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Deck 12: Processes of Evolution

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Question
Any change in allele frequencies in a gene pool is called ____.

A)natural selection
B)macroevolution
C)microevolution
D)mutation
E)artificial selection
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Question
_____ are hot spots for the evolution of antibiotic-resistant bacteria and their spread to humans due to excessive use of antibiotics.

A)Hospitals
B)Laboratories
C)Farms
D)Doctor's offices
E)Landfills
Question
Individuals, such as veterinarians, who work closely with farm animals treated with antibiotics tend to carry ____ as a result.

A)lethal bacteria
B)bacteria vulnerable to all antibiotics
C)bacteria vulnerable to some antibiotics
D)bacteria resistant to Flavomycin but not vancomycin
E)more antibiotic-resistant bacteria
Question
____ increases the frequency of adaptive mutations in a population over time.

A)Fitness
B)Natural selection
C)Artificial selection
D)Adaptive radiation
E)Macroevolution
Question
What is the best definition of a population?

A)a group of individuals of two different species that interact with each other
B)a group of interbreeding individuals from different geographical regions
C)a group of potentially interbreeding individuals of the same species regardless of where they live
D)a collection of different species living in the same area at the same time
E)a group of interbreeding individuals of the same species in a given area
Question
Which of the following is most likely the result of a neutral mutation?

A)fingerprint patterns
B)larger brains
C)standing upright
D)digestion of cellulose
E)fur
Question
Traits with more than two distinct forms are ____.

A)polymorphic
B)dimorphic
C)codominant
D)heterozygous
E)homozygous
Question
How are new combinations of alleles introduced into chromosomes?

A)independent assortment in meiosis I
B)crossing over in meiosis I
C)breeding between the dominant individuals in the population
D)breeding between the recessive individuals in the population
E)independent assortment at meiosis II
Question
Natural selection drives changes in allele frequencies by influencing traits with a ____ basis.

A)genetic
B)non-genetic
C)asexual
D)lethal
E)intermediate
Question
In 2000, 87% of the wild rat populations in Stadtlohn, Germany was resistant to the poison bromadiolone. This indicates that ____was/were commonly used as a rat poison(s)here, and the rat's resistance is an example of ____ selection.

A)warfarin; directional
B)bromadiolone; directional
C)both warfarin and bromadiolone; disruptive
D)neither warfarin nor bromadiolone; stabilizing
E)bromadiolone; disruptive
Question
All of the alleles in a population make up the ____.

A)species richness
B)species abundance
C)genome
D)gene pool
E)species diversity
Question
What is the original source of new alleles?

A)crossing over
B)independent assortment
C)fertilization
D)mutation
E)mitosis
Question
Mutations that result in the death of the individual are known as ____.

A)beneficial
B)lethal
C)random
D)spontaneous
E)neutral
Question
An allele's abundance within a population is referred to as ____ frequency.

A)allele
B)mutation
C)ratio
D)population
E)gene
Question
Fatter sociable weaver birds spend more time foraging where they are vulnerable to predation, are more attractive to predators, and are less likely to escape an attack. Conversely, thin birds risk starvation. Therefore, sociable weaver of an intermediate weight have a selective advantage. This is an example of ____ selection.

A)frequent
B)directional
C)disruptive
D)stabilizing
E)mutational
Question
With ____ selection, the frequency of a favored allele will increase as a phenotypic variation becomes more adaptive.

A)directional
B)stabilizing
C)disruptive
D)frequent
E)mutational
Question
In sexually reproducing species, genetic variations are not passed onto offspring via ____.

A)mutation
B)crossing over
C)independent assortment
D)fertilization
E)mitosis
Question
Environmental pressures result in a(n)____ of adaptive alleles.

A)decrease in the frequency
B)increase in the frequency
C)assortment
D)removal
E)migration
Question
A 2013 investigation found "worrisome" amounts of ____ in 97% of the chicken meat in stores across the United States.

A)bacteria
B)antibiotics
C)viruses
D)vancomycin
E)DNA
Question
A ____ mutation changes the DNA sequence but has no impact on the fitness of the individual.

A)beneficial
B)lethal
C)random
D)neutral
E)deleterious
Question
Many male birds will expend a great deal of energy building nests. Females will mate with the males who build the best nests. This is best described as an example of ____.

A)natural selection
B)sexual selection
C)runaway selection
D)an invasive species
E)disruptive selection
Question
The observation that female lions prefer male lions with darker manes is an example of ____.

A)directional selection
B)disruptive selection
C)dominance
D)a sexual handicap
E)sexual selection
Question
In a tropical forest some leaves are dark green and some are light green. In a population of caterpillars, homozygous dominant dark green caterpillars thrive eating the dark green foliage, while homozygous recessive light green caterpillars thrive eating light green foliage. However, heterozygous caterpillars of an intermediate color green are easily seen by birds and eaten, thus their numbers are far less than the dominants or recessives. This is an example of ____ selection.

A)directional
B)stabilizing
C)disruptive
D)frequent
E)mutational
Question
In a population of rabbits, those able to outrun predators will survive to reproduce, eventually leading to a population of faster rabbits. This is an example of ____ selection.

