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Deck 16: How Populations Evolve

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Question
In an equilibrium population

A) allele frequencies do not change.
B) natural selection occurs.
C) population size cannot change.
D) mutation rates do not change.
E) rates of gene flow are constant.
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Question
A population carries two alleles for a trait in which T is dominant and t is recessive. In the Hardy-Weinberg equation, p2 represents the

A) proportion of homozygous dominant individuals.
B) decrease in heterozygous individuals.
C) proportion of homozygous recessive individuals.
D) increase in homozygous individuals.
E) proportion of heterozygous individuals.
Question
A population carries two alleles for a trait in which T is dominant and t is recessive. In the Hardy-Weinberg equation, q2 represents the

A) proportion of homozygous dominant individuals.
B) decrease in heterozygous individuals.
C) proportion of homozygous recessive individuals.
D) increase in homozygous individuals.
E) proportion of heterozygous individuals.
Question
The interaction of genes and environment produces a specific

A) gene pool.
B) population.
C) allele.
D) phenotype.
E) genotype.
Question
In a very small population of birds, assume 5 out of 20 alleles are the type that codes for blue feathers. What is the allele frequency of the ʺblue feather alleleʺ in this population?

A) 0.25
B) 0.50
C) 0.20
D) 0.40
E) 5
Question
Imagine that one of the original four mice that escape from a research lab is blind due to a genetic defect. If the escaped mouse breeds and most of the mice born in subsequent generations are blind from birth, this is most likely a case of

A) the founder effect.
B) artificial selection.
C) selective mutation.
D) natural selection.
E) an equilibrium population.
Question
Within a large population, if no mutations occur, no migration occurs, all matings are random, and each individual has an equal chance of reproducing, which of the following will probably happen?

A) A change in allele frequency will lead to rapid evolution.
B) Extinction will result.
C) Natural selection will occur at the normal rate for that species.
D) A bottleneck will occur.
E) No evolution will occur.
Question
A population is defined as

A) all individuals of all species located throughout the world.
B) all individuals of the same species located in a given geographic region.
C) those individuals of the same species that have an identical genetic makeup.
D) all individuals of the same species located throughout the world.
E) all individuals of all species located in a given country.
Question
Populations of organisms are constantly evolving, which means that they are always

A) at equilibrium.
B) getting bigger.
C) changing.
D) becoming more like humans.
E) improving.
Question
A young male baboon leaves the troop that he was born in and joins a small neighboring troop of small baboons. He quickly rises to become a dominant male. From an evolutionary point of view, what important process has occurred?

A) Gene flow
B) Nonrandom mating
C) Natural selection
D) Genetic drift
E) The bottleneck effect
Question
A population carries two alleles for a trait in which T is dominant and t is recessive. In the Hardy-Weinberg equation, 2pq represents the

A) proportion of homozygous dominant individuals.
B) decrease in heterozygous individuals.
C) proportion of homozygous recessive individuals.
D) increase in homozygous individuals.
E) proportion of heterozygous individuals.
Question
Inbreeding is defined as

A) sexual reproduction among closely related individuals.
B) sexual reproduction in a large population.
C) reproduction among unrelated individuals.
D) sexual population among unrelated individuals.
E) reproduction within a geographically isolated population.
Question
Which of the following can evolve?

A) Individuals
B) Populations
C) Communities
D) Genes
Question
In the context of evolution, equilibrium means

A) no individuals move into or out of the population.
B) equal numbers of males and females.
C) equal numbers of all alleles.
D) no change in allele frequency.
E) no change in population size.
Question
Which of the following can cause evolutionary change in a small population?

A) Lack of gene flow
B) All recessive alleles
C) Lack of mutations
D) Genetic drift
E) Homozygous individuals
Question
Which of the following is most likely to experience genetic drift?

A) A plant species that has spread to many different habitats all around the world
B) A population of common rodents that includes millions of individuals
C) A population of endangered birds that includes only five individuals
D) A species of insect that occurs all across North America
E) A population of bears that is growing by thousands of individuals each year
Question
The allele frequency of a population is the

A) number of all alleles in that population.
B) sum of all genes in that population.
C) relative proportion of a given allele in that population.
D) number of different types of alleles in that population.
Question
Evolution can be defined as

A) an individual changing into another species.
B) a change in the phenotype of an individual over his or her lifetime.
C) one species diverging into two species.
D) a change in the genetic makeup of an organism over time.
E) a change in the genetic makeup of a population over time.
Question
According to the Hardy-Weinberg principle, if 75% of the alleles in the gene pool are A1 and 25% are A2, what is the proportion of individuals with genotype A1A2 in this population?

