Campbell Biology 8th Ed Test Bank Chapter 28
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1) Protists are alike in that all are
A) unicellular.
B) eukaryotic.
C) symbionts.
D) monophyletic.
E) autotrophic.
B
Topic: Concept 28.1
: Knowledge/Comprehension
2) Biologists have long been aware that the defunct kingdom Protista is paraphyletic. Which
of these statements is both true and consistent with this conclusion?
A) Many species within this kingdom were once classified as monerans.
B) Animals, plants, and fungi arose from different protist ancestors.
C) The eukaryotic condition has evolved only once among the protists, and all
eukaryotes are descendants of that first eukaryotic cell.
D) Chloroplasts among various protists are similar to those found in prokaryotes.
E) Some protists, all animals, and all fungi share a protist common ancestor, but these
protists, animals, and fungi are currently assigned to three different kingdoms.
E
Topic: Concept 28.1
: Knowledge/Comprehension
3) The strongest evidence for the endosymbiotic origin of eukaryotic organelles is the
similarity between extant prokaryotes and which of the following?
A) nuclei and chloroplasts
B) mitochondria and chloroplasts
C) cilia and mitochondria
D) mitochondria and nuclei
E) mitochondria and cilia
B
Topic: Concept 28.1
: Knowledge/Comprehension
571
4) According to the endosymbiotic theory of the origin of eukaryotic cells, how did
mitochondria originate?
A) from infoldings of the plasma membrane, coupled with mutations of genes for
proteins in energy-transfer reactions
B) from engulfed, originally free-living prokaryotes
C) by secondary endosymbiosis
D) from the nuclear envelope folding outward and forming mitochondrial membranes
E) when a protoeukaryote engaged in a symbiotic relationship with a protobiont
B
Topic: Concept 28.1
: Knowledge/Comprehension
5) Which of these statements is false and therefore does not support the hypothesis that
certain eukaryotic organelles originated as bacterial endosymbionts? Such organelles
A) are roughly the same size as bacteria.
B) can be cultured on agar, because they make all their own proteins.
C) contain circular DNA molecules.
D) have ribosomes that are similar to those of bacteria.
E) have internal membranes that contain proteins homologous to those of bacterial
plasma membranes.
B
Topic: Concept 28.1
: Application/Analysis
6) Which process allowed the nucleomorphs of chlorarachniophytes to be first reduced, and
then (in a few species) lost altogether, without the loss of any genetic information?
A) conjugation
B) horizontal gene transfer
C) binary fission
D) phagocytosis
E) meiosis
B
Topic: Concept 28.1
: Knowledge/Comprehension
7) Which organisms represent the common ancestor of all photosynthetic plastids found in
eukaryotes?
A) autotrophic euglenids
B) diatoms
C) dinoflagellates
D) red algae
E) cyanobacteria
E
Topic: Concept 28.1
: Knowledge/Comprehension
572 Chapter 28, Protists
8) An individual mixotroph loses its plastids, yet continues to survive. Which of the following
most likely accounts for its continued survival?
A) It relies on photosystems that float freely in its cytosol.
B) It must have gained extra mitochondria when it lost its plastids.
C) It engulfs organic material by phagocytosis or by absorption.
D) It has an endospore.
E) It is protected by a siliceous case.
C
Topic: Concept 28.1
: Knowledge/Comprehension
9) Which of these was not derived from an ancestral alpha proteobacterium?
A) chloroplast
B) mitochondrion
C) hydrogenosome
D) mitosome
E) kinetoplast
A
Topic: Concepts 28.1, 28.2
: Knowledge/Comprehension
10) A biologist discovers a new unicellullar organism that possesses more than two flagella and
two small, but equal-sized, nuclei. The organism has reduced mitochondria (mitosomes),
no chloroplasts, and is anaerobic. To which clade does this organism probably belong?
A) monera
B) the diplomonads
C) the ciliates
D) protista
E) the euglenids
B
Topic: Concept 28.2
: Knowledge/Comprehension
11) Which two genera have members that can evade the human immune system by frequently
changing their surface proteins?
1. Plasmodium
2. Trichomonas
3. Paramecium
4. Trypanosoma
5. Entamoeba
A) 1 and 2
B) 1 and 4
C) 2 and 3
D) 2 and 4
E) 4 and 5
B
Topic: Concepts 28.2, 28.3
: Knowledge/Comprehension
Chapter 28, Protists 573
12) Which statement regarding resistance is false?