A)directional
B)stabilizing
C)disruptive
D)mutational
E)restricted
Question
A random change in allele frequency over time that is brought about by chance alone is known as ____.

A)genetic drift
B)gene flow
C)natural selection
D)disruptive selection
E)balanced polymorphism
Question
Heterozygotes for the sickle cell trait have an adaptive advantage in areas where malaria is prevalent. This is an example of ____.

A)a fixed allele
B)genetic drift
C)a balanced polymorphism
D)sexual selection
E)disruptive selection
Question
Exposure of wild rat populations to warfarin led to the evolution of warfarin-resistant rats. These rats had a mutated version of the VKORC1 gene, indicating that ____ had occurred in these resistant rat populations.

A)extinction
B)stabilizing selection
C)microevolution
D)macroevolution
E)artificial selection
Question
Peahens prefer to mate with peacocks that have the brightest and largest tail displays. The peacock's tail is a disadvantage to the males, because it is large and cumbersome and hinders them from escaping from predators. Given these facts, why isn't the peacock's tail selected against by natural selection?

A)peacocks lack the mutations to allow selection to work
B)only a few peacocks have large tail displays
C)in spite of the disadvantage, peacocks with larger tails leave more offspring
D)it is selected against, but because a peahen gives birth to so many males, the population is not greatly affected
E)peacocks do not reproduce sexually
Question
The increased variability in the frequency of the b+ allele in the smaller flour beetle population in the graph above is an example of ____.

A)genetic drift
B)gene flow
C)the founder effect
D)a fixed allele
E)a dimorphic trait
Question
____ selection occurs when individuals choose mates with a particular desirable trait.

A)Stabilizing
B)Sexual
C)Artificial
D)Asexual
E)Disruptive
Question
The graphs below show the frequency of the b+ allele over twenty generations in two populations of heterozygous flour beetles (data for a population of ten individuals is shown in graph A; data for a population of one hundred individuals is shown in graph B). Why does the frequency of the b + allele increase in both populations? <strong>The graphs below show the frequency of the b+ allele over twenty generations in two populations of heterozygous flour beetles (data for a population of ten individuals is shown in graph A; data for a population of one hundred individuals is shown in graph B). Why does the frequency of the b + allele increase in both populations? </strong> A)b+ is a lethal allele B)b+ is a balanced polymorphism C)b+ is a fixed allele D)the b+ allele is adaptive E)b+ is a neutral mutation <div style=padding-top: 35px>

A)b+ is a lethal allele
B)b+ is a balanced polymorphism
C)b+ is a fixed allele
D)the b+ allele is adaptive
E)b+ is a neutral mutation
Question
The Old Order Amish in Lancaster County is descended from one man and woman and has an unusually high frequency of a recessive allele that causes Ellis-van Creveld syndrome. This is an example of ____.

A)a bottleneck
B)mutation
C)a founder effect
D)gene flow
E)genetic drift
Question
A small Dutch population settled in South Africa in the 17th century and became known as Afrikaners. By chance, a few Dutch settlers carried the gene for Huntington's disease. Today, Huntington's disease occurs at a relatively high frequency in this population. This is an example of ____.

A)the bottleneck effect
B)the founder effect
C)gene flow
D)artificial selection
E)natural selection
Question
In the universal ABO blood grouping system, there are four phenotypes - A, B, AB, and O - which are determined by three different alleles. The presence of three alleles in the ABO blood grouping system is an example of ____.

A)a polymorphism
B)genetic drift
C)the bottleneck effect
D)a dimorphism
E)the founder effect
Question
Overhunting of species, such as tigers, reduces their numbers and their genetic diversity. This is an example of _____.

A)a bottleneck
B)a mutation
C)a founder effect
D)gene flow
E)genetic drift
Question
The movement of alleles among populations is called _____.

A)bottleneck
B)mutation
C)founder effect
D)gene flow
E)genetic drift
Question
Which population is more likely to be affected by genetic drift?

A)12 squirrels in a forest
B)49 herons in a colony
C)215 fleas on a dog
D)1350 mice in a house
E)3000 zebra in a herd
Question
What is one result of the bottleneck effect?

A)balanced alleles
B)heterozygosity
C)decreased genetic diversity
D)disruptive selection
E)random mating
Question
In Cameroon, seedcrackers have either small bills (adapted for feeding on soft sedge seeds)or large bills (adapted for feeding on hard sedge seeds). During competition for scarce resources, these birds primarily feed on the seeds for which they are best adapted. This is an example of ____ selection.

A)stabilizing
B)disruptive
C)frequent
D)directional
E)mutational
Question
Puppies born too large experience difficulties during birthing and tend to have respiratory and other problems. Puppies born too small often can't compete with their siblings for their mother's milk. Thus, puppies of intermediate size have a survival advantage. This is an example of ____ selection.

A)directional
B)stabilizing
C)disruptive
D)frequency
E)allelic
Question
Which is an example of macroevolution?

A)conserved ancestral features of the modern day coelacanth
B)the mass extinction of the dinosaurs 66 million years ago
C)the evolution of humans from primates
D)the adaptations of flowering plants driven by changes in pollinator behavior
E)the evolution of antibiotic-resistant bacteria
Question
A ____ is a structural modification that enables an individual to exploit their habitat more efficiently.