A) 0.375
B) 0.5625
C) 0.0625
D) 0.025
E) 0.1875
Question
The gene pool for a particular population is made up of

A) all the alleles for a certain trait in a given individual.
B) all the genes for a certain trait that occur in the population.
C) all the genes that occur in the population.
D) the sum of all the homozygous individuals in the population.
E) the sum of all the heterozygous individuals in the population.
Question
Mutations

A) limit the potential for evolution.
B) arise due to environmental pressures.
C) can be helpful, neutral, or harmful to individuals.
D) are caused by natural selection.
Question
Gene flow

A) prevents migration of individuals into other populations.
B) negates the influence of evolution on a population.
C) limits evolutionary fitness.
D) can spread certain alleles throughout a species.
E) isolates populations from one another.
Question
Genetic drift results in a change in allele frequencies because

A) the population has not yet stabilized.
B) gene flow within the population allows alleles to flow between populations.
C) the population size is so small that chance occurrences can alter allele frequencies.
D) the population is so large that natural selection has little noticeable effect.
Question
Imagine a population of monkeys in South America whose habitat has been reduced to the point where only 20 individuals survive. This is an example of

A) a population bottleneck.
B) the founder effect.
C) natural selection.
D) sexual selection.
E) genetic drift.
Question
Which of the following can be measured to estimate an organismʹs evolutionary fitness?

A) The number of eggs it produces over its lifetime
B) The number of gametes it produces over its lifetime
C) The number of offspring it produces over its lifetime
D) The number of offspring it produces over its lifetime that survive to breed
E) The size of its offspring
Question
Male fish that display a bright blue color attract more mates as well as more predators. Maintaining that blue gene in the population is an example of

A) coevolution.
B) sexual selection.
C) the founder effect.
D) genetic drift.
E) a population bottleneck.
Question
Zoos often loan animals to other zoos for breeding purposes. From an evolutionary standpoint, what is the benefit?

A) It creates a bottleneck effect.
B) New animals increase zoo revenues.
C) It increases the rate of random mutations.
D) It increases the genetic diversity of the zooʹs population.
E) It increases the effects of natural selection on the population.
Question
Which of the following mutations would increase evolutionary fitness?

A) One that increases the frequency of successful reproduction
B) One that increases the life span of the organism
C) One that removes other alleles from the population
D) One that attracts more potential mates without increasing the frequency of reproduction
E) One that increases the birth weight of offspring while decreasing the number of offspring
Question
In general, each species of fruit fly in the Hawaiian archipelago is restricted to a single island. One hypothesis to explain this pattern is that new species formed after a small number of flies colonized each new island. This mechanism of speciation is called

A) artificial selection.
B) genetic equilibrium.
C) sexual selection.
D) the founder effect.
E) assortative mating.
Question
Evolution by genetic drift is most obvious in

A) small populations.
B) invertebrate species.
C) large populations.
D) aquatic organisms.
E) migratory species.
Question
Habitat loss, natural catastrophes, and/or excessive harvesting of a species often result in

A) artificial selection.
B) population bottlenecks.
C) increased fitness of individuals.
D) increased gene flow.
E) increased mutation rates.
Question
Having greater evolutionary fitness means

A) being better able to survive.
B) being larger or faster.
C) being able to produce more sperm or eggs.
D) having more offspring.
E) being stronger.
Question
The extreme loss of genetic diversity that has occurred in cheetah populations due to overhunting is the result of

A) a population bottleneck.
B) natural selection.
C) the founder effect.
D) genetic drift.
E) coevolution.
Question
Mutations are important because they

A) provide variation that can result in evolutionary change.
B) usually provide an individual with increased reproductive rates.
C) are always beneficial to the individuals affected by them.
D) occur in response to environmental demands.
Question
The 30,000 elephant seals alive today are genetically very similar due to

A) artificial selection.
B) random mutation.
C) the bottleneck effect.
D) natural selection.
E) the founder effect.
Question
Which of the following is an example of assortative mating?