A) Many of the oomycetes that cause potato late blight have become resistant to
pesticides.
B) Many of the mosquitoes that transmit malaria to humans have become resistant to
pesticides.
C) Many of the malarial parasites have become resistant to antimalarial drugs.
D) Many humans have become resistant to antimalarial drugs.
E) Trichomonas vaginalis is resistant to the normal acidity of the human vagina.
D
Topic: Concepts 28.2, 28.3
: Knowledge/Comprehension
13) Which of these taxa contains species that produce potent toxins that can cause extensive
fish kills, contaminate shellfish, and poison humans?
A) red algae
B) dinoflagellates
C) diplomonads
D) euglenids
E) golden algae
B
Topic: Concept 28.3
: Knowledge/Comprehension
14) Which of the following pairs of protists and their characteristics is mismatched?
A) apicomplexans : internal parasites
B) golden algae : planktonic producers
C) euglenozoans : unicellular flagellates
D) ciliates : red tide organisms
E) entamoebas : ingestive heterotrophs
D
Topic: Concept 28.3
: Knowledge/Comprehension
15) Which of these statements about dinoflagellates is false?
A) They possess two flagella.
B) Some cause red tides.
C) Their walls are composed of cellulose plates.
D) Many types contain chlorophyll.
E) Their dead cells accumulate on the seafloor, and are mined to serve as a filtering
material.
E
Topic: Concept 28.3
: Knowledge/Comprehension
574 Chapter 28, Protists
16) Which group includes members that are important primary producers in ocean food webs,
causes red tides that kill many fish, and may even be carnivorous?
A) ciliates
B) apicomplexans
C) dinoflagellates
D) brown algae
E) golden algae
C
Topic: Concept 28.3
: Knowledge/Comprehension
17) You are given an unknown organism to identify. It is unicellular and heterotrophic. It is
motile, using many short extensions of the cytoplasm, each featuring the 9+2 filament
pattern. It has well-developed organelles and three nuclei, one large and two small. This
organism is most likely to be a member of which group?
A) foraminiferans
B) radiolarians
C) ciliates
D) kinetoplastids
E) slime molds
C
Topic: Concept 28.3
: Application/Analysis
18) Which of the following is not characteristic of ciliates?
A) They use cilia as locomotory structures or as feeding structures.
B) They are relatively complex cells.
C) They can exchange genetic material with other ciliates by the process of mitosis.
D) Most live as solitary cells in fresh water.
E) They have two or more nuclei.
C
Topic: Concept 28.3
: Knowledge/Comprehension
19) Which process results in genetic recombination, but is separate from the process wherein
the population size of Paramecium increases?
A) budding
B) meiotic division
C) mitotic division
D) conjugation
E) binary fission
D
Topic: Concept 28.3
: Knowledge/Comprehension
Chapter 28, Protists 575
20) Why is the filamentous morphology of the water molds considered a case of convergent
evolution with the hyphae (threads) of fungi?
A) Fungi are closely related to the water molds.
B) Body shape reflects ancestor-descendant relationships among organisms.
C) In both cases, filamentous shape is an adaptation for the absorptive nutritional mode
of a decomposer.
D) Filamentous body shape is evolutionarily ancestral for all eukaryotes.
E) Both A and B are correct.
C
Topic: Concept 28.3
: Knowledge/Comprehension
21) The Irish potato famine was caused by an organism that belongs to which group?
A) ciliates
B) oomycetes
C) diatoms
D) apicomplexans
E) dinoflagellates
B
Topic: Concept 28.3
: Knowledge/Comprehension
22) If one were to apply the most recent technique used to fight potato late blight to the fight
against the malarial infection of humans, then one would
A) increase the dosage of the least-expensive antimalarial drug administered to humans.
B) increase the dosage of the most common pesticide used to kill Anopheles mosquitoes.
C) introduce a predator of the malarial parasite into infected humans.
D) use a ʺcocktailʺ of at least three different pesticides against Anopheles mosquitoes.
E) insert genes from a Plasmodium-resistant strain of mosquito into Anopheles
mosquitoes.
E
Topic: Concept 28.3
: Application/Analysis
23) Diatoms are mostly asexual members of the phytoplankton. Diatoms lack any organelles
that might have the 9+2 pattern. They obtain their nutrition from functional chloroplasts,
and each diatom is encased within two porous, glasslike valves. Which question would be
most important for one interested in the day-to-day survival of individual diatoms?