A)key innovation
B)mutation
C)morphological convergence
D)morphological divergence
E)homologous structure
Question
The migratory patterns of many animals encourage ____.

A)a bottleneck
B)mutation
C)a founder effect
D)gene flow
E)genetic drift
Question
In the 16th century, a Spanish ship explored a Pacific Island that had a small mountain range separating it. Mice that were on the ship escaped onto the island on both sides of the mountain range. After decades of separation the two populations developed different numbers of chromosomes, resulting in reproductive isolation that prevented any future interbreeding. This speciation event is an example of ____.

A)allopatric speciation
B)sympatric speciation
C)the founder effect
D)inbreeding
E)gene flow
Question
Overhunting of the northern elephant seals left only twenty individuals, from which the modern population arose. As a result, each animal is most likely ____ for most alleles.

A)recessive
B)dominant
C)homozygous
D)heterozygous
E)co-dominant
Question
Two species of toads have been successfully interbred in a laboratory but do not hybridize in nature because one species mates in summer and the other mates in the fall. This is an example of ____ isolation.

A)reproductive
B)ecological
C)inbred
D)physical
E)genetic
Question
The appearance of lungs was a(n)____ that drove the evolution of land vertebrates.

A)key innovation
B)fixed trait
C)inbred trait
D)clade
E)stabilizing allele
Question
The preference of female cichlid fish for brightly colored blue or red males in Lake Victoria provides an example of ____.

A)sympatric speciation
B)sexual selection
C)allopatric speciation
D)reproductive isolation
E)ecological speciation
Question
With the extinction of the dinosaurs 65 million years ago, multiple niches that the dinosaurs once filled opened up and allowed mammals the opportunity to evolve and exploit those niches. This is an example of ____.

A)sympatric speciation
B)adaptive radiation
C)phylogeny
D)reproductive isolation
E)phylogenetic isolation
Question
The emergence of hundreds of Hawaiian honeycreeper species from a single flock introduced to this island archipelago millions of years ago is an example of ____.

A)behavioral isolation
B)morphological convergence
C)cladistics
D)adaptive radiation
E)sympatric speciation
Question
When a physical barrier separates a population, leading to the evolution of new species on either side of the barrier, ____ has occurred.

A)sympatric speciation
B)allopatric speciation
C)directional selection
D)ecological isolation
E)behavioral isolation
Question
In Lake Victoria, hundreds of cichlid fish species arose after the lake last dried up 12,400 years ago. This is an example of ____.

A)sympatric speciation
B)the founder effect
C)gene flow
D)genetic drift
E)allopatric speciation
Question
The fastest lions are able to catch prey, such as zebras; similarly, the fastest zebras are able to escape predatory lions. Over time, the lion and zebra populations become composed of faster and faster individuals. This is an example of ____.

A)mutualism
B)competition
C)coevolution
D)disruptive selection
E)sexual selection
Question
A major change in evolutionary patterns over long periods of time is best described as ____.

A)macroevolution
B)microevolution
C)allopatric speciation
D)directional selection
E)sympatric speciation
Question
____ occurs when a change in chromosome number takes place in a single generation.

A)Sympatric speciation
B)Disruptive selection
C)Directional selection
D)Hybrid sterility
E)Allopatric speciation
Question
In the case of the cichlid fish in Lake Victoria, ____ was the driving force of speciation.

A)artificial selection
B)fixed alleles
C)inbreeding
D)sexual selection
E)genetic drift
Question
Natural selection in the cichlid fish species of Lake Victoria occurred via ____.

A)extinction
B)phylogeny
C)cladistics
D)macroevolution
E)microevolution
Question
Over evolutionary time, flowering plants have evolved colors, odors, and nectar that attract pollinating insects and the insects have evolved mechanisms that detect the changes in plants and to better collect pollen. This is an example of ____.

A)allopatric speciation
B)phylogenetic change
C)coevolution
D)a key innovation
E)sympatric speciation
Question
The process of speciation always includes ____ isolation.

A)behavioral
B)temporal
C)reproductive
D)ecological
E)geographic
Question
One hallmark of speciation is ____.

A)lack of change in reproductive behaviors
B)a decrease in balanced polymorphisms
C)an increase in fixed alleles
D)decreased genetic diversity of populations
E)end of gene flow between populations
Question
Match between columns
Premises:
Responses:
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
reproductive isolation
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
sexual selection
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
directional selection
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
disruptive selection
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
genetic drift
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
founder effect
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
gene flow
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
stabilizing selection
Question
____ is the study of a species' evolutionary history.

A)Natural selection
B)Taxonomy
C)Microevolution
D)Phylogeny
E)Convergent evolution
Question
Phylogeny is most analogous to a ____.

A)family genealogy
B)burst of new computer technology
C)telescopic view of the early universe
D)traffic light
E)roller coaster
Question
Alligators more closely resemble lizards than birds; however, alligators and birds have four-chambered hearts, which lizards do not have. In this example, the four-chambered heart is a ____, which indicates that alligators are ____ related to birds than to lizards.