A) A female sparrow chooses a mate because he attracts her by singing a different speciesʹ song.
B) A dominant male elephant mates with most females in a group, excluding other males from mating with the females.
C) A female lizard chooses to mate with the first male she encounters.
D) A female sheep chooses a mate because he has previously mated with many females.
E) A female mouse chooses a mate because he is the same color that she is.
Question
The Pennsylvania Amish have a very high frequency of an unusual allele that results in short arms and legs and extra fingers. This high frequency is thought to be the result of

A) the founder effect.
B) the addition of new members to an already established population.
C) nonrandom mutations.
D) coevolution.
E) a population bottleneck.
Question
A bacterial allele that provides resistance to the antibiotic streptomycin is

A) always beneficial to the bacterial cell.
B) beneficial to the cell in the presence of streptomycin.
C) beneficial to the cell in the presence of any antibiotic.
D) always detrimental to the cell.
E) neither beneficial nor detrimental to the cell.
Question
Shrews have been documented to travel across frozen lakes and establish populations on previously uninhabited islands. The low level of genetic diversity in the new populations is the result of

A) a population bottleneck.
B) assortative mating.
C) genetic drift.
D) coevolution.
E) the founder effect.
Question
The process by which allele frequencies are altered in a small population due to chance is called

A) random evolution.
B) fitness.
C) random mutation.
D) genetic drift.
E) assortative evolution.
Question
The type of selection most likely to act on a well-adapted population in a relatively constant environment is

A) directional.
B) disruptive.
C) stabilizing.
D) nonrandom.
E) artificial.
Question
A flock of birds with various beak sizes migrates to a new island where their traditional food is not available. However, there are plants that produce a variety of large nuts, which can be eaten by birds with the largest beaks, and plants that produce a variety of small, soft seeds, which can be eaten by birds with the smallest beaks. Over time, this population divides into two species with large and small beaks. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
Question
Natural selection selects for or against certain

A) populations.
B) gene pools.
C) alleles.
D) phenotypes.
E) genotypes.
Question
A new predator is introduced to an area that can feed on any millipedes shorter than 200 millimeters. No millipedes that live in that area are longer than 15 millimeters. What will happen?

A) Disruptive selection will favor 15-millimeter-long millipedes.
B) Directional selection will favor predators that consume the smallest millipedes.
C) Millipedes will necessarily evolve to avoid the predator.
D) The millipedes will necessarily mutate to be longer.
E) All millipedes will be potential prey.
Question
The elaborate courtship displays common among animals are the result of

A) random mating.
B) sexual selection.
C) disruptive selection.
D) spontaneous mutations.
E) stabilizing selection.
Question
In a certain species of salmon, some adult males are extremely large whereas other adult males are very small, compared to the females. There are no intermediate-sized adult males in the population. This is probably the result of

A) disruptive selection.
B) artificial selection.
C) directional selection.
D) stabilizing selection.
Question
If the tallest and shortest individuals of a population of humans do not survive and reproduce as well as the individuals of ʺaverageʺ height, which type of selection would most likely result?

A) Directional selection
B) Artificial selection
C) Disruptive selection
D) Stabilizing selection
Question
When a species lives in a constant environment for a long time, the ʺaverage typeʺ of individual may have the best chance of surviving and producing the most offspring. What type of selection is occurring?

A) Sexual
B) Stabilizing
C) Artificial
D) Disruptive
E) Directional
Question
Which trait is the best example of an adaptation?

A) A mutation resulting in a heat-resistant enzyme in a bacterium living in a hot spring
B) A shorter neck in a giraffe that lives in an area with many rival males and tall trees
C) A longer tongue in an insect-eating mammal that feeds on insects that live in shallow burrows
D) A new mutation that confers Tay-Sachs disease in humans
E) A mutation resulting in weak branches in a species of tree that lives in windy regions
Question
Female finches, which do not sing, often choose to mate with males that sing a specific, elaborate song. This is an example of

A) inbreeding.
B) fitness.
C) sexual selection.
D) coevolution.
E) assortative mating.
Question
The male peacockʹs beautiful tail is really a trade-off between

