Campbell Biology Chapter 26 (powell_h)
1) The legless condition that is observed in several groups of extant
reptiles is the result of
A) their common ancestor having been
legless.
B) a shared adaptation to an arboreal (living in trees)
lifestyle.
C) several instances of the legless condition arising
independently of each other.
D) individual lizards adapting to a
fossorial (living in burrows) lifestyle during their lifetimes.
Answer: C
2) The various taxonomic levels (namely, genera, classes, etc.) of
the hierarchical classification system differ from each other on the
basis of
A) how widely the organisms assigned to each are
distributed throughout the environment.
B) their inclusiveness.
C) the relative genome sizes of the organisms assigned to each.
D) morphological characters that are applicable to all organisms.
Answer: B
3) If organisms A, B, and C belong to the same class but to different
orders and if organisms D, E, and F belong to the same order but to
different families, which of the following pairs of organisms would be
expected to show the greatest degree of structural homology?
A)
A and B
B) A and C
C) B and D
D) C and F
E) D
and F
Answer: E
4) Linnaeus was a "fixist" who believed that species
remained fixed in the form in which they had been created. Linnaeus
would have been uncomfortable with
A) classifying organisms
using the morphospecies concept.
B) the scientific discipline
known as taxonomy.
C) phylogenies.
D) nested, ever-more
inclusive categories of organisms.
E) a hierarchical
classification scheme.
Answer: C
5) Which of the following is (are) problematic when the goal is to
construct phylogenies that accurately reflect evolutionary history?
A) polyphyletic taxa
B) paraphyletic taxa
C)
monophyletic taxa
D) Two of the responses are correct.
Answer: D
6) Which individual would make the worst systematist? One who is
uncomfortable with the
A) Linnaean system of classification.
B) notion of hypothetical phylogenies.
C) PhyloCode method
of classification.
D) notion of permanent polytomies.
Answer: B
7) The term homoplasy is most applicable to which of the following
features?
A) the legless condition found in various lineages of
extant lizards
B) the five-digit condition of human hands and
bat wings
C) the β hemoglobin genes of mice and of humans
D) the fur that covers Australian moles and North American moles
E) the bones of bat forelimbs and the bones of bird forelimbs
Answer: A
8) If, someday, an archaean cell is discovered whose rRNA sequence is
more similar to that of humans than the sequence of mouse rRNA is to
that of humans, the best explanation for this apparent discrepancy
would be
A) homology.
B) homoplasy.
C) common
ancestry.
D) retro-evolution by humans.
E) coevolution of
humans and that archaean.
Answer: B
9) The best classification system is that which most closely
A)
unites organisms that possess similar morphologies.
B) conforms
to traditional, Linnaean taxonomic practices.
C) reflects
evolutionary history.
D) reflects the basic separation of
prokaryotes from eukaryotes.
Answer: C
10) Which of the following pairs are the best examples of homologous
structures?
A) bones in the bat wing and bones in the human
forelimb
B) owl wing and hornet wing
C) bat wing and bird
wing
D) eyelessness in the Australian mole and eyelessness in
the North American mole
Answer: A
11) Some molecular data place the giant panda in the bear family
(Ursidae) but place the lesser panda in the raccoon family
(Procyonidae). Consequently, the morphological similarities of these
two species are probably due to
A) inheritance of acquired
characteristics.
B) sexual selection.
C) inheritance of
shared derived characters.
D) possession of analogous
structures.
E) possession of shared primitive characters.
Answer: D
12) The importance of computers and of computer software to modern
cladistics is most closely linked to advances in
A) light
microscopy.
B) radiometric dating.
C) fossil discovery
techniques.
D) Linnaean classification.
E) molecular genetics.
Answer: E
13) Which mutation should least require realignment of homologous
regions of a gene that is common to several related species?
A)
three-base insertion
B) one-base substitution
C) four-base
insertion
D) one-base deletion
E) three-base deletion
Answer: B
14) The common ancestors of birds and mammals were very early (stem)
reptiles, which almost certainly possessed three-chambered hearts (two
atria, one ventricle). Birds and mammals, however, are alike in having
four-chambered hearts (two atria, two ventricles). The four-chambered
hearts of birds and mammals are best described as
A) structural
homologies.
B) vestiges.
C) homoplasies.
D) the
result of shared ancestry.
E) molecular homologies.
Answer: C
15) Which of the following is true of all horizontally oriented
phylogenetic trees, where time advances to the right?
A) Each
branch point represents a point in absolute time.
B) Organisms
represented at the base of such trees are descendants of those
represented at higher levels.