A)derived character; more closely
B)key innovation; more closely
C)derived character; more distantly
D)key innovation; not
E)homologous structure; more distantly
Question
Match between columns
Premises:
Responses:
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
reproductive isolation
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
sexual selection
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
directional selection
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
disruptive selection
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
genetic drift
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
founder effect
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
gene flow
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
stabilizing selection
Question
Match between columns
Premises:
Responses:
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
reproductive isolation
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
sexual selection
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
directional selection
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
disruptive selection
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
genetic drift
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
founder effect
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
gene flow
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
stabilizing selection
Question
The branch points on a cladogram represent ____.

A)the species' extinction
B)derived characters
C)related clades
D)a common ancestor of two lineages
E)mass extinctions
Question
Match between columns
Premises:
Responses:
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
reproductive isolation
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
sexual selection
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
directional selection
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
disruptive selection
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
genetic drift
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
founder effect
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
gene flow
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
stabilizing selection
Question
Hawaiian honeycreepers exhibit diverse beaks that allow them to feed on insects, flowers, and seeds in their different habitats. This is an example of ____.

A)a derived trait
B)convergent evolution
C)morphological convergence
D)morphological divergence
E)a key innovation
Question
Match between columns
Premises:
Responses:
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
reproductive isolation
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
sexual selection
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
directional selection
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
disruptive selection
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
genetic drift
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
founder effect
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
gene flow
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
stabilizing selection
Question
Match between columns
Premises:
Responses:
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
reproductive isolation
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
sexual selection
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
directional selection
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
disruptive selection
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
genetic drift
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
founder effect
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
gene flow
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
stabilizing selection
Question
A female horse can mate with a male donkey but they will produce a mule that is sterile. This is an example of what type of isolation mechanism?

A)allopatric
B)physical
C)behavioral
D)reproductive
E)geological
Question
In the work that they do, scientists who study phylogeny are most like a ____.

A)police detective
B)medical doctor
C)carpenter
D)college professor
E)real estate agent
Question
A group of organisms sharing a derived trait is known as a ____.

A)clade
B)taxon
C)tribe
D)community
E)population
Question
Match between columns
Premises:
Responses:
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
reproductive isolation
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
sexual selection
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
directional selection
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
disruptive selection
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
genetic drift
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
founder effect
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
gene flow
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
stabilizing selection
Question
Match between columns
Premises:
Responses:
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
reproductive isolation
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
sexual selection
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
directional selection
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
disruptive selection
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
genetic drift
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
founder effect
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
gene flow
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
stabilizing selection
Question
Match between columns
Premises:
Responses:
A change in allele frequencies in a population that does not result from adaptation or natural selection.
reproductive isolation
A change in allele frequencies in a population that does not result from adaptation or natural selection.
sexual selection
A change in allele frequencies in a population that does not result from adaptation or natural selection.
directional selection
A change in allele frequencies in a population that does not result from adaptation or natural selection.
disruptive selection
A change in allele frequencies in a population that does not result from adaptation or natural selection.
genetic drift
A change in allele frequencies in a population that does not result from adaptation or natural selection.
founder effect
A change in allele frequencies in a population that does not result from adaptation or natural selection.
gene flow
A change in allele frequencies in a population that does not result from adaptation or natural selection.
stabilizing selection
Question
The use of phylogeny to determine evolutionary relationships has practical applications in ____.

A)preserving extinct species
B)tracking infectious disease
C)tracking migration patterns
D)raising livestock
E)managing invasive species
Question
Match between columns
Premises:
Responses:
The migration of bison from one herd to another results in this.
reproductive isolation
The migration of bison from one herd to another results in this.
sexual selection
The migration of bison from one herd to another results in this.
directional selection
The migration of bison from one herd to another results in this.
disruptive selection
The migration of bison from one herd to another results in this.
genetic drift
The migration of bison from one herd to another results in this.
founder effect
The migration of bison from one herd to another results in this.
gene flow
The migration of bison from one herd to another results in this.
stabilizing selection
Question
A cladogram can be viewed as "sets within sets" of derived traits. Which features distinguish the clade containing mice and humans from the other clades in this cladogram?
                                          <strong>A cladogram can be viewed as sets within sets of derived traits. Which features distinguish the clade containing mice and humans from the other clades in this cladogram?                                           </strong> A)multicellular with legs B)multicellular with hair C)multicellular with a backbone D)multicellular E)multicellular with a backbone, legs and hair <div style=padding-top: 35px>

A)multicellular with legs
B)multicellular with hair
C)multicellular with a backbone
D)multicellular
E)multicellular with a backbone, legs and hair
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Deck 12: Processes of Evolution
1
Any change in allele frequencies in a gene pool is called ____.

A)natural selection
B)macroevolution
C)microevolution
D)mutation
E)artificial selection
C
2
_____ are hot spots for the evolution of antibiotic-resistant bacteria and their spread to humans due to excessive use of antibiotics.

A)Hospitals
B)Laboratories
C)Farms
D)Doctor's offices
E)Landfills
C
3
Individuals, such as veterinarians, who work closely with farm animals treated with antibiotics tend to carry ____ as a result.