A) How does carbon dioxide get into these protists with their glasslike valves?
B) How do diatoms get transported from one location on the waterʹs surface layers to
another location on the surface?
C) How do diatoms with their glasslike valves keep from sinking into poorly lit waters?
D) How do diatoms with their glasslike valves avoid being shattered by the action of
waves?
E) How do diatom sperm cells locate diatom egg cells?
C
Topic: Concept 28.3
: Synthesis/Evaluation
576 Chapter 28, Protists
24) A large seaweed that floats freely on the surface of deep bodies of water would be expected
to lack which of the following?
A) thalli
B) bladders
C) blades
D) holdfasts
E) gel-forming polysaccharides
D
Topic: Concept 28.3
: Knowledge/Comprehension
25) The following are all characteristic of the water molds (oomycetes) except
A) the presence of filamentous feeding structures.
B) flagellated zoospores.
C) a nutritional mode that can result in the decomposition of dead organic matter.
D) a morphological similarity to fungi that is the result of evolutionary convergence.
E) a feeding plasmodium.
E
Topic: Concept 28.3
: Knowledge/Comprehension
The following questions refer to the description and Table 28.1 below.
Diatoms are encased in Petri-plate-like cases (valves) made of translucent hydrated silica whose
thickness can be varied. The material used to store excess calories can also be varied. At certain times,
diatoms store excess calories in the form of the liquid polysaccharide, laminarin, and at other times, as
oil. Below are data concerning the density (specific gravity) of various components of diatoms, and of
their environment.
Table 28.1: Specific Gravities of Materials Relevant to Diatoms
Material Specific Gravity (kg/m3)
Pure water 1000
Seawater 1026
Hydrated silica 2250
Liquid laminarin 1500
Diatom oil 910
26) Waterʹs density and, consequently, its buoyancy decrease at warmer temperatures. Based
on this consideration and using data from Table 28.1, at which time of year should one
expect diatoms to be storing excess calories mostly as oil?
A) mid-winter
B) early spring
C) late summer
D) late fall
C
Topic: Concept 28.3
: Synthesis/Evaluation
Chapter 28, Protists 577
27) Judging from Table 28.1 and given that waterʹs density and, consequently, its buoyancy
decrease at warmer temperatures, in which environment should diatoms (and other
suspended particles) sink most slowly?
A) cold freshwater
B) warm freshwater
C) cold seawater
D) warm seawater
E) warm brackish water
C
Topic: Concept 28.3
: Synthesis/Evaluation
28) Using dead diatoms to ʺpumpʺ CO2 to the seafloor is feasible only if dead diatoms sink
quickly. Consequently, application of mineral fertilizers, such as iron, should be most
effective at times when diatom
A) valves are thickest, and laminarin is being produced rather than oil.
B) valves are thickest, and oil is being produced rather than laminarin.
C) valves are thinnest, and laminarin is being produced rather than oil.
D) valves are thinnest, and oil is being produced rather than laminarin.
A
Topic: Concept 28.3
: Synthesis/Evaluation
29) Theoretically, which two of the following present the richest potential sources of silica?
1. marine sediments consisting of foram tests
2. marine sediments consisting of diatom cases (valves)
3. marine sediments consisting of radiolarian shells
4. marine sediments consisting of dinoflagellate plates
A) 1 and 2
B) 1 and 4
C) 2 and 3
D) 2 and 4
E) 3 and 4
C
Topic: Concepts 28.3, 28.4
: Knowledge/Comprehension
30) Thread-like pseudopods that can perform phagocytosis are generally characteristic of
which group?
A) radiolarians and forams
B) gymnamoebas
C) entamoebas
D) amoeboid stage of cellular slime molds
E) oomycetes
A
Topic: Concept 28.4
: Knowledge/Comprehension
578 Chapter 28, Protists
31) Which of the following produce the dense glassy ooze found in certain areas of the
deep-ocean floor?
A) forams
B) dinoflagellates
C) radiolarians
D) ciliates
E) apicomplexans
C
Topic: Concept 28.4
: Knowledge/Comprehension
32) A snail-like, coiled, porous test (shell) of calcium carbonate is characteristic of which
group?