C) The fewer branch points that
occur between two taxa, the more divergent their DNA sequences should
be.
D) The common ancestor represented by the rightmost branch
point existed more recently in time than the common ancestors
represented at branch points located to the left.
E) The more
branch points there are, the fewer taxa are likely to be represented.
Answer: D
16) When using a cladistic approach to systematics, which of the
following is considered most important for classification?
A)
shared primitive characters
B) analogous primitive characters
C) shared derived characters
D) the number of homoplasies
E) overall phenotypic similarity
Answer: C
17) Cladograms (a type of phylogenetic tree) constructed from
evidence from molecular systematics are based on similarities in
A) morphology.
B) the pattern of embryological
development.
C) biochemical pathways.
D) habitat and
lifestyle choices.
E) mutations to homologous genes.
Answer: E
18) There is some evidence that reptiles called cynodonts may have
had whisker-like hairs around their mouths. If true, then what can be
properly said of hair?
A) It is a shared derived character of
mammals, even if cynodonts continue to be classified as reptiles.
B) It is a shared derived character of the amniote clade, and
not of the mammal clade.
C) It is a shared ancestral character
of the amniote clade, but only if cynodonts are reclassified as
mammals.
D) It is a shared derived character of the mammals, but
only if cynodonts are reclassified as mammals.
Answer: D
19) A researcher wants to determine the genetic relatedness of
several breeds of dog (Canis lupus familiaris). The researcher should
compare homologous sequences of this type of
biochemical________which can be described as ________.
A) fatty acids; highly conserved
B) lipids; poorly
conserved
C) proteins; highly conserved
D) amino acids;
highly conserved
E) nucleic acids, poorly conserved
Answer: E
20) Concerning growth in genome size over evolutionary time, which of
these is least associated with the others?
A) orthologous genes
B) gene duplications
C) paralogous genes
D) gene families
Answer: A
21) Nucleic acid sequences that undergo few changes over the course
of evolutionary time are said to be conserved. Conserved sequences of
nucleic acids
A) are found in the most crucial portions of
proteins.
B) include all mitochondrial DNA.
C) are
abundant in ribosomes.
D) are proportionately more common in
eukaryotic introns than in eukaryotic exons.
E) comprise a
larger proportion of pre-mRNA (immature mRNA)
than of mature mRNA.
Answer: C
22) Species that are not closely related and that do not share many
anatomical similarities can still be placed together on the same
phylogenetic tree by comparing their
A) plasmids.
B)
mitochondrial genomes.
C) homologous genes that are poorly
conserved.
D) homologous genes that are highly conserved.
Answer: D
23) Which kind of DNA should provide the best molecular clock for
determining the evolutionary relatedness of several species whose
common ancestor became extinct billions of years ago?
A) that
coding for ribosomal RNA
B) intronic DNA belonging to a gene
whose product performs a crucial function
C) paralogous DNA that
has lost its function (i.e., no longer codes for functional gene
product)
D) mitochondrial DNA
E) exonic DNA that codes for
a noncrucial part of a polypeptide
Answer: A
24) A phylogenetic tree constructed using sequence differences in
mitochondrial DNA would be most valid for discerning the evolutionary
relatedness of
A) archaeans and bacteria.
B) fungi and
animals.
C) chimpanzees and humans.
D) sharks and
dolphins.
E) mosses and ferns.
Answer: C
25) The lakes of northern Minnesota are home to many similar species
of damselflies of the genus Enallagma that have apparently undergone
speciation from ancestral stock since the last glacial retreat about
10,000 years ago. Sequencing which of the following would probably be
most useful in sorting out evolutionary relationships among these
closely related species?
A) nuclear DNA
B) mitochondrial
DNA
C) small nuclear RNA
D) ribosomal RNA
E) amino
acids in proteins
Answer: B
26) Which statement represents the best explanation for the
observation that the nuclear DNA of wolves and domestic dogs has a
very high degree of sequence homology?
A) Dogs and wolves have
very similar morphologies.
B) Dogs and wolves belong to the same
order.
C) Dogs and wolves are both members of the order
Carnivora.
D) Dogs and wolves shared a common ancestor very recently.
Answer: D
27) The reason that paralogous genes can diverge from each other
within the same gene pool, whereas orthologous genes diverge only
after gene pools are isolated from each other, is that
A) having
multiple copies of genes is essential for the occurrence of sympatric
speciation in the wild.
B) paralogous genes can occur only in
diploid species; thus, they are absent from most prokaryotes.
C)
polyploidy is a necessary precondition for the occurrence of sympatric
speciation in the wild.
D) having an extra copy of a gene
permits modifications to the copy without loss of the original gene product.
