Ch 23
The cork cambium produces ______ on its outer surface and ______ on its inner surface. a. phelloderm; phellogen b. phellogen; phelloderm c. phellogen; phellem d. phelloderm; cork e. cork; phelloderm
cork; phelloderm
In a eudicot stem, ______ is the ground tissue external to the system of vascular strands and ______ is the ground tissue internal to these strands. a. pith; cortex b. cortex; pith c. xylem; phloem d. xylem; cortex e. pith; phloem
cortex; pith
During the differentiation of sieve-tube elements, which of the following does not disintegrate? a. cytoskeleon b. endoplasmic reticulum c. Golgi apparatus d. tonoplast e. nucleus
endoplasmic reticulum
Which of the following is NOT part of the periderm? a. phellem b. phellogen c. phelloderm d. epidermis e. cork cambium
epidermis
The role of transfer cells is to: a. transport water and minerals throughout the plant. b. facilitate the movement of solutes over short distances. c. move sugars through the phloem. d. transfer solutes from the cortex to the pith via rays. e. increase the rate of water movement through stomata.
facilitate the movement of solutes over short distances.
By definition, metaxylem is ______ protoxylem. a. formed before b. formed after c. formed at the same time as d. larger than e. smaller than
formed after
In contrast to derivatives, initials: a. differentiate more quickly. b. are located in the shoot apical meristem. c. are located in the root apical meristem. d. undergo cell division. e. give rise to more initials and derivatives.
give rise to more initials and derivatives.
From which primary meristem does sclerenchyma develop? a. parenchyma b. collenchyma c. procambium d. ground meristem e. protoderm
ground meristem
A subsidiary cell is most closely associated with which of the following? a. tracheids b. companion cells c. sieve-tube elements d. guard cells e. albuminous cells
guard cells
The developmental fate of a plant cell is determined mostly by: a. its growth rate. b. its developmental plasticity. c. its final position. d. whether it is an initial or a derivative. e. whether it is determinate or indeterminate.
its final position.
Stomata are the ______ between ______. a. cells; subsidiary cells b. cells; guard cells c. pores; guard cells d. pores; subsidiary cells e. pores; trichomes
pores; guard cells
Which of the following is NOT a function of trichomes? a. providing structural support b. defending against insects c. secreting salts d. absorbing water and minerals from the soil
providing structural support
______ is the typical supporting tissue of growing stems, leaves, and floral parts. a. Sclerenchyma b. Parenchyma c. Xylem d. Phloem e. Collenchyma
Collenchyma
______ tissue is composed of cells having unevenly thickened primary walls. a. Collenchyma b. Xylem c. Parenchyma d. Phloem e. Sclerenchyma
Collenchyma
______ is a simple tissue, and ______ is a complex tissue. a. Xylem; phloem b. Phloem; xylem c. Parenchyma; collenchyma d. Collenchyma; xylem e. Xylem; sclerenchyma
Collenchyma; xylem
____________ refers to the phenomenon whereby a cell becomes increasingly committed to a course of development that weakens its ability to resume growth. a. Positional information b. Competency c. Indeterminate growth d. Determination e. Differentiation
Determination
Which of the following statements about P-protein is FALSE? a. It is found in the protoplasts of sieve-tube elements of eudicots and some monocots. b. In undisturbed cells, it plugs the sieve-plate pores. c. It may serve to seal the sieve-plate pores when the cell is wounded. d. It originates in P-protein bodies. e. The "P" stands for phloem.
In undisturbed cells, it plugs the sieve-plate pores.
Which of the following statements about primary growth is FALSE? a. It results in extension of the plant body. b. It involves the formation of primary tissues. c. It results in the thickening of the stem and root. d. It gives rise to the primary plant body.
It results in the thickening of the stem and root.
Which of the following statements concerning the epidermis is FALSE? a. Stomata are epidermal cells. b. The epidermis constitutes the dermal system of leaves. c. Guard cells are epidermal cells. d. Trichomes are appendages of epidermal cells. e. In the aerial parts of the plant, the epidermis is covered with a cuticle.
Stomata are epidermal cells.
Which of the following statements about sieve cells is FALSE? a. They transport food. b. They are interconnected to form sieve tubes. c. They are found in gymnosperms but not angiosperms. d. They are living cells at maturity.
They are interconnected to form sieve tubes.
Which of the following statements about parenchyma cells is FALSE? a. They can photosynthesize. b. They can initiate adventitious roots. c. They are involved in secretion. d. They are capable of cell division. e. They lack secondary walls.
They lack secondary walls.
