Download Botany review

Botany review
Multiple Choice
Identify the letter of the choice that best completes the statement or answers the question.
____
____
____
____
____
____
1. Plant cells all have a _____ composed of cellulose.
a. cell wall
c. nucleus
b. cell membrane
d. cytoplasm
2. Both algae and plants store their food in the form of _____.
a. glycogen
c. cellulose
b. glucose
d. proteins
3. Which of the following are NOT considered non-seed plants?
a. Bryophytes
c. Anthocerophytes
b. Hepatophytes
d. Coniferophytes
4. The gametophyte of a moss produces _____.
a. spores
c. gametes
b. vascular tissue
d. 2n cells
5. Which of the following are considered BOTH a vascular and non-seed plant?
a. Bryophytes
c. Pterophytes
b. Hepatophytes
d. Coniferophytes
6. Although all plants produce spores only _____ produce flowers.
a. Anthophytes
c. Coniferophytes
b. Anthocerophytes
d. Ginkgophytes
Figure 21-2
____
____
7. Where does the sexual reproductive cycle begin in Figure 21-2?
a. A
c. C
b. B
d. D
8. Where does the asexual reproductive cycle begin in Figure 21-2?
a. A
c. C
b. B
d. D
____ 9. Where are seeds developed in Figure 21-2?
a. A
c. C
b. B
d. D
____ 10. If the plant described in Figure 21-2 has 16 chromosomes in the gametophyte stage, how many chromosomes
does it have in the sporophyte stage?