Answer: D
28) Paralogous genes that have lost the function of coding for any
functional gene product are known as "pseudogenes." Which of
these is a valid prediction regarding the fate of pseudogenes over
evolutionary time?
A) They will be preserved by natural
selection.
B) They will be highly conserved.
C) They will
ultimately regain their original function.
D) They will be
transformed into orthologous genes.
E) They will have relatively
high mutation rates.
Answer: E
29) The most important feature that permits a gene to act as a
molecular clock is
A) having a large number of base pairs.
B) having a larger proportion of exonic DNA than of intronic
DNA.
C) having a reliable average rate of mutation.
D) its
recent origin by a gene-duplication event.
E) its being acted
upon by natural selection.
Answer: C
30) Neutral theory proposes that
A) molecular clocks are more
reliable when the surrounding pH is close to 7.0.
B) most
mutations of highly conserved DNA sequences should have no functional
effect.
C) DNA is less susceptible to mutation when it codes for
amino acid sequences whose side groups (or R groups) have a neutral
pH.
D) DNA is less susceptible to mutation when it codes for
amino acid sequences whose side groups (or R groups) have a neutral
electrical charge.
E) a significant proportion of mutations are
not acted upon by natural selection.
Answer: E
31) When it acts upon a gene, which of the following processes
consequently makes that gene an accurate molecular clock?
A)
transcription
B) directional natural selection
C) mutation
D) proofreading
E) reverse transcription
Answer: C
32) Which of these would, if it had acted upon a gene, prevent this
gene from acting as a reliable molecular clock?
A) neutral
mutations
B) genetic drift
C) mutations within introns
D) natural selection
E) most substitution mutations
involving an exonic codon's third position
Answer: D
33) What kind of evidence has recently made it necessary to assign
the prokaryotes to either of two different domains, rather than
assigning all prokaryotes to the same kingdom?
A) molecular
B) behavioral
C) nutritional
D) anatomical
E) ecological
Answer: A
34) What important criterion was used in the late 1960s to
distinguish between the three multicellular eukaryotic kingdoms of the
five-kingdom classification system?
A) the number of cells
present in individual organisms
B) the geological stratum in
which fossils first appear
C) the nutritional modes they employ
D) the biogeographic province where each first appears
E)
the features of their embryos
Answer: C
35) Members of which kingdom have cell walls and are all
heterotrophic?
A) Plantae
B) Fungi
C) Animalia
D) Protista
E) Monera
Answer: B
36) Which kingdom has been replaced with two domains?
A)
Plantae
B) Fungi
C) Animalia
D) Protista
E) Monera
Answer: E
37) Which eukaryotic kingdom is polyphyletic, and therefore
unacceptable, based on cladistics?
A) Plantae
B) Fungi
C) Animalia
D) Protista
E) Monera
Answer: D
38) Which eukaryotic kingdom includes members that are the result of
endosymbioses that included an ancient proteobacterium and an ancient
cyanobacterium?
A) Plantae
B) Fungi
C) Animalia
D) Protista
E) Monera
Answer: A
39) A large proportion of archaeans are extremophiles, so called
because they inhabit extreme environments with high acidity, salinity,
and/or temperature. Such environments are thought to have been much
more common on the primitive Earth. Thus, modern extremophiles survive
only in places that their ancestors became adapted to long ago. Which
of the following is, consequently, a valid statement about modern
extremophiles, assuming that their habitats have remained relatively
unchanged?
A) Among themselves, they should share relatively few
ancestral traits, especially those that enabled ancestral forms to
adapt to extreme conditions.
B) On a phylogenetic tree whose
branch lengths are proportional to the amount of genetic change, the
branches of the extremophiles should be shorter than the
non-extremophilic archaeans.
C) They should contain genes that
originated in eukaryotes that are the hosts for numerous species of
bacteria.
D) They should currently be undergoing a high level of
horizontal gene transfer with non-extremophilic archaeans.
Answer: B
40) Which extinct species should be the best candidate to serve as
the outgroup for the clade whose common ancestor occurs at position 2
in Figure 26.1?
A) A
B) B
C) C
D) D
E) E
Answer: A
41) If Figure 26.1 is an accurate depiction of relatedness, then
which of the following should be correct?
1. The entire
tree is based on maximum parsimony.
2. If all species depicted
here make up a taxon, this taxon is monophyletic.
3. The last
common ancestor of species B and C occurred more recently than the
last common ancestor of species D and E.
4. Species A is the
direct ancestor of both species B and species C.
5. The species
present at position 3 is ancestral to C, D, and E.