A) diatoms
B) foraminiferans
C) radiolarians
D) gymnamoebas
E) ciliates
B
Topic: Concept 28.4
: Knowledge/Comprehension
33) Typically as cells grow, their increase in volume outpaces their increase in surface area, and
continued survival requires undergoing asexual reproduction to reestablish a healthy
surface area to volume ratio. Thus, which of these is least likely to contribute to the ability of
a single-celled foraminiferan to grow to a diameter of several centimeters?
A) Its threadlike pseudopods dramatically increase its surface area to volume ratio.
B) Its symbiotic algae provide oxygen to the cytoplasm.
C) Its symbiotic algae absorb metabolic waste products from the cytoplasm.
D) Its symbiotic algae provide glucose to the cytoplasm.
E) Its calcium carbonate test contributes extra mass.
E
Topic: Concept 28.4
: Synthesis/Evaluation
34) What makes certain red algae appear red?
A) They live in warm coastal waters.
B) They possess pigments that reflect and transmit red light.
C) They use red light for photosynthesis.
D) They lack chlorophyll.
E) They contain the pigment bacteriorhodopsin.
B
Topic: Concept 28.5
: Knowledge/Comprehension
Chapter 28, Protists 579
35) The largest seaweeds belong to which group?
A) red algae
B) green algae
C) brown algae
D) golden algae
C
Topic: Concepts 28.3, 28.5
: Knowledge/Comprehension
36) The chloroplasts of land plants are thought to have been derived according to which
evolutionary sequence?
A) cyanobacteria green algae land plants
B) cyanobacteria green algae fungi land plants
C) red algae brown algae green algae land plants
D) red algae cyanobacteria land plants
E) cyanobacteria red algae green algae land plants
A
Topic: Concepts 28.1, 28.5
: Knowledge/Comprehension
37) The chloroplasts of all of the following are derived from ancestral red algae, except those of
A) golden algae.
B) diatoms.
C) dinoflagellates.
D) green algae.
E) brown algae.
D
Topic: Concept 28.5
: Knowledge/Comprehension
38) A biologist discovers an alga that is marine, multicellular, and lives at a depth reached only
by blue light. This alga probably belongs to which group?
A) red algae
B) brown algae
C) green algae
D) dinoflagellates
E) golden algae
A
Topic: Concept 28.5
: Knowledge/Comprehension
39) Green algae often differ from land plants in that some green algae
A) are heterotrophs.
B) are unicellular.
C) have plastids.
D) have alternation of generations.
E) have cell walls containing cellulose.
B
Topic: Concept 28.5
: Knowledge/Comprehension
580 Chapter 28, Protists
40) Which taxon of eukaryotic organisms is thought to be directly ancestral to the plant
kingdom?
A) golden algae
B) radiolarians
C) foraminiferans
D) apicomplexans
E) green algae
E
Topic: Concept 28.5
: Knowledge/Comprehension
41) If the Archaeplastidae are eventually designated a kingdom, and if the land plants are
excluded from this kingdom, then what will be true of this new kingdom?
A) It will be monophyletic.
B) It will more accurately depict evolutionary relationships than does the current
taxonomy.
C) It will be paraphyletic.
D) It will be a true clade.
E) It will be polyphyletic.
C
Topic: Concept 28.5
: Application/Analysis
42) The best evidence for not classifying the slime molds as fungi comes from slime moldsʹ
A) DNA sequences.
B) nutritional modes.
C) choice of habitats.
D) physical appearance.
E) reproductive methods.
A
Topic: Concept 28.6
: Knowledge/Comprehension
43) Which pair of alternatives is highlighted by the life cycle of the cellular slime molds, such as
Dictyostelium?
A) prokaryotic or eukaryotic
B) plant or animal
C) unicellular or multicellular
D) diploid or haploid
E) autotroph or heterotroph
C
Topic: Concept 28.6
: Knowledge/Comprehension
Chapter 28, Protists 581
44) Which of the following correctly pairs a protist with one of its characteristics?
A) diplomonads : micronuclei involved in conjugation
B) ciliates : pseudopods
C) apicomplexans : parasitic
D) gymnamoebas : calcium carbonate test
E) foraminiferans : abundant in soils
C
Topic: Concepts 28.2-28.6
: Knowledge/Comprehension
45) Which of the following statements concerning protists is false?
A) All protists are eukaryotic organisms; many are unicellular or colonial.
B) The primary organism that transmits malaria to humans by its bite is the tsetse fly.
C) All apicomplexans are parasitic.
D) Cellular slime molds have an amoeboid stage that may be followed by a stage during
which spores are produced.