Which of the following statements about the shoot and root apical meristems is FALSE? a. They are perpetually young tissues or cells. b. They are established during embryogenesis. c. It is through their activity that most plant development occurs. d. They lose the potential to divide soon after embryogenesis is complete. e. They generate cells that give rise to roots, stems, leaves, and flowers.
They lose the potential to divide soon after embryogenesis is complete.
Which of the following statements about forisomes is FALSE? a. They seal the sieve-plate pores in undisturbed sieve tubes. b. Their activity is controlled by calcium. c. They are found in certain legumes. d. They are a type of P-protein body. e. They can switch back and forth from a resting stage to a dispersed stage.
They seal the sieve-plate pores in undisturbed sieve tubes.
Which of the following statements about sclerenchyma cells is FALSE? a. They are ground-tissue cells. b. They often lack protoplasts at maturity. c. They strengthen plant parts that are still elongating. d. They have thick, lignified, secondary walls. e. They may develop in any part of the primary and secondary plant bodies.
They strengthen plant parts that are still elongating.
______ are types of tracheary elements. a. Vessel elements and tracheids b. Tracheids and xylem parenchyma c. Vessel elements and xylem parenchyma d. Xylem fibers and tracheids
Vessel elements and tracheids
Callose is a ______ deposited in the ______ of sieve elements. a. protein; pits b. protein; pores c. carbohydrate; pits d. carbohydrate; pores e. fat; perforation plates
carbohydrate; pores
Most of the growth of a plant body is the result of: a. morphogenesis. b. embryogenesis. c. differentiation. d. cell division. e. cell enlargement.
cell enlargement.
The _____ is thought to supply the sieve-tube element with essential molecules. a. forisome b. companion cell c. P-protein body d. sclereid e. callose
companion cell
Albuminous cells are thought to have the same function as: a. vessel elements. b. tracheids. c. sieve cells. d. sieve-tube elements. e. companion cells.
companion cells.
Cells that are totipotent, play an important role in wound healing, and initiate adventitious structures are: a. sclerenchyma cells. b. vessel elements. c. sieve-tube elements. d. parenchyma cells. e. collenchyma cells.
parenchyma cells.
The rays found in secondary vascular tissue consist of: a. collenchyma cells. b. vessel elements. c. parenchyma cells. d. sieve-tube elements. e. sclerenchyma cells.
parenchyma cells.
The two types of ______ cells are fibers and sclereids. a. sclerenchyma b. parenchyma c. xylem d. phloem e. collenchyma
sclerenchyma
In vascular plants, food is conducted through: a. companion cells only. b. sieve cells only. c. sieve-tube elements only. d. sieve cells and sieve-tube elements only. e. companion cells, sieve cells, and sieve-tube elements.
sieve cells and sieve-tube elements only.
A cell that is alive at maturity but lacks a nucleus and certain organelles is the: a. companion cell. b. forisome. c. albuminous cell. d. Strasburger cell. e. sieve element.
sieve element.
The parenchyma cells that are developmentally related to the ______ of angiosperms are called ______. a. sieve cells; companion cells b. sieve cells; albuminous cells c. sieve-tube elements; companion cells
sieve-tube elements; companion cells
Morphogenesis refers to: a. an irreversible increase in size. b. the acquisition of a particular shape. c. the sum of all the events that lead to formation of an organism's body. d. the process by which cells become different from one another. e. the fate of a plant cell.
the acquisition of a particular shape.
The three tissue systems of vascular plants are: a. the dermal, vascular, and ground tissue systems. b. protoderm, procambium, and ground meristem. c. parenchyma, collenchyma, and sclerenchyma. d. epidermis, periderm, and protoderm. e. xylem, phloem, and epidermis.
the dermal, vascular, and ground tissue systems.
An example of programmed cell death is the differentiation of: a. parenchyma cells. b. collenchyma cells. c. cells of the cortex. d. the secondary cell wall. e. tracheary elements.
tracheary elements.
One role of pit membranes in tracheids is to: a. facilitate movement of air bubbles. b. facilitate water movement. c. facilitate solute transport. d. provide support. e. trap air bubbles.
trap air bubbles.
When a botanist uses the word "indeterminate," she is referring to the: a. ability of seeds to germinate under any conditions. b. secondary growth of the plant body. c. unlimited growth of the apical meristems. d. developmental plasticity of the plant. e ability of plants to modify their relationships with the environment.
unlimited growth of the apical meristems.
Perforation plates are characteristic of the ______ of ______. a. tracheids; angiosperms b. vessel elements; angiosperms c. tracheids; gymnosperms d. vessel elements; gymnosperms e. tracheids; seedless vascular plants
vessel elements; angiosperms