A) 1
and 3
B) 3 and 4
C) 2, 3, and 4
D) 1, 2, and 3
Answer: D
Traditionally, whales and hippopotamuses have been classified in
different orders, the Cetacea and the Artiodactyla, respectively.
Recent molecular evidence, however, indicates that the whales' closest
living relatives are the hippos. This has caused some zoologists to
lump the two orders together into a single clade, the Cetartiodactyla.
There is no consensus on whether the Cetartiodactyla should be
accorded order status or superorder status. This is because it remains
unclear whether the whale lineage diverged from the lineage leading to
the hippos before or after the other members of the order Artiodactyla
(pigs, camels, etc.) diverged (see Figure 26.2).
Figure
26.2 contrasts the "Within the artiodactyls" origin of the
whale lineage with the "Without the artiodactyls" origin of
the whale lineage
42) Placing whales and hippos in the
same clade means
A) that these organisms are phenotypically more
similar to each other than to any others shown on the trees in Figure
26.2.
B) that their morphological similarities are probably
homoplasies.
C) that they had a common ancestor.
D) that
all three of the responses are correct.
E) that two of the
responses are correct.
Answer: C
Traditionally, whales and hippopotamuses have been classified in
different orders, the Cetacea and the Artiodactyla, respectively.
Recent molecular evidence, however, indicates that the whales' closest
living relatives are the hippos. This has caused some zoologists to
lump the two orders together into a single clade, the Cetartiodactyla.
There is no consensus on whether the Cetartiodactyla should be
accorded order status or superorder status. This is because it remains
unclear whether the whale lineage diverged from the lineage leading to
the hippos before or after the other members of the order Artiodactyla
(pigs, camels, etc.) diverged (see Figure 26.2).
Figure
26.2 contrasts the "Within the artiodactyls" origin of the
whale lineage with the "Without the artiodactyls" origin of
the whale lineage
43) If it turns out that the whale
lineage diverged from the lineage leading to hippos after the
divergence of the lineage leading to the pigs and other artiodactyls,
and if the whales continue to be classified in the order Cetacea, then
what becomes true of the order Artiodactyla?
A) It becomes
monophyletic.
B) It becomes paraphyletic.
C) It becomes
polyphyletic.
D) It is incorporated into the order Cetacea.
Answer: B
Traditionally, whales and hippopotamuses have been classified in
different orders, the Cetacea and the Artiodactyla, respectively.
Recent molecular evidence, however, indicates that the whales' closest
living relatives are the hippos. This has caused some zoologists to
lump the two orders together into a single clade, the Cetartiodactyla.
There is no consensus on whether the Cetartiodactyla should be
accorded order status or superorder status. This is because it remains
unclear whether the whale lineage diverged from the lineage leading to
the hippos before or after the other members of the order Artiodactyla
(pigs, camels, etc.) diverged (see Figure 26.2).
Figure
26.2 contrasts the "Within the artiodactyls" origin of the
whale lineage with the "Without the artiodactyls" origin of
the whale lineage
44) If it turns out that the whale
lineage diverged from the lineage leading to hippos after the
divergence of the lineage leading to the pigs and other artiodactyls,
and if the whales continue to be classified in the order Cetacea, then
what becomes true of the taxon Cetartiodactyla?
A) It should be
considered as one monophyletic order.
B) It should be considered
a superorder that consists of two monophyletic orders.
C) It
should be established as a paraphyletic order.
D) It should be
thrown out or modified by taxonomists if classification is to reflect
evolutionary history.
Answer: A
Traditionally, whales and hippopotamuses have been classified in
different orders, the Cetacea and the Artiodactyla, respectively.
Recent molecular evidence, however, indicates that the whales' closest
living relatives are the hippos. This has caused some zoologists to
lump the two orders together into a single clade, the Cetartiodactyla.
There is no consensus on whether the Cetartiodactyla should be
accorded order status or superorder status. This is because it remains
unclear whether the whale lineage diverged from the lineage leading to
the hippos before or after the other members of the order Artiodactyla
(pigs, camels, etc.) diverged (see Figure 26.2).
Figure
26.2 contrasts the "Within the artiodactyls" origin of the
whale lineage with the "Without the artiodactyls" origin of
the whale lineage
45) One morphological feature of modern
cetaceans is a vestigial pelvic girdle. If it is determined that
cetacean lineage diverged from the artiodactyls' lineage after the
divergence of pigs and other artiodactyla, then what should be true of
the vestigial pelvic girdle of cetaceans?
A) It should be
considered a shared ancestral character of the cetartiodactyls.
B) It should be considered a shared derived character of the
cetartiodactyls.