a. 4
c. 16
b. 8
d. 32
Figure 21-3
____ 11. Refer to Figure 21-3. Removing which structure would cause this plant to fall over?
a. A
c. C
b. B
d. D
____ 12. Refer to Figure 21-3. Which structure is used for the transportation of nutrients?
a. A
c. C
b. B
d. D
____ 13. Refer to Figure 21-3. Removing which structure would cause this plant to starve?
a. A
c. C
b. B
d. D
____ 14. Refer to Figure 21-3. Which structure collects water?
a. A
c. C
b. B
d. D
Figure 21-4
____ 15. Which structure in Figure 21-4 is analogous to a human fetus?
a. A
c. C
b. B
d. D
____ 16. Which structure in Figure 21-4 is analogous to a yolk in a chicken egg?
a. A
c. C
b. B
d. D
____ 17. Which structure in Figure 21-4 is analogous to an egg’s shell?
a. A
c. C
b. B
d. D
____ 18. Which division of seed plants is represented by only one living species?
a. Cycadophyta
c. Ginkgophyta
b. Gnetophyta
d. Coniferophyta
____ 19. Fossil and genetic evidence suggests that _____ were the first land plants.
a. mosses
c. lycophytes
b. liverworts
d. horsetail
____ 20. Bryophytes and Hepatophytes tend to be found in moist environments because _____.
a. they rely on osmosis and diffusion for transport of nutrients
b. they contain vascular tissue
c. they are both small plants
d. they don't produce seeds
____ 21. The fronds of ferns are divided into leaflets called _____.
a. rhizomes
c. cycads
b. pinnae
d. sori
____ 22. Which of these are vascular plants?
a. club mosses
c. ferns
b. spike mosses
d. all of these
____ 23. In most seed plants, fertilization does not require _____.
a. a film of water to carry the sperm to the egg
b. alternation of generations
c. the production of eggs
d. a gametophyte generation
____ 24. Nonvascular plants is the only plant division in which the gametophyte stage is _____.
a. smaller than the sporophyte
c. dominant
b. dependent upon the sporophyte
d. composed of 2n cells
____ 25. The female reproductive structure of nonvascular plants is called a(n) _____.
a. antheridia
c. rhizoid
b. archegonia
d. pinnae
____ 26. Anthophytes that live for only one year or less are called _____.
a. annuals
c. perennials
b. biennials
d. dicots
____ 27. Horsetails are _____.
a. bryophytes
c. lycophytes
b. arthrophytes
d. pterophytes
____ 28. Which of the following is not a dicotyledon?
a. lettuce
c. grass
b. maple tree
d. dandelion
____ 29. An anthophyte differs from a conifer in that _____.
a. it is deciduous
c. its seeds are enclosed in a fruit
b. it produces seeds
d. it has vascular tissue
Figure 22-2
____ 30. Which of the plants shown in Figure 22-2 uses alternation of generations to reproduce?
a. A
c. C
b. B
d. all of them
____ 31. Which of the plants shown in Figure 22-2 uses seeds to reproduce?
a. A
c. C
b. B
d. all of them
____ 32. Which reproductive process is NOT used by all three of the plants shown in Figure 22-2?
a. sexual
c. gametophyte
b. asexual
d. fruit generation
____ 33. Which of the plants shown in Figure 22-2 does NOT contain vascular tissue?
a. A
c. C
b. B
d. none of them contains vascular tissue
____ 34. Which of the plants shown in Figure 22-2 has a dominant gametophyte generation?
a. A
c. C
b. B
d. all of them
Figure 22-3
____ 35. What originated at point A on the timeline shown in Figure 22-3?
a. nonvascular plants
c. seed plants
b. vascular plants
d. non-seed vascular plants
____ 36. What type of plant died out in the time marked B in the timeline shown in Figure 22-3?
a. nonvascular plants
c. seed plants
b. vascular plants
d. non-seed vascular plants
____ 37. What type of plant is completely extinct at point C in the timeline shown in Figure 22-3?
a. nonvascular plants
c. conifers
b. vascular plants
d. none of the above
Figure 22-4
____ 38. Where are the male gametophytes produced in Figure 22-4?
a. A
c. C
b. B
d. D
____ 39. Where is the structure shown in Figure 22-4 located?
a. in the leaves
c. in the ground
b. in the stalk
d. in the root
Figure 22-5
____ 40. How are the vascular tissues bundled in the stalks of the seed shown to the left in Figure 22-5?
a. scattered
c. net-like
b. in a ring
d. they do not exist
____ 41. You pick a flower off the plant that produced the seed shown to the right in Figure 22-5. What is a possible
number of petals this flower could have?
a. 3
c. 7
b. 6
d. 8
____ 42. If you cut open a stalk of the plant that produced the seed shown to the right in Figure 22-5, how would the
vascular bundles appear?
a. scattered
c. net-like
b. in a ring
d. they do not exist
Figure 22-6
____ 43. According to Figure 22-6, with which division of seed plants do ginkos share the most recent common
ancestor?
a. conifers
c. gnetums
b. anthophytes
d. cycads
____ 44. According to Figure 22-6, which species was the fastest to differentiate from the rest of the ones shown?
a. conifers and ginkos
c. gnetums and cycads
b. anthophytes
d. anthophytes, conifers, and ginkos
____ 45. What can be inferred from Figure 22-6?
a. anthophytes are the most common seed plants
b. ginkos only grow in one area of the world
c. there used to be more than one species of ginkos
d. seed plants are more closely related to protists than non-seed plants
____ 46. Which of the following would not be found in a leaf?
a. parenchyma
c. stomata
b. epidermis
d. cork cambium
____ 47. Most anthophyte leaves are thin with a large surface area. This structure enhances the plant's ability to _____.
a. take in water
c. store food
b. balance and stay upright
d. photosynthesize
____ 48. Parallel veins in a leaf would indicate that the plant is a _____.
a. dicotyledon
c. perennial
b. biennial
d. monocotyledon
____ 49. Which of the following is a characteristic of monocots?
a. alternating strands of xylem and phloem that surround a core
b. xylem forms a star shape in the root cross section
c. woody stems with thick bark
d. vascular bundles of stem in cross section are in a ring
____ 50. The veins of a leaf contain the _____.
a. apical meristem
c. endodermis
b. epidermis
d. vascular tissue
____ 51. Where does most photosynthesis take place?
a. in the cells of the cortex
c. in the palisade mesophyll
____ 52.
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____ 64.