E) Euglenozoans that are mixotrophic contain chloroplasts.
B
Topic: Concepts 28.2-28.6
: Knowledge/Comprehension
46) Which of the following is correctly described as a primary producer?
A) oomycete
B) kinetoplastid
C) apicomplexan
D) diatom
E) radiolarian
D
Topic: Concepts 28.2-28.6
: Knowledge/Comprehension
47) A certain unicellular eukaryote has a siliceous (glasslike) shell and autotrophic nutrition. To
which group does it belong?
A) dinoflagellates
B) diatoms
C) brown algae
D) radiolarians
E) oomycetes
B
Topic: Concepts 28.2-28.6
: Knowledge/Comprehension
582 Chapter 28, Protists
48) You are given the task of designing an aerobic, mixotrophic protist that can perform
photosynthesis in fairly deep water (e.g., 250 m deep), and can also crawl about and engulf
small particles. With which two of these structures would you provide your protist?
1. hydrogenosome
2. apicoplast
3. pseudopods
4. chloroplast from red alga
5. chloroplast from green alga
A) 1 and 2
B) 2 and 3
C) 2 and 4
D) 3 and 4
E) 4 and 5
D
Topic: Concepts 28.2-28.6
: Synthesis/Evaluation
49) You are given the task of designing an aquatic protist that is a primary producer. It cannot
swim on its own, yet must stay in well-lit surface waters. It must be resistant to physical
damage from wave action. It should be most similar to a(n)
A) diatom.
B) dinoflagellate.
C) apicomplexan.
D) red alga.
E) radiolarian.
A
Topic: Concepts 28.2-28.6
: Synthesis/Evaluation
50) Some protists, formerly united as the ʺamitochondriateʺ clade, have recently been shown to
be rather diverse. Some of them possess neither mitochondria nor mitochondrial genes (and
have been classified as fungi). Others possess no mitochondria, but do have mitochondrial
genes in their nuclear genome. Still others have modified mitochondria (viz. mitosomes or
hydrogenosomes). Which statement(s) represent(s) consequences of these recent findings?
1. The amitochondriates do not comprise a true clade.
2. The ʺamitochondriate hypothesisʺ concerning the root of the eukaryotic tree has been
strengthened.
3. Just as there is a diversity of cyanobacterial descendants among eukaryotes, so too is
there a diversity of alpha-proteobacterial descendants among the eukaryotes.
4. If the amitochondriate organisms continued to be recognized as a taxon, this taxon
would be polyphyletic.
5. Horizontal gene transfer involving mitochondrial genes has occurred in some
amitochondriate organisms.
A) 1 only
B) 1 and 4
C) 2 and 3
D) 1, 3, and 5
E) all except 2
E
Topic: Concepts 28.2, 28.6
: Synthesis/Evaluation
Chapter 28, Protists 583
51) Similar to most amoebozoans, the forams and the radiolarians also have pseudopods, as do
the white blood cells of animals. If one were to erect a taxon that included all organisms
that have cells with pseudpods, what would be true of such a taxon?
A) It would be polyphyletic.
B) It would be paraphyletic.
C) It would be monophyletic.
D) It would include all eukaryotes.
A
Topic: Concepts 28.4, 28.6
: Synthesis/Evaluation
52) You are designing an artificial drug-delivery ʺcellʺ that can penetrate animal cells. Which of
these protist structures should provide the most likely avenue for research along these
lines?
A) pseudopods
B) apical complex
C) excavated feeding grooves
D) nucleomorphs
E) mitosomes
B
Topic: Concepts 28.2-28.6
: Synthesis/Evaluation
53) A gelatinous seaweed that grows in shallow, cold water and undergoes heteromorphic
alternation of generations is most probably what type of alga?
A) red
B) green
C) brown
D) yellow
C
Topic: Concepts 28.2-28.6
: Application/Analysis
584 Chapter 28, Protists
You are given five test tubes, each containing an unknown protist, and your task is to read the
description below and match these five protists to the correct test tube.