A) sexual selection and natural selection.
B) disruptive selection and natural selection.
C) artificial selection and natural selection.
D) natural selection and genetic drift.
Question
In some butterfly populations, there are equal frequencies of alleles that code for black and yellow coloration. This is an example of

A) balanced polymorphism.
B) nonrandom mutations.
C) directional selection.
D) stabilizing selection.
E) sexual selection.
Question
Evolution by natural selection is

A) constantly occurring at the same rate in all organisms.
B) a rare event that has never been observed by scientists.
C) a process that has occurred only in the past.
D) currently occurring but only in scientific laboratories.
E) a process that occurs as a result of differences in fitness.
Question
In one butterfly species, the colors of individuals range from white to black, with many shades of gray in between. If the butterflies in a mountain population become more and more similar in color over several generations (e.g., if most butterflies are the same shade of gray), what kind of evolutionary force is likely acting on the population?

A) Artificial selection
B) Directional selection
C) Disruptive selection
D) Stabilizing selection
Question
The change in one population driven by a change in an associated population is called

A) fitness.
B) assortative evolution.
C) coevolution.
D) genetic drift.
E) random mutation.
Question
Members of one gender influence allele frequencies in a population by choosing mates according to some conspicuous feature in the other gender in the process called

A) genetic drift.
B) random evolution.
C) random mutation.
D) fitness.
E) sexual selection.
Question
A population of hummingbirds with a variety of beak sizes finds a new food source in a plant that has a long trumpet flower with nectar at the bottom of the trumpet. Over time, these hummingbirds develop longer beaks. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
Question
Suppose a new mutation that improves metabolic efficiency is lost from a small population of mammals living in a region of seasonal food scarcity after a hurricane eliminates half the mammal population. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
Question
If two or more phenotypes in a population are both favored by selection, what is happening?

A) Stabilizing selection
B) Sexual selection
C) Balanced polymorphism
D) Gene flow
E) Directional selection
Question
As predator and prey species acquire new adaptations to help them survive the constant ʺarms raceʺ between them, what evolutionary phenomenon is occurring?

A) Coevolution
B) Sexual selection
C) Artificial selection
D) Competition
E) Genetic drift
Question
Bright coloration in birds makes them stand out to predators. In female birds that sit on the nest, bright coloration is rare. This is likely the result of

A) artificial mutations.
B) gene flow.
C) natural selection.
D) coevolution.
E) stabilizing selection.
Question
Multidrug-resistant bacteria

A) have always been common in the natural environment.
B) have been eradicated worldwide.
C) are becoming less widespread.
D) are not serious threats to human health.
E) are becoming more widespread.
Question
The net migration of alleles into or out of a population from neighboring populations is called

A) gene flow.
B) genetic drift.
C) sexual selection.
D) stabilizing selection.
E) coevolution.
Question
The use of antibiotics caused the mutation that produced methicillin-resistant Staphylococcus aureus
(MRSA).
Question
In a population, the most common phenotype represents the dominant allele.
Question
When natural selection tends to split a population into two phenotypic groups, it is called

A) coevolution.
B) genetic drift.
C) stabilizing selection.
D) gene flow.
E) balanced polymorphism.
Question
The nonliving components of an environment, such as weather and water availability, are

A) biotic components.
B) abiotic components.
C) phenotypes.
D) genotypes.
E) alleles.
Question
Gene flow results when new individuals migrate into an area and join the breeding population there.
Question
The bright coloration of male birds is often the result of

A) gene flow.
B) genetic drift.
C) sexual selection.
D) stabilizing selection.
E) coevolution.
Question
Organisms that have the greatest reproductive success are considered the most evolutionarily fit.
Question
Imagine that a mutation for red eye color becomes very common in a population of flies because female flies in this population prefer to mate with red -eyed males. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
Question
Which of the following can affect a small, endangered population so severely that it goes extinct?

A) Artificially adding new genes
B) Matings with a closely related species
C) Sexual selection
D) Increased mating opportunities
E) Lost alleles and/or low genetic diversity
Question
Natural selection causes genetic changes in populations.
Question
When one species evolves a new phenotypic feature and another species evolves new adaptations in response, it is called

A) gene flow.
B) genetic drift.
C) sexual selection.
D) stabilizing selection.
E) coevolution.
Question
Genetic drift is more common in large populations than in small populations.
Question
When different species closely interact for an extended period of time and develop new adaptations in response to each other, it is called

A) gene flow.
B) genetic drift.
C) sexual selection.
D) stabilizing selection.
E) coevolution.
Question
In a single family, the parents have brown eyes but all five of their children have green eyes. This is an example of evolution.
Question
Which of the following occurs due to chance events that change the allele frequencies in small populations?