A)lethal bacteria
B)bacteria vulnerable to all antibiotics
C)bacteria vulnerable to some antibiotics
D)bacteria resistant to Flavomycin but not vancomycin
E)more antibiotic-resistant bacteria
E
4
____ increases the frequency of adaptive mutations in a population over time.

A)Fitness
B)Natural selection
C)Artificial selection
D)Adaptive radiation
E)Macroevolution
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5
What is the best definition of a population?

A)a group of individuals of two different species that interact with each other
B)a group of interbreeding individuals from different geographical regions
C)a group of potentially interbreeding individuals of the same species regardless of where they live
D)a collection of different species living in the same area at the same time
E)a group of interbreeding individuals of the same species in a given area
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6
Which of the following is most likely the result of a neutral mutation?

A)fingerprint patterns
B)larger brains
C)standing upright
D)digestion of cellulose
E)fur
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7
Traits with more than two distinct forms are ____.

A)polymorphic
B)dimorphic
C)codominant
D)heterozygous
E)homozygous
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8
How are new combinations of alleles introduced into chromosomes?

A)independent assortment in meiosis I
B)crossing over in meiosis I
C)breeding between the dominant individuals in the population
D)breeding between the recessive individuals in the population
E)independent assortment at meiosis II
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9
Natural selection drives changes in allele frequencies by influencing traits with a ____ basis.

A)genetic
B)non-genetic
C)asexual
D)lethal
E)intermediate
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10
In 2000, 87% of the wild rat populations in Stadtlohn, Germany was resistant to the poison bromadiolone. This indicates that ____was/were commonly used as a rat poison(s)here, and the rat's resistance is an example of ____ selection.

A)warfarin; directional
B)bromadiolone; directional
C)both warfarin and bromadiolone; disruptive
D)neither warfarin nor bromadiolone; stabilizing
E)bromadiolone; disruptive
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11
All of the alleles in a population make up the ____.

A)species richness
B)species abundance
C)genome
D)gene pool
E)species diversity
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12
What is the original source of new alleles?

A)crossing over
B)independent assortment
C)fertilization
D)mutation
E)mitosis
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13
Mutations that result in the death of the individual are known as ____.

A)beneficial
B)lethal
C)random
D)spontaneous
E)neutral
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14
An allele's abundance within a population is referred to as ____ frequency.

A)allele
B)mutation
C)ratio
D)population
E)gene
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15
Fatter sociable weaver birds spend more time foraging where they are vulnerable to predation, are more attractive to predators, and are less likely to escape an attack. Conversely, thin birds risk starvation. Therefore, sociable weaver of an intermediate weight have a selective advantage. This is an example of ____ selection.

A)frequent
B)directional
C)disruptive
D)stabilizing
E)mutational
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16
With ____ selection, the frequency of a favored allele will increase as a phenotypic variation becomes more adaptive.

A)directional
B)stabilizing
C)disruptive
D)frequent
E)mutational
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17
In sexually reproducing species, genetic variations are not passed onto offspring via ____.

A)mutation
B)crossing over
C)independent assortment
D)fertilization
E)mitosis
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18
Environmental pressures result in a(n)____ of adaptive alleles.

A)decrease in the frequency
B)increase in the frequency
C)assortment
D)removal
E)migration
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19
A 2013 investigation found "worrisome" amounts of ____ in 97% of the chicken meat in stores across the United States.

A)bacteria
B)antibiotics
C)viruses
D)vancomycin
E)DNA
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20
A ____ mutation changes the DNA sequence but has no impact on the fitness of the individual.

A)beneficial
B)lethal
C)random
D)neutral
E)deleterious
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21
Many male birds will expend a great deal of energy building nests. Females will mate with the males who build the best nests. This is best described as an example of ____.

A)natural selection
B)sexual selection
C)runaway selection
D)an invasive species
E)disruptive selection
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22
The observation that female lions prefer male lions with darker manes is an example of ____.

A)directional selection
B)disruptive selection
C)dominance
D)a sexual handicap
E)sexual selection
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23
In a tropical forest some leaves are dark green and some are light green. In a population of caterpillars, homozygous dominant dark green caterpillars thrive eating the dark green foliage, while homozygous recessive light green caterpillars thrive eating light green foliage. However, heterozygous caterpillars of an intermediate color green are easily seen by birds and eaten, thus their numbers are far less than the dominants or recessives. This is an example of ____ selection.

A)directional
B)stabilizing
C)disruptive
D)frequent
E)mutational
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24
In a population of rabbits, those able to outrun predators will survive to reproduce, eventually leading to a population of faster rabbits. This is an example of ____ selection.

A)directional
B)stabilizing
C)disruptive
D)mutational
E)restricted
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25
A random change in allele frequency over time that is brought about by chance alone is known as ____.

A)genetic drift
B)gene flow
C)natural selection
D)disruptive selection
E)balanced polymorphism
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26
Heterozygotes for the sickle cell trait have an adaptive advantage in areas where malaria is prevalent. This is an example of ____.

A)a fixed allele
B)genetic drift
C)a balanced polymorphism
D)sexual selection
E)disruptive selection
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27
Exposure of wild rat populations to warfarin led to the evolution of warfarin-resistant rats. These rats had a mutated version of the VKORC1 gene, indicating that ____ had occurred in these resistant rat populations.