In test tube 1, you observe an organism feeding. Your sketch of the organism looks very similar to Figure
28.1. When light, especially red and blue light, is shone on the tubes, oxygen bubbles accumulate on the
inside of test tubes 2 and 3. Chemical analysis of test tube 3 indicates the presence of substantial amounts
of silica. Chemical analysis of test tube 2 indicates the presence of a chemical that is toxic to fish and
humans. Microscopic analysis of organisms in tubes 2, 4, and 5 reveals the presence of permanent,
membrane-bounded sacs just under the plasma membrane. Microscopic analysis of organisms in tube 4
reveals the presence of an apicoplast in each. Microscopic analysis of the contents in tube 5 reveals the
presence of one large nucleus and several small nuclei in each organism.
Figure 28.1
54) Test tube 2 contains
A) Paramecium
B) Navicula (diatom)
C) Pfiesteria (dinoflagellate)
D) Entamoeba
E) Plasmodium
C
Topic: Concept 28.3
: Application/Analysis
55) Test tube 4 contains
A) Paramecium
B) Navicula (diatom)
C) Pfiesteria (dinoflagellate)
D) Entamoeba
E) Plasmodium
E
Topic: Concept 28.3
: Application/Analysis
56) Test tube 5 contains
A) Paramecium
B) Navicula (diatom)
C) Pfiesteria (dinoflagellate)
D) Entamoeba
E) Plasmodium
A
Topic: Concept 28.3
: Application/Analysis
Chapter 28, Protists 585
57) Test tube 3 contains
A) Paramecium
B) Navicula (diatom)
C) Pfiesteria (dinoflagellate)
D) Entamoeba
E) Plasmodium
B
Topic: Concept 28.3
: Application/Analysis
58) Test tube 1 contains
A) Paramecium
B) Navicula (diatom)
C) Pfiesteria (dinoflagellate)
D) Entamoeba
E) Plasmodium
D
Topic: Concept 28.6
: Application/Analysis
59) Which of these are actual mutualistic partnerships that involve a protist and a host
organism?
A) cellulose-digesting gut protists : wood-eating termites
B) dinoflagellates : reef-building coral animals
C) Trichomonas : humans
D) algae : certain foraminiferans
E) all except C
E
Topic: Concept 28.7
: Knowledge/Comprehension
60) Which of the following statements concerning living phytoplanktonic organisms are true?
1. They are important members of communities surrounding deep-sea hydrothermal vents.
2. They are important primary producers in most aquatic food webs.
3. They are important in maintaining oxygen in Earthʹs seas and atmosphere.
4. They are most often found growing in the sediments of seas and oceans.
5. They can be so concentrated that they affect the color of seawater.
A) 1 and 4
B) 1, 2, and 4
C) 2, 3, and 4
D) 2, 3, and 5
E) 3, 4, and 5
D
Topic: Concept 28.7
: Knowledge/Comprehension
586 Chapter 28, Protists
The following questions refer to the description below.
Healthy individuals of Paramecium bursaria contain photosynthetic algal endosymbionts of the genus
Chlorella. When within their hosts, the algae are referred to as zoochlorellae. In aquaria with light coming
from only one side, P. bursaria gathers at the well-lit side, whereas other species of Paramecium gather at
the opposite side. The zoochlorellae provide their hosts with glucose and oxygen, and P. bursaria
provides its zoochlorellae with protection and motility. P. bursaria can lose its zoochlorellae: (1) if kept in
darkness, the algae die, and (2) if prey items (mostly bacteria) are absent from its habitat, P. bursaria will
digest its zoochlorellae.
61) Which term most accurately describes the nutritional mode of healthy P. bursaria?
A) photoautotroph
B) photoheterotroph
C) chemoheterotroph
D) chemoautotroph
E) mixotroph
E
Topic: Concepts 28.1-28.7
: Application/Analysis
62) Which term accurately describes the behavior of Paramecium species that lack zoochlorellae
in an aquarium with light coming from one side only?
A) positive chemotaxis
B) negative chemotaxis
C) positive phototaxis
D) negative phototaxis
D
Topic: Concepts 28.1-28.7
: Application/Analysis
63) Which term best describes the symbiotic relationship of well-fed P. bursaria to their
zoochlorellae?
A) mutualistic
B) commensal
C) parasitic
D) predatory
E) pathogenic
A
Topic: Concepts 28.1-28.7
: Application/Analysis
64) If both host and alga can survive apart from each other, then which of these best accounts
for their ability to live together?
A) genome fusion
B) horizontal gene transfer
C) genetic recombination
D) conjugation
E) metabolic cooperation
E
Topic: Concepts 28.1-28.7
: Application/Analysis
Chapter 28, Protists 587
65) The motility that permits P. bursaria to move toward a light source is provided by
A) pseudopods.
