesis
phytoremediation
Explanation of how flow of fluid through phloem is driven by differences in pressure and sugar concentration between a source and a sink
pressure flow theory
Anaerobic bacteria in root nodules share their fixed nitrogen with certain plants Swellings of some plant roots that contain nitrogen-fixing bacteria
root nodules
Loss of soil under the force of wind and water Nutrients are also lost through ____; strong winds, fast-moving water, sparse vegetation, and poor farming practices cause the greatest losses
soil erosion
The openings in leaves that function to exchange gases are called A. cuticles B. stomata C. guard cells D. pits E. pores
stomata
Two specialized cells (guard cells) define each ___ When guard cells swell with water, a gap forms between them When guard cells lose water, the gap closes
stomata
The most common form of sugar transported to the roots is A. glucose B. fructose C. sucrose D. ribose E. starch
sucrose
Movement of soluble organic material through plants is known as A. translocation B. active transport C. passive transport D. transpiration E. none of these
translocation
Water evaporation from plant parts is called____ a. translocation b. expiration c. transpiration d. tension
transpiration
Water transport from roots to leaves occurs mainly because of_____ a. pressure flow b. differences in source and sink solute concentrations c. the pumping force of xylem vessels d. transpiration, tension, and cohesion of water e. a and b
transpiration, tension, and cohesion of water
Even though plant cell walls in the root system are rigid they are permeable to ________. a. water and ions b. sunlight and oxygen c. sunlight and potassium d. water and sunlight e. They are not permeable to anything.
water and ions
Tracheids are part of ____ a. cortex b. mesophyll c. phloem d. xylem
xylem
The cohesion-tension theory indicates that the water located in the ________ is under a constant state of ________ pressure. a. phloem, negative b. xylem, positive c. xylem, negative d. phloem, positive e. xylem, partial
xylem, negative