A) Gene flow
B) Genetic drift
C) Sexual selection
D) Stabilizing selection
E) Coevolution
Question
Suppose a population of mostly sand-colored crabs migrates from a sand beach to a pebble beach and evolves a darker, speckled coloration that closely resembles the pebble beach. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
Question
Which of the following phenomena favors individuals with average phenotypes over those with extreme phenotypes?

A) Gene flow
B) Genetic drift
C) Sexual selection
D) Stabilizing selection
E) Coevolution
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Deck 16: How Populations Evolve
1
In an equilibrium population

A) allele frequencies do not change.
B) natural selection occurs.
C) population size cannot change.
D) mutation rates do not change.
E) rates of gene flow are constant.
A
2
A population carries two alleles for a trait in which T is dominant and t is recessive. In the Hardy-Weinberg equation, p2 represents the

A) proportion of homozygous dominant individuals.
B) decrease in heterozygous individuals.
C) proportion of homozygous recessive individuals.
D) increase in homozygous individuals.
E) proportion of heterozygous individuals.
A
3
A population carries two alleles for a trait in which T is dominant and t is recessive. In the Hardy-Weinberg equation, q2 represents the

A) proportion of homozygous dominant individuals.
B) decrease in heterozygous individuals.
C) proportion of homozygous recessive individuals.
D) increase in homozygous individuals.
E) proportion of heterozygous individuals.
C
4
The interaction of genes and environment produces a specific

A) gene pool.
B) population.
C) allele.
D) phenotype.
E) genotype.
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5
In a very small population of birds, assume 5 out of 20 alleles are the type that codes for blue feathers. What is the allele frequency of the ʺblue feather alleleʺ in this population?

A) 0.25
B) 0.50
C) 0.20
D) 0.40
E) 5
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6
Imagine that one of the original four mice that escape from a research lab is blind due to a genetic defect. If the escaped mouse breeds and most of the mice born in subsequent generations are blind from birth, this is most likely a case of

A) the founder effect.
B) artificial selection.
C) selective mutation.
D) natural selection.
E) an equilibrium population.
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7
Within a large population, if no mutations occur, no migration occurs, all matings are random, and each individual has an equal chance of reproducing, which of the following will probably happen?

A) A change in allele frequency will lead to rapid evolution.
B) Extinction will result.
C) Natural selection will occur at the normal rate for that species.
D) A bottleneck will occur.
E) No evolution will occur.
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8
A population is defined as

A) all individuals of all species located throughout the world.
B) all individuals of the same species located in a given geographic region.
C) those individuals of the same species that have an identical genetic makeup.
D) all individuals of the same species located throughout the world.
E) all individuals of all species located in a given country.
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k this deck
9
Populations of organisms are constantly evolving, which means that they are always

A) at equilibrium.
B) getting bigger.
C) changing.
D) becoming more like humans.
E) improving.
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k this deck
10
A young male baboon leaves the troop that he was born in and joins a small neighboring troop of small baboons. He quickly rises to become a dominant male. From an evolutionary point of view, what important process has occurred?

A) Gene flow
B) Nonrandom mating
C) Natural selection
D) Genetic drift
E) The bottleneck effect
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k this deck
11
A population carries two alleles for a trait in which T is dominant and t is recessive. In the Hardy-Weinberg equation, 2pq represents the

A) proportion of homozygous dominant individuals.
B) decrease in heterozygous individuals.
C) proportion of homozygous recessive individuals.
D) increase in homozygous individuals.
E) proportion of heterozygous individuals.
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k this deck
12
Inbreeding is defined as

A) sexual reproduction among closely related individuals.
B) sexual reproduction in a large population.
C) reproduction among unrelated individuals.
D) sexual population among unrelated individuals.
E) reproduction within a geographically isolated population.
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13
Which of the following can evolve?