B) a single flagellum composed of the protein, flagellin.
C) a single flagellum featuring the 9+2 pattern.
D) many cilia.
E) contractile vacuoles.
D
Topic: Concepts 28.1-28.7
: Application/Analysis
66) If the chloroplasts of the zoochlorellae are very similar to those found in the photosynthetic
cells of land plants, then Chlorella is probably what type of alga?
A) red
B) green
C) brown
D) golden
B
Topic: Concepts 28.1-28.7
: Application/Analysis
67) A P. bursaria cell that has lost its zoochlorellae is said to be ʺaposymbiotic.ʺ It might be able
to replenish its contingent of zoochlorellae by ingesting them without subsequently
digesting them. Which of these situations would be most favorable to the re -establishment
of resident zoochlorellae, assuming compatible Chlorella are present in P. bursariaʹs habitat?
A) abundant light, no bacterial prey
B) abundant light, abundant bacterial prey
C) no light, no bacterial prey
D) no light, abundant bacterial prey
B
Topic: Concepts 28.1-28.7
: Application/Analysis
68) A P. bursaria cell that has lost its zoochlorellae is ʺaposymbiotic.ʺ If aposymbiotic cells have
population growth rates the same as those of healthy, zoochlorella-containing P. bursaria in
well-lit environments with plenty of prey items, then such an observation would be
consistent with which type of relationship?
A) parasitic
B) commensalistic
C) toxic
D) predator-prey
E) mutualistic
B
Topic: Concepts 28.1-28.7
: Application/Analysis
588 Chapter 28, Protists
69) Theoretically, P.bursaria can obtain zoochlorella either vertically (via the asexual
reproduction of its mother cell) or horizontally (by ingesting free-living Chlorella from its
habitat). Consider a P. bursaria cell containing zoochlorellae, but whose habitat lacks
free-living Chlorella. If this cell subsequently undergoes many generations of asexual
reproduction, if all of its daughter cells contain roughly the same number of zoochlorellae
as it had originally contained, and if the zoochlorellae are all haploid and identical in
appearance, then what is true?
A) The zoochlorellae also reproduced asexually, at an increasing rate over time.
B) The zoochlorellae also reproduced asexually, at a decreasing rate over time.
C) The zoochlorellae also reproduced asexually, at a fairly constant rate over time.
D) The zoochlorellae reproduced sexually, undergoing heteromorphic alternation of
generations.
E) The zoochlorellae reproduced sexually, undergoing isomorphic alternation of
generations.
C
Topic: Concepts 28.1-28.7
: Synthesis/Evaluation
70) Can P. bursaria live in association with any and all strains/species of Chlorella? In an
experiment to help answer this question, Chlorella was collected, and cultured separately,
from three different sources: (1) P. bursaria cytoplasm, (2) free-living Chlorella, and (3) from
cytoplasm of other protist species. A population of P. bursaria was treated with the
herbicide, paraquat, which killed all of its zoochlorellae, but otherwise left P. bursaria
unharmed. The zoochlorella-free paramecia were then introduced to a 1:1:1 mixture of
Chlorella from the three cultures listed above, and subsequently reestablished a contingent
of zooclorellae. Two weeks later, zoochlorellae were collected from the P. bursaria cells and
tested to determine which Chlorella strain(s) had been maintained within P. bursaria.
The different strains of Chlorella are morphologically indistinguishable. Consequently,
which of these would be the best test to perform on Chlorella, both before and after
re-establishment of zoochlorellae, to determine which Chlorella strains had been
maintained within P. bursaria?
A) Determine the chemical composition of its cell wall.
B) Determine the absorption spectrum of its photosynthetic pigments.
C) Determine the sequence of a portion of its mitochondrial DNA.
D) Determine the sequence of an exon of a ribosomal RNA gene.
E) Determine the endosymbiontʹs diameter.
C
Topic: Concepts 28.1-28.7
: Synthesis/Evaluation
Chapter 28, Protists 589
The following data were collected two weeks following reintroduction of Chlorella. (NOTE: ȈNativeȈ refers to
Chlorella originally taken from P. bursaria cytoplasm.)
Figure 28.2: Abundance of zoochlorellae in P. bursaria
cytoplasm two weeks after reintroduction
71) Which conclusion is consistent with the data presented in Figure 28.2 above?
A) Co-adaptation between P. bursaria and the native strain of Chlorella has occurred.