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____ 66.
b. in the spongy mesophyll
d. in the stomata
What is the primary function of plant leaves?
a. to support the plant
c. to take in water
b. to produce flowers
d. to trap sunlight for photosynthesis
Herbaceous stems grow thicker as a result of cell division in the _____.
a. vascular cambium of the stem
c. bark
b. apical meristem
d. pericycle
Cells in the apical meristem that cause a root to grow longer are found _____.
a. just behind the root tip
c. at the top of the root
b. along the sides of the root
d. in the center of the root
A plant is probably a dicot if it has _____.
a. netted veins
c. parallel veins
b. one seed leaf within the seed
d. flower parts in multiples of three
To control water loss, the size of the stomata is reduced by the _____.
a. xylem
c. cambium
b. phloem
d. guard cells
A plant that produces too little of the gibberellins might _____.
a. grow too tall
b. increase the rate of seed germination
c. develop many buds
d. not form flowers
Which of the following is NOT a characteristic of a parenchyma cell?
a. the most abundant type of plant cell
c. thin, flexible cell walls
b. thick, rigid cell walls
d. large central vacuoles
The epidermis of a plant functions much like the _____ of an animal.
a. skin
c. heart
b. stomach
d. eyes
The epidermal structures that control the exchange of gases are called _____.
a. mesophyll
c. root hairs
b. trichomes
d. stomata
Sugars and other organic compounds are transported throughout the plant by the _____.
a. tracheids
c. phloem
b. guard cells
d. xylem
Which of the following cells would be found in xylem tissue?
a. sieve tube members
c. companion cells
b. tracheids
d. guard cells
The _____ produces new xylem and phloem cells in the stems and roots.
a. epidermis
c. apical meristem
b. endodermis
d. vascular cambium
The plant hormone, auxin, is produced in the _____ of a growing plant.
a. leaves
c. branches
b. vascular tissue
d. apical meristem
A plant's response to an external stimulus that comes from a particular direction is called _____.
a. tropism
c. flowering
b. nastic response
d. cell division
Guard cells close the _____ to prevent excess water loss.