C) It should be considered a shared ancestral
character of the cetaceans.
D) It should be considered a shared
derived character of the cetaceans.
Answer: D
Traditionally, whales and hippopotamuses have been classified in
different orders, the Cetacea and the Artiodactyla, respectively.
Recent molecular evidence, however, indicates that the whales' closest
living relatives are the hippos. This has caused some zoologists to
lump the two orders together into a single clade, the Cetartiodactyla.
There is no consensus on whether the Cetartiodactyla should be
accorded order status or superorder status. This is because it remains
unclear whether the whale lineage diverged from the lineage leading to
the hippos before or after the other members of the order Artiodactyla
(pigs, camels, etc.) diverged (see Figure 26.2).
Figure
26.2 contrasts the "Within the artiodactyls" origin of the
whale lineage with the "Without the artiodactyls" origin of
the whale lineage
46) If cetaceans are determined to have
diverged from the lineage leading to the artiodactyls before the
divergence of lineages leading to the modern artiodactyls (including
hippos), then the cetaceans can be considered
1. a sister
order to the order Artiodactyla.
2. an ingroup of the order
Artiodactyla.
3. the common ancestor of the order Artiodactyla.
A) 1 only
B) 3 only
C) 1 and 2
D) 1 and
3
E) 2 and 3
Answer: A
Traditionally, whales and hippopotamuses have been classified in
different orders, the Cetacea and the Artiodactyla, respectively.
Recent molecular evidence, however, indicates that the whales' closest
living relatives are the hippos. This has caused some zoologists to
lump the two orders together into a single clade, the Cetartiodactyla.
There is no consensus on whether the Cetartiodactyla should be
accorded order status or superorder status. This is because it remains
unclear whether the whale lineage diverged from the lineage leading to
the hippos before or after the other members of the order Artiodactyla
(pigs, camels, etc.) diverged (see Figure 26.2).
Figure
26.2 contrasts the "Within the artiodactyls" origin of the
whale lineage with the "Without the artiodactyls" origin of
the whale lineage
47) It was once thought that cetaceans
had evolved from an extinct group of mammals called the mesonychids.
If, in the future, it is determined that some organisms currently
classified as cetaceans did actually evolve from mesonychids, whereas
other cetaceans evolved from artiodactyl stock, then what will be true
of the order Cetacea?
A) It will be paraphyletic.
B) It
will be polyphyletic.
C) It will need to be thrown out or
modified if classification is to reflect evolutionary history.
D) Two of the responses are correct.
Answer: D
Traditionally, whales and hippopotamuses have been classified in
different orders, the Cetacea and the Artiodactyla, respectively.
Recent molecular evidence, however, indicates that the whales' closest
living relatives are the hippos. This has caused some zoologists to
lump the two orders together into a single clade, the Cetartiodactyla.
There is no consensus on whether the Cetartiodactyla should be
accorded order status or superorder status. This is because it remains
unclear whether the whale lineage diverged from the lineage leading to
the hippos before or after the other members of the order Artiodactyla
(pigs, camels, etc.) diverged (see Figure 26.2).
Figure
26.2 contrasts the "Within the artiodactyls" origin of the
whale lineage with the "Without the artiodactyls" origin of
the whale lineage
48) What can be properly inferred from
Figure 26.2?
A) In the "Without" tree, pigs are more
distantly related to hippos than is depicted in the "Within"
tree.
B) In the "Without" tree, pigs are more closely
related to hippos than are whales.
C) In the "Within"
tree, pigs are more closely related to whales than they are to hippos.
D) The "Without" tree is more consistent with
molecular evidence than is the "Within" tree.
E) In
the "Within" tree, all artiodactyls, including hippos, are
more closely related to each other than any are to the whales.
Answer: B
Figure 26.3. Morphologically, species A is very similar to four other
species, B—E. Yet the nucleotide sequence deep within an intron in a
gene shared by all five of these eukaryotic species is quite different
in species A compared to that of the other four species when we study
the nucleotides present at each position.
49) If the
sequence of species A in Figure 26.3 differs from that of the other
four species due to simple misalignment, then what should the computer
software find when it compares the sequence of species A to those of
the other four species?
A) The nucleotide at position 1 should
be different in species A, but the same in species BE.
B) The
nucleotide sequence of species A should have long sequences that are
nearly identical to those of the other species, but offset in terms of
position number.
C) The sequences of species BE, though
different from that of species A, should be identical to each other,
without exception.
D) If the software compares the amino acid
sequence of the actual protein product rather than the nucleotide
sequence, then the amino acid sequences of species BE should be
similar to each other, but very different from that of species A.