A)extinction
B)stabilizing selection
C)microevolution
D)macroevolution
E)artificial selection
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28
Peahens prefer to mate with peacocks that have the brightest and largest tail displays. The peacock's tail is a disadvantage to the males, because it is large and cumbersome and hinders them from escaping from predators. Given these facts, why isn't the peacock's tail selected against by natural selection?

A)peacocks lack the mutations to allow selection to work
B)only a few peacocks have large tail displays
C)in spite of the disadvantage, peacocks with larger tails leave more offspring
D)it is selected against, but because a peahen gives birth to so many males, the population is not greatly affected
E)peacocks do not reproduce sexually
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29
The increased variability in the frequency of the b+ allele in the smaller flour beetle population in the graph above is an example of ____.

A)genetic drift
B)gene flow
C)the founder effect
D)a fixed allele
E)a dimorphic trait
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30
____ selection occurs when individuals choose mates with a particular desirable trait.

A)Stabilizing
B)Sexual
C)Artificial
D)Asexual
E)Disruptive
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31
The graphs below show the frequency of the b+ allele over twenty generations in two populations of heterozygous flour beetles (data for a population of ten individuals is shown in graph A; data for a population of one hundred individuals is shown in graph B). Why does the frequency of the b + allele increase in both populations? <strong>The graphs below show the frequency of the b+ allele over twenty generations in two populations of heterozygous flour beetles (data for a population of ten individuals is shown in graph A; data for a population of one hundred individuals is shown in graph B). Why does the frequency of the b + allele increase in both populations? </strong> A)b+ is a lethal allele B)b+ is a balanced polymorphism C)b+ is a fixed allele D)the b+ allele is adaptive E)b+ is a neutral mutation

A)b+ is a lethal allele
B)b+ is a balanced polymorphism
C)b+ is a fixed allele
D)the b+ allele is adaptive
E)b+ is a neutral mutation
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32
The Old Order Amish in Lancaster County is descended from one man and woman and has an unusually high frequency of a recessive allele that causes Ellis-van Creveld syndrome. This is an example of ____.

A)a bottleneck
B)mutation
C)a founder effect
D)gene flow
E)genetic drift
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33
A small Dutch population settled in South Africa in the 17th century and became known as Afrikaners. By chance, a few Dutch settlers carried the gene for Huntington's disease. Today, Huntington's disease occurs at a relatively high frequency in this population. This is an example of ____.

A)the bottleneck effect
B)the founder effect
C)gene flow
D)artificial selection
E)natural selection
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34
In the universal ABO blood grouping system, there are four phenotypes - A, B, AB, and O - which are determined by three different alleles. The presence of three alleles in the ABO blood grouping system is an example of ____.

A)a polymorphism
B)genetic drift
C)the bottleneck effect
D)a dimorphism
E)the founder effect
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35
Overhunting of species, such as tigers, reduces their numbers and their genetic diversity. This is an example of _____.

A)a bottleneck
B)a mutation
C)a founder effect
D)gene flow
E)genetic drift
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36
The movement of alleles among populations is called _____.

A)bottleneck
B)mutation
C)founder effect
D)gene flow
E)genetic drift
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37
Which population is more likely to be affected by genetic drift?

A)12 squirrels in a forest
B)49 herons in a colony
C)215 fleas on a dog
D)1350 mice in a house
E)3000 zebra in a herd
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38
What is one result of the bottleneck effect?

A)balanced alleles
B)heterozygosity
C)decreased genetic diversity
D)disruptive selection
E)random mating
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39
In Cameroon, seedcrackers have either small bills (adapted for feeding on soft sedge seeds)or large bills (adapted for feeding on hard sedge seeds). During competition for scarce resources, these birds primarily feed on the seeds for which they are best adapted. This is an example of ____ selection.

A)stabilizing
B)disruptive
C)frequent
D)directional
E)mutational
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40
Puppies born too large experience difficulties during birthing and tend to have respiratory and other problems. Puppies born too small often can't compete with their siblings for their mother's milk. Thus, puppies of intermediate size have a survival advantage. This is an example of ____ selection.

A)directional
B)stabilizing
C)disruptive
D)frequency
E)allelic
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41
Which is an example of macroevolution?

A)conserved ancestral features of the modern day coelacanth
B)the mass extinction of the dinosaurs 66 million years ago
C)the evolution of humans from primates
D)the adaptations of flowering plants driven by changes in pollinator behavior
E)the evolution of antibiotic-resistant bacteria
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42
A ____ is a structural modification that enables an individual to exploit their habitat more efficiently.

A)key innovation
B)mutation
C)morphological convergence
D)morphological divergence
E)homologous structure
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43
The migratory patterns of many animals encourage ____.

A)a bottleneck
B)mutation
C)a founder effect
D)gene flow
E)genetic drift
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44
In the 16th century, a Spanish ship explored a Pacific Island that had a small mountain range separating it. Mice that were on the ship escaped onto the island on both sides of the mountain range. After decades of separation the two populations developed different numbers of chromosomes, resulting in reproductive isolation that prevented any future interbreeding. This speciation event is an example of ____.