A) Individuals
B) Populations
C) Communities
D) Genes
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14
In the context of evolution, equilibrium means

A) no individuals move into or out of the population.
B) equal numbers of males and females.
C) equal numbers of all alleles.
D) no change in allele frequency.
E) no change in population size.
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15
Which of the following can cause evolutionary change in a small population?

A) Lack of gene flow
B) All recessive alleles
C) Lack of mutations
D) Genetic drift
E) Homozygous individuals
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16
Which of the following is most likely to experience genetic drift?

A) A plant species that has spread to many different habitats all around the world
B) A population of common rodents that includes millions of individuals
C) A population of endangered birds that includes only five individuals
D) A species of insect that occurs all across North America
E) A population of bears that is growing by thousands of individuals each year
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17
The allele frequency of a population is the

A) number of all alleles in that population.
B) sum of all genes in that population.
C) relative proportion of a given allele in that population.
D) number of different types of alleles in that population.
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k this deck
18
Evolution can be defined as

A) an individual changing into another species.
B) a change in the phenotype of an individual over his or her lifetime.
C) one species diverging into two species.
D) a change in the genetic makeup of an organism over time.
E) a change in the genetic makeup of a population over time.
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19
According to the Hardy-Weinberg principle, if 75% of the alleles in the gene pool are A1 and 25% are A2, what is the proportion of individuals with genotype A1A2 in this population?

A) 0.375
B) 0.5625
C) 0.0625
D) 0.025
E) 0.1875
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20
The gene pool for a particular population is made up of

A) all the alleles for a certain trait in a given individual.
B) all the genes for a certain trait that occur in the population.
C) all the genes that occur in the population.
D) the sum of all the homozygous individuals in the population.
E) the sum of all the heterozygous individuals in the population.
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21
Mutations

A) limit the potential for evolution.
B) arise due to environmental pressures.
C) can be helpful, neutral, or harmful to individuals.
D) are caused by natural selection.
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22
Gene flow

A) prevents migration of individuals into other populations.
B) negates the influence of evolution on a population.
C) limits evolutionary fitness.
D) can spread certain alleles throughout a species.
E) isolates populations from one another.
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23
Genetic drift results in a change in allele frequencies because

A) the population has not yet stabilized.
B) gene flow within the population allows alleles to flow between populations.
C) the population size is so small that chance occurrences can alter allele frequencies.
D) the population is so large that natural selection has little noticeable effect.
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24
Imagine a population of monkeys in South America whose habitat has been reduced to the point where only 20 individuals survive. This is an example of

A) a population bottleneck.
B) the founder effect.
C) natural selection.
D) sexual selection.
E) genetic drift.
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Unlock for access to all 109 flashcards in this deck.
Unlock Deck
k this deck
25
Which of the following can be measured to estimate an organismʹs evolutionary fitness?

A) The number of eggs it produces over its lifetime
B) The number of gametes it produces over its lifetime
C) The number of offspring it produces over its lifetime
D) The number of offspring it produces over its lifetime that survive to breed
E) The size of its offspring
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26
Male fish that display a bright blue color attract more mates as well as more predators. Maintaining that blue gene in the population is an example of

A) coevolution.
B) sexual selection.
C) the founder effect.
D) genetic drift.
E) a population bottleneck.
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27
Zoos often loan animals to other zoos for breeding purposes. From an evolutionary standpoint, what is the benefit?

A) It creates a bottleneck effect.
B) New animals increase zoo revenues.
C) It increases the rate of random mutations.
D) It increases the genetic diversity of the zooʹs population.
E) It increases the effects of natural selection on the population.
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28
Which of the following mutations would increase evolutionary fitness?

A) One that increases the frequency of successful reproduction
B) One that increases the life span of the organism
C) One that removes other alleles from the population
D) One that attracts more potential mates without increasing the frequency of reproduction
E) One that increases the birth weight of offspring while decreasing the number of offspring
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29
In general, each species of fruit fly in the Hawaiian archipelago is restricted to a single island. One hypothesis to explain this pattern is that new species formed after a small number of flies colonized each new island. This mechanism of speciation is called

A) artificial selection.
B) genetic equilibrium.
C) sexual selection.
D) the founder effect.
E) assortative mating.
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30
Evolution by genetic drift is most obvious in