E) Computer software is useless in determining sequences of
introns; it can only be used with exons.
Answer: B
50) Which of the following items does not necessarily exist in a
simple linear relationship with the number of gene-duplication events
when placed as the label on the vertical axis of the following graph?
A) number of genes
B) number of DNA base pairs
C) genome size
D) mass (in picograms) of DNA
E)
phenotypic complexity
Answer: E
The following question refer to this phylogenetic tree, depicting the
origins of life and of the three domains. Horizontal lines indicate
instances of gene or genome transfer.
Figure 26.4. A
possible phylogenetic tree for the three domains of life.
51) If the early history of life on Earth is accurately depicted
by Figure 26.4, then which statement is least in agreement with the
hypothesis proposed by this tree?
A) The last universal common
ancestor of all extant species is better described as a community of
organisms, rather than an individual species.
B) The origin of
the three domains appears as a polytomy.
C) Archaean genomes
should contain genes that originated in bacteria, and vice versa.
D) Eukaryotes are more closely related to archaeans than to bacteria.
Answer: D
The following question refer to this phylogenetic tree, depicting the
origins of life and of the three domains. Horizontal lines indicate
instances of gene or genome transfer.
Figure 26.4. A
possible phylogenetic tree for the three domains of life.
52) Which of these processes can be included among those
responsible for the horizontal components of Figure 26.4?
A)
endosymbiosis
B) mitosis
C) binary fission
D) point
mutations
E) S phase of the cell cycle
Answer: A
The following question refer to this phylogenetic tree, depicting the
origins of life and of the three domains. Horizontal lines indicate
instances of gene or genome transfer.
Figure 26.4. A
possible phylogenetic tree for the three domains of life.
53) Which portion of Figure 26.4 may ultimately be better
depicted as a "ring"?
A) the bacterial lineage
B) the archaean lineage
C) the eukaryotic lineage
D)
the trunk of the tree
E) the part corresponding to the first
living cell on Earth
Answer: D
Figure 26.5. Humans, chimpanzees, gorillas, and orangutans are
members of a clade called the great apes, which shared a common
ancestor about 18 million years ago (Figure 26.4). Gibbons and
siamangs comprise a clade called the lesser apes. Tree-branch lengths
indicate elapsed time.
54) The great apes comprise the
family Hominidae, whereas the lesser apes comprise the family
Hylobatidae. If the extant organisms on the far right side of Figure
26.5 comprise the next-most exclusive (i.e., specific) taxon, then
they comprise different
A) subspecies.
B) species.
C) genuses.
D) genera.
E) orders.
Answer: D
Figure 26.5. Humans, chimpanzees, gorillas, and orangutans are
members of a clade called the great apes, which shared a common
ancestor about 18 million years ago (Figure 26.4). Gibbons and
siamangs comprise a clade called the lesser apes. Tree-branch lengths
indicate elapsed time.
55) Together, the lesser apes and
great apes shared a common ancestor most recently with other members
of their
A) order.
B) class.
C) subclass.
D)
subfamily.
E) family.
Answer: A
Figure 26.5. Humans, chimpanzees, gorillas, and orangutans are
members of a clade called the great apes, which shared a common
ancestor about 18 million years ago (Figure 26.4). Gibbons and
siamangs comprise a clade called the lesser apes. Tree-branch lengths
indicate elapsed time.
56) From Figure 26.5, to which of
the extant apes are orangutans most closely related?
A) gibbons
and siamangs
B) Dryopithecus and Ouranopithecus
C)
gorillas
D) chimps
E) chimps, gorillas, and humans
Answer: E
Figure 26.5. Humans, chimpanzees, gorillas, and orangutans are
members of a clade called the great apes, which shared a common
ancestor about 18 million years ago (Figure 26.4). Gibbons and
siamangs comprise a clade called the lesser apes. Tree-branch lengths
indicate elapsed time.
57) Assuming chimps and gorillas
are humans' closest relatives, removing humans from the great ape
clade and placing them in a different clade has the effect of making
the phylogenetic tree of the great apes
A) polyphyletic.
B) paraphyletic.
C) monophyletic.
D) conform with
Linnaeus' view of great ape phylogeny.
Answer: B
Figure 26.5. Humans, chimpanzees, gorillas, and orangutans are
members of a clade called the great apes, which shared a common
ancestor about 18 million years ago (Figure 26.4). Gibbons and
siamangs comprise a clade called the lesser apes. Tree-branch lengths
indicate elapsed time.
58) What is true of the phylogeny
in Figure 26.5?
1.It is rooted.