A)allopatric speciation
B)sympatric speciation
C)the founder effect
D)inbreeding
E)gene flow
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45
Overhunting of the northern elephant seals left only twenty individuals, from which the modern population arose. As a result, each animal is most likely ____ for most alleles.

A)recessive
B)dominant
C)homozygous
D)heterozygous
E)co-dominant
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46
Two species of toads have been successfully interbred in a laboratory but do not hybridize in nature because one species mates in summer and the other mates in the fall. This is an example of ____ isolation.

A)reproductive
B)ecological
C)inbred
D)physical
E)genetic
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47
The appearance of lungs was a(n)____ that drove the evolution of land vertebrates.

A)key innovation
B)fixed trait
C)inbred trait
D)clade
E)stabilizing allele
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48
The preference of female cichlid fish for brightly colored blue or red males in Lake Victoria provides an example of ____.

A)sympatric speciation
B)sexual selection
C)allopatric speciation
D)reproductive isolation
E)ecological speciation
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49
With the extinction of the dinosaurs 65 million years ago, multiple niches that the dinosaurs once filled opened up and allowed mammals the opportunity to evolve and exploit those niches. This is an example of ____.

A)sympatric speciation
B)adaptive radiation
C)phylogeny
D)reproductive isolation
E)phylogenetic isolation
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50
The emergence of hundreds of Hawaiian honeycreeper species from a single flock introduced to this island archipelago millions of years ago is an example of ____.

A)behavioral isolation
B)morphological convergence
C)cladistics
D)adaptive radiation
E)sympatric speciation
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51
When a physical barrier separates a population, leading to the evolution of new species on either side of the barrier, ____ has occurred.

A)sympatric speciation
B)allopatric speciation
C)directional selection
D)ecological isolation
E)behavioral isolation
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52
In Lake Victoria, hundreds of cichlid fish species arose after the lake last dried up 12,400 years ago. This is an example of ____.

A)sympatric speciation
B)the founder effect
C)gene flow
D)genetic drift
E)allopatric speciation
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53
The fastest lions are able to catch prey, such as zebras; similarly, the fastest zebras are able to escape predatory lions. Over time, the lion and zebra populations become composed of faster and faster individuals. This is an example of ____.

A)mutualism
B)competition
C)coevolution
D)disruptive selection
E)sexual selection
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54
A major change in evolutionary patterns over long periods of time is best described as ____.

A)macroevolution
B)microevolution
C)allopatric speciation
D)directional selection
E)sympatric speciation
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55
____ occurs when a change in chromosome number takes place in a single generation.

A)Sympatric speciation
B)Disruptive selection
C)Directional selection
D)Hybrid sterility
E)Allopatric speciation
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56
In the case of the cichlid fish in Lake Victoria, ____ was the driving force of speciation.

A)artificial selection
B)fixed alleles
C)inbreeding
D)sexual selection
E)genetic drift
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57
Natural selection in the cichlid fish species of Lake Victoria occurred via ____.

A)extinction
B)phylogeny
C)cladistics
D)macroevolution
E)microevolution
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58
Over evolutionary time, flowering plants have evolved colors, odors, and nectar that attract pollinating insects and the insects have evolved mechanisms that detect the changes in plants and to better collect pollen. This is an example of ____.

A)allopatric speciation
B)phylogenetic change
C)coevolution
D)a key innovation
E)sympatric speciation
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59
The process of speciation always includes ____ isolation.

A)behavioral
B)temporal
C)reproductive
D)ecological
E)geographic
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60
One hallmark of speciation is ____.

A)lack of change in reproductive behaviors
B)a decrease in balanced polymorphisms
C)an increase in fixed alleles
D)decreased genetic diversity of populations
E)end of gene flow between populations
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61
Match between columns
Premises:
Responses:
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
reproductive isolation
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
sexual selection
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
directional selection
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
disruptive selection
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
genetic drift
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
founder effect
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
gene flow
Prairie grouse females choose to mate with males that display the most intricate dance and make the loudest thumping noise with their chests.
stabilizing selection
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62
____ is the study of a species' evolutionary history.

A)Natural selection
B)Taxonomy
C)Microevolution
D)Phylogeny
E)Convergent evolution
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63
Phylogeny is most analogous to a ____.

A)family genealogy
B)burst of new computer technology
C)telescopic view of the early universe
D)traffic light
E)roller coaster
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64
Alligators more closely resemble lizards than birds; however, alligators and birds have four-chambered hearts, which lizards do not have. In this example, the four-chambered heart is a ____, which indicates that alligators are ____ related to birds than to lizards.

A)derived character; more closely
B)key innovation; more closely
C)derived character; more distantly
D)key innovation; not
E)homologous structure; more distantly
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65
Match between columns
Premises:
Responses:
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
reproductive isolation
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
sexual selection
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
directional selection
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
disruptive selection
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
genetic drift
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
founder effect
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
gene flow
Two species of hawk are able to mate successfully, but one hunts in the morning and the other hunts at night. Mating between the two species, therefore, does not occur.
stabilizing selection
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66
Match between columns
Premises:
Responses:
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
reproductive isolation
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
sexual selection
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
directional selection
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
disruptive selection
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
genetic drift
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
founder effect
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
gene flow
The genitals of snakes are analogous to a lock and key mechanism- the "keys' will only fit in certain "locks".
stabilizing selection
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67
The branch points on a cladogram represent ____.