a. stomata
c. epidermis
b. trichomes
d. collenchyma
Figure 23-1
____ 67. Which structure shown in Figure 23-1 is not found in animal cells?
a. A
c. D
b. C
d. F
____ 68. What is the purpose of structure B in Figure 23-1?
a. powerhouse of the cell
c. generating food
b. making ribosomes
d. waste management
____ 69. Part A of the cell in Figure 23-1 is very flexible in a particular cell. What type of cell is it?
a. parenchyma
c. sclerenchyma
b. collenchyma
d. stomata
Figure 23-2
____ 70. What structure shown in Figure 23-2 produces sugars?
a. A
c. C
b. B
d. D
____ 71. Where is most of the vascular tissue found in Figure 23-2?
a. A
c. C
b. B
d. D
____ 72. Which structure shown in Figure 23-2 demonstrates positive gravitropism?
a. A
c. C
b. B
d. D
____ 73. Which structure shown in Figure 23-2 demonstrates negative gravitropism?
a. A
c. C
b. B
d. D
____ 74. Which structure shown in Figure 23-2 has the greatest percentage of dermal cells?
a. A
c. C
b. B
d. D
Figure 23-3
____ 75. What type of cells are found at section C of Figure 23-3?
a. collenchyma
c. sclerenchyma
b. parenchyma
d. stomata
____ 76. What is transported by section A of Figure 23-3?
a. sugar
c. water
b. heat
d. waste
____ 77. What is transported by section B of Figure 23-3?
a. sugar
c. water
b. heat
d. waste
____ 78. Where is this type of tissue located?
a. at the surface
c. inside the leaf
b. in the ground
d. inside a seed
Figure 23-4
____ 79. What is the relative concentration of water in the guard cells shown in Figure 23-4?
a. low
c. average
b. high
d. the same as all the surrounding cells
____ 80. What are the organelles shown in the guard cells shown in Figure 23-4?
a. stomata
c. ribosomes
b. mitochondria
d. chloroplasts
____ 81. What is the purpose of the structure shown in Figure 23-4?
a. transpiration
c. water transport
b. photosynthesis
d. waste removal
Figure 23-5
____ 82. Which picture shown in Figure 23-5 is the most likely outcome?
a. A
c. C
b. B
d. D
____ 83. Figure 23-5 demonstrates _____.
a. phototropism
c. gravitropism
b. photosynthesis
d. thigmotropism
____ 84. What is the most likely seed-dispersal mechanism for a coconut?
a. eaten by animals
c. wind
b. catch in animal fur
d. water
____ 85. What is the most likely seed-dispersal mechanism for a seed with winglike structures?
a. eaten by animals
c. wind
b. catch in animal fur
d. water
____ 86. What is the most likely seed-dispersal mechanism for a tumbleweed?
a. eaten by animals
c. wind
b. catch in animal fur
d. water
____ 87. What is the most likely seed-dispersal mechanism for a walnut?
a. eaten by animals
c. wind
b. catch in animal fur
d. water
____ 88. What is the most likely seed-dispersal mechanism for an acorn?
a. eaten by animals
c. wind
b. catch in animal fur
d. water
____ 89. What is the most likely seed-dispersal mechanism for an apple seed?
a. eaten by animals
c. wind
b. catch in animal fur
d. water
____ 90. What is the most likely seed-dispersal mechanism for a seed with hairy plumes?
a. eaten by animals
c. wind
b. catch in animal fur
d. water
____ 91. What is the most likely seed-dispersal mechanism for a seed with hooks?
a. eaten by animals
c. wind
b. catch in animal fur
d. water
____ 92. After fertilization in a flowering plant, the central cell develops into the _____.
a. zygote
c. pollen tube
b. endosperm
d. fruit
____ 93. The fertilization of the central nucleus in a flowering plant produces a _____.
a. triploid nucleus
c. diploid nucleus
b. zygote
d. haploid egg
____ 94. Where does the process of double fertilization occur in flowering plants?
a. in the pollen tube
c. in the central nucleus
b. in the stigma
d. in the ovule
____ 95. Which plant has seeds that might be stimulated to grow after a fire?
a. apple tree
c. prairie wildflowers
b. maple tree
d. tulips
____ 96. During a plant's life cycle the gametophyte produces _____.
a. seeds
c. gametes
b. spores
d. endosperm
____ 97. The sperm of a moss is produced within the structure called the _____.
a. archegonia
c. capsule
b. antheridia
d. spore
____ 98. After fertilization in conifers, the zygote develops into a(n) _____.
a. pollen grain
c. gametophyte