2. The gibbons and
siamangs represent an outgroup of the great apes.
3. Chimps and
humans are the closest extant sister taxa depicted here.
4. It
is absolute, meaning free of error.
5. The last common ancestor
of the great apes lived about 14 million years ago.
A) 1,
2, and 3
B) 1, 2, and 5
C) 1, 2, 3, and 4
D) 1, 2,
3, and 5
E) 2, 3, 4, and 5
Answer: D
Figure 26.5. Humans, chimpanzees, gorillas, and orangutans are
members of a clade called the great apes, which shared a common
ancestor about 18 million years ago (Figure 26.4). Gibbons and
siamangs comprise a clade called the lesser apes. Tree-branch lengths
indicate elapsed time.
59) From Figure 26.5, what is true
of Dryopithecus and Ouranopithecus?
1. They were great
apes.
2. They shared a common ancestor more recently with the
orangutans than with the other great apes.
3. They appear to be
part of a polytomy.
4. Their closest common ancestor with all of
the extant great apes is the one they share with the orangutans.
5. They were about as different from each other genetically as
humans are different from chimps.
A) 1, 2, and 4
B)
1, 3, and 4
C) 2, 4, and 5
D) 1, 2, 3, and 4
E) 2,
3, 4, and 5
Answer: B
Figure 26.5. Humans, chimpanzees, gorillas, and orangutans are
members of a clade called the great apes, which shared a common
ancestor about 18 million years ago (Figure 26.4). Gibbons and
siamangs comprise a clade called the lesser apes. Tree-branch lengths
indicate elapsed time.
60) From Figure 26.5, which other
event occurred closest in time to the divergence of gorillas from the
lineage that led to humans and chimps?
A) the divergence of
chimps and humans
B) the divergence of Dryopithecus and
Ouranopithecus
C) the divergence of gibbons and siamangs
D) could be either the divergence of chimps and humans OR of
Dryopithecus and Ouranopithecus
E) could be either the
divergence of chimps and humans OR of gibbons and siamangs
Answer: E
Figure 26.5. Humans, chimpanzees, gorillas, and orangutans are
members of a clade called the great apes, which shared a common
ancestor about 18 million years ago (Figure 26.4). Gibbons and
siamangs comprise a clade called the lesser apes. Tree-branch lengths
indicate elapsed time.
61) Which of these can be properly
inferred from the phylogeny in Figure 26.5?
A) Chimps and humans
evolved from gorillas.
B) The lesser apes are genetically more
distinct from each other than the members of the great apes are from
each other.
C) Orangutans have existed for about 14 million
years.
D) Chimps and humans should share more homoplasies than
should chimps and gorillas.
E) Together, the lesser apes and
great apes form a clade.
Answer: E
Traditionally, zoologists have placed birds in their own class, Aves.
More recently, molecular evidence has shown that birds are more
closely related to reptiles than their anatomy reveals. Genetically,
birds are more closely related to crocodiles than crocodiles are to
turtles. Thus, bird anatomy has become highly modified as they have
adapted to flight, without their genes having undergone nearly as much
change.
62) Taxonomically, what should be done with the birds?
A)
The traditional stance is correct. Such dramatic morphological change
as undergone by birds merits that the birds be placed in their own
order, separate from the reptiles.
B) The birds should be
reclassified, and their new taxon should be the subclass Aves. Genetic
similarity trumps morphological dissimilarity.
C) The rest of
the reptiles should be reclassified as a subclass within the class
Aves.
D) Science is consensual. Taxonomy is a science. Variant
classification schemes involving the birds should be tolerated until
consensus is reached.
Answer: D
Traditionally, zoologists have placed birds in their own class, Aves.
More recently, molecular evidence has shown that birds are more
closely related to reptiles than their anatomy reveals. Genetically,
birds are more closely related to crocodiles than crocodiles are to
turtles. Thus, bird anatomy has become highly modified as they have
adapted to flight, without their genes having undergone nearly as much
change.
63) Traditional zoologists have long agreed that birds evolved
from dinosaurs. What keeps such zoologists from agreeing that birds,
like dinosaurs, should be considered reptiles?
A) There is not
yet enough evidence to be sure.
B) Stubbornness, insofar as they
are unwilling to change their thinking when new data warrants it.
C) They deny the validity of genetic molecular data.
D)
They differ in what they consider to be important traits for assigning
organisms to the class Reptilia.
Answer: D
Traditionally, zoologists have placed birds in their own class, Aves.
More recently, molecular evidence has shown that birds are more
closely related to reptiles than their anatomy reveals. Genetically,
birds are more closely related to crocodiles than crocodiles are to
turtles. Thus, bird anatomy has become highly modified as they have
adapted to flight, without their genes having undergone nearly as much
change.