A)the species' extinction
B)derived characters
C)related clades
D)a common ancestor of two lineages
E)mass extinctions
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68
Match between columns
Premises:
Responses:
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
reproductive isolation
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
sexual selection
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
directional selection
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
disruptive selection
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
genetic drift
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
founder effect
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
gene flow
The Industrial Revolution resulted in soot-covered trees, which allowed dark colored peppered moths to blend in and escape predators; the moth population eventually became comprised of mostly dark colored individuals.
stabilizing selection
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69
Hawaiian honeycreepers exhibit diverse beaks that allow them to feed on insects, flowers, and seeds in their different habitats. This is an example of ____.

A)a derived trait
B)convergent evolution
C)morphological convergence
D)morphological divergence
E)a key innovation
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70
Match between columns
Premises:
Responses:
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
reproductive isolation
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
sexual selection
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
directional selection
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
disruptive selection
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
genetic drift
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
founder effect
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
gene flow
Homozygous dominant black mice are camouflaged by dark rocks and homozygous recessive light-colored mice are camouflaged by light colored rocks. Heterozygous grey mice have no camouflage and are easily picked off and eaten by hawks.
stabilizing selection
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71
Match between columns
Premises:
Responses:
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
reproductive isolation
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
sexual selection
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
directional selection
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
disruptive selection
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
genetic drift
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
founder effect
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
gene flow
Animals that have too few offspring risk that all of them will be lost to predators, and therefore, their genes will not be passed onto the next generation. Animals with too many offspring may not be able to take care of all of them. Therefore, most animals have an intermediate number of offspring.
stabilizing selection
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72
A female horse can mate with a male donkey but they will produce a mule that is sterile. This is an example of what type of isolation mechanism?

A)allopatric
B)physical
C)behavioral
D)reproductive
E)geological
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73
In the work that they do, scientists who study phylogeny are most like a ____.

A)police detective
B)medical doctor
C)carpenter
D)college professor
E)real estate agent
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74
A group of organisms sharing a derived trait is known as a ____.

A)clade
B)taxon
C)tribe
D)community
E)population
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75
Match between columns
Premises:
Responses:
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
reproductive isolation
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
sexual selection
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
directional selection
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
disruptive selection
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
genetic drift
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
founder effect
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
gene flow
Large antlers are energetically costly and may get stuck on branches, but females prefer to mate with bucks with the largest antlers.
stabilizing selection
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76
Match between columns
Premises:
Responses:
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
reproductive isolation
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
sexual selection
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
directional selection
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
disruptive selection
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
genetic drift
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
founder effect
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
gene flow
A small population of humans colonize a deserted island and most of them have attached earlobes. One hundred years later, the colony consists of 550 people, all of whom have attached earlobes.
stabilizing selection
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77
Match between columns
Premises:
Responses:
A change in allele frequencies in a population that does not result from adaptation or natural selection.
reproductive isolation
A change in allele frequencies in a population that does not result from adaptation or natural selection.
sexual selection
A change in allele frequencies in a population that does not result from adaptation or natural selection.
directional selection
A change in allele frequencies in a population that does not result from adaptation or natural selection.
disruptive selection
A change in allele frequencies in a population that does not result from adaptation or natural selection.
genetic drift
A change in allele frequencies in a population that does not result from adaptation or natural selection.
founder effect
A change in allele frequencies in a population that does not result from adaptation or natural selection.
gene flow
A change in allele frequencies in a population that does not result from adaptation or natural selection.
stabilizing selection
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78
The use of phylogeny to determine evolutionary relationships has practical applications in ____.

A)preserving extinct species
B)tracking infectious disease
C)tracking migration patterns
D)raising livestock
E)managing invasive species
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79
Match between columns
Premises:
Responses:
The migration of bison from one herd to another results in this.
reproductive isolation
The migration of bison from one herd to another results in this.
sexual selection
The migration of bison from one herd to another results in this.
directional selection
The migration of bison from one herd to another results in this.
disruptive selection
The migration of bison from one herd to another results in this.
genetic drift
The migration of bison from one herd to another results in this.
founder effect
The migration of bison from one herd to another results in this.
gene flow
The migration of bison from one herd to another results in this.
stabilizing selection
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80
A cladogram can be viewed as "sets within sets" of derived traits. Which features distinguish the clade containing mice and humans from the other clades in this cladogram?
                                          <strong>A cladogram can be viewed as sets within sets of derived traits. Which features distinguish the clade containing mice and humans from the other clades in this cladogram?                                           </strong> A)multicellular with legs B)multicellular with hair C)multicellular with a backbone D)multicellular E)multicellular with a backbone, legs and hair

A)multicellular with legs
B)multicellular with hair
C)multicellular with a backbone
D)multicellular
E)multicellular with a backbone, legs and hair
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Unlock Deck
Unlock for access to all 99 flashcards in this deck.
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