B) All types of Chlorella tested are tolerated equally well by P. bursaria.
C) P. bursaria cannot reproduce in the absence of zoochlorellae as well as it can when
zoochlorellae are present.
D) Zoochlorellae derived from other protists are well adapted to survive within P.
bursaria, relative to the native strain.
A
Topic: Concepts 28.1-28.7
: Synthesis/Evaluation
72) The researchers decided to perform the same experiment over again, only this time,
withdrawing P. bursaria samples every other day for testing to get a better picture of the
fate of each Chlorella strain over time. Which graph below is most consistent with the results
depicted in Figure 28.2, assuming that P. bursaria ingests the various Chlorella strains
indiscriminately?
Key:
A)
590 Chapter 28, Protists
B)
C)
D)
A
Topic: Concepts 28.1-28.2
: Synthesis/Evaluation
73) Which of these precautions would have been most important to insuring the validity of the
results?
A) Chlorella in the three cultures were genetically identical.
B) Roughly equal numbers of each strain of Chlorella were present in the reintroduction
mixture.
C) The Chlorella cultures were free of bacteria.
D) The P. bursaria culture was free of bacteria.
E) The Chlorella DNA contained no introns.
B
Topic: Concepts 28.1-28.7
: Synthesis/Evaluation
Chapter 28, Protists 591
74) Is P. bursariaʹs ability to detect and move toward light an innate ability, or is it due to the
presence of zoochlorellae? Arrange the following steps in the proper sequence needed to
answer this question.
1. Introduce P. bursaria from both the experimental and control populations to an aquarium
that lacks free-living Chlorella, but that contains bacterial prey.
2. Remove equal amounts of water from the well-lit side of the aquarium and the poorly lit
side of the aquarium, census the number and kind of P. bursaria present in each sample.
3. Shine light on only one side of the aquarium containing aposymbiotic P. bursaria.
4. Expose one population of P. bursaria (the experimental population) to an herbicide to kill
its zoochlorellae.
5. Collect healthy P. bursaria from the well-lit side of an aquarium and divide it into two
equal populations: a control population and an experimental population.
A) 5 4 1 2 3
B) 5 4 1 3 2
C) 4 1 5 3 2
D) 2 5 4 1 3
E) 2 5 4 3 1
B
Topic: Concepts 28.1-28.7
: Synthesis/Evaluation
1) Plastids that are surrounded by more than two membranes are evidence of
A) evolution from mitochondria.
B) fusion of plastids.
C) origin of the plastids from archaea.
D) secondary endosymbiosis.
E) budding of the plastids from the nuclear envelope.
D
2) Biologists suspect that endosymbiosis gave rise to mitochondria before plastids partly
because
A) the products of photosynthesis could not be metabolized without mitochondrial
enzymes.
B) all eukaryotes have mitochondria (or their remnants), whereas many eukaryotes do
not have plastids.
C) mitochondrial DNA is less similar to prokaryotic DNA than is plastid DNA.
D) without mitochondrial CO2 production, photosynthesis could not occur.
E) mitochondrial proteins are synthesized on cytosolic ribosomes, whereas plastids
utilize their own ribosomes.
B
3) Which group is incorrectly paired with its description?
A) rhizarians-morphologically diverse group defined by DNA similarities
B) diatoms-important producers in aquatic communities
C) red algae-acquired plastids by secondary endosymbiosis
D) apicomplexans-parasites with intricate life cycles
E) diplomonads-protists with modified mitochondria
C
4) Based on the phylogenetic tree in Figure 28.3 in the text, which of the following statements
is correct?
A) The most recent common ancestor of Excavata is older than that of Chromalveolata.
B) The most recent common ancestor of Chromalveolata is older than that of Rhizaria.
C) The most recent common ancestor of red algae and land plants is older than that of
nucleariids and fungi.
D) The most basal (first to diverge) eukaryotic supergroup cannot be determined.
E) Excavata is the most basal eukaryotic supergroup.
C
5) Which protists are in the same eukaryotic ʺsupergroupʺ as land plants?
A) green algae
B) dinoflagellates
C) red algae
D) brown algae
E) A and C are both correct
E
6) In life cycles with an alternation of generations, multicellular haploid forms alternate with
A) unicellular haploid forms.
B) unicellular diploid forms.
C) multicellular haploid forms.
D) multicellular diploid forms.
E) multicellular polyploid forms.
D