64) For a proponent of PhyloCode classification, what is true of
the reptile clade if birds are not included in it?
A) It becomes
paraphyletic and, thus, an invalid reflection of evolutionary history.
B) It becomes a subclass, instead of a class.
C) It
becomes a superclass, whereas the birds remain a class.
D)
PhyloCode does not concern itself with what is, or is not, a clade.
Answer: A
The next question refer to the following table, which compares the %
sequence homology of four different parts (two introns and two exons)
of a gene that is found in five different eukaryotic species. Each
part is numbered to indicate its distance from the promoter (e.g.,
Intron I is the one closest to the promoter). The data reported for
species A were obtained by comparing DNA from one member of species A
to another member of species A.
65) Based on the tabular data, and assuming that time advances
vertically, which cladogram (a type of phylogenetic tree) is the most
likely depiction of the evolutionary relationships among these five
species?
A. SEE IMAGE
B. SEE IMAGE
C. SEE IMAGE
D. SEE IMAGE
Answer: D
The next question refer to the following table, which compares the %
sequence homology of four different parts (two introns and two exons)
of a gene that is found in five different eukaryotic species. Each
part is numbered to indicate its distance from the promoter (e.g.,
Intron I is the one closest to the promoter). The data reported for
species A were obtained by comparing DNA from one member of species A
to another member of species A.
66) Which of the
following is the best explanation for the high degree of sequence
homology observed in Exon I among these five species?
A) It is
the most-upstream exon of this gene.
B) Due to alternative gene
splicing, this exon is often treated as an intron.
C) It codes
for a polypeptide domain that has a crucial function.
D) These
five species must actually constitute a single species.
E) This
exon is rich in G-C base pairs; thus, it is more stable.
Answer: C
The next question refer to the following table, which compares the %
sequence homology of four different parts (two introns and two exons)
of a gene that is found in five different eukaryotic species. Each
part is numbered to indicate its distance from the promoter (e.g.,
Intron I is the one closest to the promoter). The data reported for
species A were obtained by comparing DNA from one member of species A
to another member of species A.
67) Regarding these
sequence homology data, the principle of maximum parsimony would be
applicable in
A) distinguishing introns from exons.
B)
determining degree of sequence homology.
C) selecting
appropriate genes for comparison among species.
D) inferring
evolutionary relatedness from the number of sequence differences.
Answer: D
The next question refer to the following table, which compares the %
sequence homology of four different parts (two introns and two exons)
of a gene that is found in five different eukaryotic species. Each
part is numbered to indicate its distance from the promoter (e.g.,
Intron I is the one closest to the promoter). The data reported for
species A were obtained by comparing DNA from one member of species A
to another member of species A.
68) Which of these four
gene parts should allow the construction of the most accurate
phylogenetic tree, assuming that this is the only part of the gene
that has acted as a reliable molecular clock?
A) Intron I
B) Exon I
C) Intron VI
D) Exon V
Answer: C
69) Three living species X, Y, and Z share a common ancestor T, as do
extinct species U and V. A grouping that consists of species T, X, Y,
and Z (but not U or V) makes up
A) a valid taxon.
B) a
monophyletic clade.
C) an ingroup, with species U as the
outgroup.
D) a paraphyletic group.
E) a polyphyletic group.
Answer: D
70) In a comparison of birds and mammals, having four limbs is
A) a shared ancestral character.
B) a shared derived
character.
C) a character useful for distinguishing birds from
mammals.
D) an example of analogy rather than homology.
E)
a character useful for sorting bird species.
Answer: A
71) To apply parsimony to constructing a phylogenetic tree,
A)
choose the tree that assumes all evolutionary changes are equally
probable.
B) choose the tree in which the branch points are
based on as many shared derived characters as possible.
C) base
phylogenetic trees only on the fossil record, as this provides the
simplest explanation for evolution.
D) choose the tree that
represents the fewest evolutionary changes, either in DNA sequences or
morphology.
E) choose the tree with the fewest branch points.
Answer: D
72) Based on this tree, which statement is not correct?
A) The salamander lineage is a basal taxon.
B) Salamanders
are a sister group to the group containing lizards, goats, and humans.
C) Salamanders are as closely related to goats as to humans.
D) Lizards are more closely related to salamanders than to humans.
Answer: D
73) If you were using cladistics to build a phylogenetic tree of
cats, which of the following would be the best outgroup?
A) lion
B) domestic cat
C) wolf
D) leopard
E) tiger
Answer: C