b. embryo
d. cotyledon
____ 99. In the fern life cycle, a spore germinates to form a(n) _____.
a. thallose
c. prothallus
b. antheridia
d. sporophyte
____ 100. The megaspore of a conifer will become _____.
a. female gametophyte
c. male sporophyte
b. male gametophyte
d. female sporophyte
____ 101. A flower that has sepals, petals, stamens, and pistils is called a _____ flower.
a. female
c. complete
b. male
d. incomplete
Figure 24-2
____ 102. Where are spores produced in the plant shown in Figure 24-2?
a. A
c. C
b. B
d. D
____ 103. Which structure finds water in the plant shown in Figure 24-2?
a. A
c. C
b. B
d. D
____ 104. Which structure is the rhizome in the plant shown in Figure 24-2?
a. A
c. C
b. B
d. D
Figure 24-3
____ 105. Which structure is the male sexual organ in Figure 24-3?
a. A
c. C
b. B
d. D
____ 106. Which structure is the female sexual organ in Figure 24-3?
a. A
c. C
b. B
d. D
____ 107. What is the purpose of A and B in Figure 24-3?
a. transpiration
c. sexual reproduction
b. asexual reproduction
d. protection
Figure 24-4
____ 108. Which is the sporophyte in Figure 24-4?
a. A
c. C
b. B
d. D
____ 109. Which type of plant is shown in Figure 24-4?
a. conifer
c. gametophyte
b. fern
d. anthophyte
____ 110. Which part of the plant shown in Figure 24-4 will ripen into a fruit?
a. A
c. C
b. B
d. D
Figure 24-5
____ 111. Where does the fertilization occur in Figure 24-5?
a. A
c. C
b. B
d. D
____ 112. From where is the sperm released in Figure 24-5?
a. A
c.
b. B
d.
____ 113. Where can a triploid nucleus form in Figure 24-5?
a. A
c.
b. B
d.
C
D
C
D
Figure 24-6
____ 114. Which structure shown in Figure 24-6 started out as endosperm?
a. A
c. C
b. B
d. D
____ 115. Which structure shown in Figure 24-6 started out as a zygote?
a. A
c. C
b. B
d. D
Botany review
Answer Section
MULTIPLE CHOICE
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21-1
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P.2.1, B.5.1
P.2.1, B.5.1
P.2.1
B.1.2
P.2.1
P.2.1
B.1.2
B.1.2
B.1.2
B.1.2
B.3.2
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B.3.2
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B.3.2
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
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A
A
A
A
B
B
B
B
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
22-5
22-5
22-5
22-5
23-2
23-4
23-3
23-3
23-3
23-4
23-4
23-2
23-2
23-3
23-4
23-5
23-1
23-2
23-3
23-4
23-3
23-4
23-5
23-6
23-2
23-1
23-1
23-1
23-4
23-4
23-4
23-4
23-4
23-2
23-2
23-2
23-2
23-3
23-3
23-3
23-6
23-6
24-6
24-6
24-6
24-6
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.3.2, P.2.1
B.1.2
B.3.2, B.1.2, B.5.1
B.1.2, B.5.1
B.1.2, B.5.1
B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.1.2
B.1.2
B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.6.1
B.1.1, B.1.2, B.5.1
B.1.2
B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.6.1
B.6.1
B.1.2
B.1.1, B.1.2, B.5.1
B.1.1, B.1.2, B.5.1
B.1.1, B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.3.2, B.1.2, B.5.1
B.1.2
B.1.2
B.1.2
B.1.2
B.1.2, B.5.1
B.1.2, B.5.1
B.1.2, B.5.1
B.6.1
B.6.1
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2, B.4.2
88.
89.
90.
91.
92.
93.
94.
95.
96.
97.
98.
99.
100.
101.
102.
103.
104.
105.
106.
107.
108.
109.
110.
111.
112.
113.
114.
115.
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
ANS:
A
A
C
B
B
A
D
C
C
B
B
C
A
C
D
A
B
D
C
D
A
D
C
D
A
C
D
B
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
DIF:
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
A
A
A
A
A
A
A
A
A
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
OBJ:
24-6
24-6
24-6
24-6
24-5
24-5
24-5
24-6
24-1
24-2
24-2
24-2
24-2
24-3
24-2
24-2
24-2
24-3
24-3
24-3
24-5
24-5
24-6
24-5
24-5
24-5
24-6
24-6
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
STO:
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2
B.1.2, B.3.2
B.1.2, B.3.2
B.1.2, B.3.2, B.4.2
B.1.1, B.1.2
B.1.2, B.3.2
B.1.2, B.3.2
B.1.2, B.3.2
B.1.2, B.3.2
B.3.2
B.1.2, B.3.2
B.1.2, B.3.2
B.1.2, B.3.2
B.3.2
B.3.2
B.3.2
B.1.2, B.3.2
B.1.2, B.3.2
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2
B.1.2, B.3.2
B.1.2, B.3.2
B.1.2, B.3.2, B.4.2
B.1.2, B.3.2, B.4.2