A) small populations.
B) invertebrate species.
C) large populations.
D) aquatic organisms.
E) migratory species.
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31
Habitat loss, natural catastrophes, and/or excessive harvesting of a species often result in

A) artificial selection.
B) population bottlenecks.
C) increased fitness of individuals.
D) increased gene flow.
E) increased mutation rates.
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32
Having greater evolutionary fitness means

A) being better able to survive.
B) being larger or faster.
C) being able to produce more sperm or eggs.
D) having more offspring.
E) being stronger.
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33
The extreme loss of genetic diversity that has occurred in cheetah populations due to overhunting is the result of

A) a population bottleneck.
B) natural selection.
C) the founder effect.
D) genetic drift.
E) coevolution.
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34
Mutations are important because they

A) provide variation that can result in evolutionary change.
B) usually provide an individual with increased reproductive rates.
C) are always beneficial to the individuals affected by them.
D) occur in response to environmental demands.
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35
The 30,000 elephant seals alive today are genetically very similar due to

A) artificial selection.
B) random mutation.
C) the bottleneck effect.
D) natural selection.
E) the founder effect.
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36
Which of the following is an example of assortative mating?

A) A female sparrow chooses a mate because he attracts her by singing a different speciesʹ song.
B) A dominant male elephant mates with most females in a group, excluding other males from mating with the females.
C) A female lizard chooses to mate with the first male she encounters.
D) A female sheep chooses a mate because he has previously mated with many females.
E) A female mouse chooses a mate because he is the same color that she is.
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37
The Pennsylvania Amish have a very high frequency of an unusual allele that results in short arms and legs and extra fingers. This high frequency is thought to be the result of

A) the founder effect.
B) the addition of new members to an already established population.
C) nonrandom mutations.
D) coevolution.
E) a population bottleneck.
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38
A bacterial allele that provides resistance to the antibiotic streptomycin is

A) always beneficial to the bacterial cell.
B) beneficial to the cell in the presence of streptomycin.
C) beneficial to the cell in the presence of any antibiotic.
D) always detrimental to the cell.
E) neither beneficial nor detrimental to the cell.
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39
Shrews have been documented to travel across frozen lakes and establish populations on previously uninhabited islands. The low level of genetic diversity in the new populations is the result of

A) a population bottleneck.
B) assortative mating.
C) genetic drift.
D) coevolution.
E) the founder effect.
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40
The process by which allele frequencies are altered in a small population due to chance is called

A) random evolution.
B) fitness.
C) random mutation.
D) genetic drift.
E) assortative evolution.
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41
The type of selection most likely to act on a well-adapted population in a relatively constant environment is

A) directional.
B) disruptive.
C) stabilizing.
D) nonrandom.
E) artificial.
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42
A flock of birds with various beak sizes migrates to a new island where their traditional food is not available. However, there are plants that produce a variety of large nuts, which can be eaten by birds with the largest beaks, and plants that produce a variety of small, soft seeds, which can be eaten by birds with the smallest beaks. Over time, this population divides into two species with large and small beaks. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
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43
Natural selection selects for or against certain

A) populations.
B) gene pools.
C) alleles.
D) phenotypes.
E) genotypes.
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44
A new predator is introduced to an area that can feed on any millipedes shorter than 200 millimeters. No millipedes that live in that area are longer than 15 millimeters. What will happen?

A) Disruptive selection will favor 15-millimeter-long millipedes.
B) Directional selection will favor predators that consume the smallest millipedes.
C) Millipedes will necessarily evolve to avoid the predator.
D) The millipedes will necessarily mutate to be longer.
E) All millipedes will be potential prey.
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45
The elaborate courtship displays common among animals are the result of

A) random mating.
B) sexual selection.
C) disruptive selection.
D) spontaneous mutations.
E) stabilizing selection.
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46
In a certain species of salmon, some adult males are extremely large whereas other adult males are very small, compared to the females. There are no intermediate-sized adult males in the population. This is probably the result of

A) disruptive selection.
B) artificial selection.
C) directional selection.
D) stabilizing selection.
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47
If the tallest and shortest individuals of a population of humans do not survive and reproduce as well as the individuals of ʺaverageʺ height, which type of selection would most likely result?

A) Directional selection
B) Artificial selection
C) Disruptive selection
D) Stabilizing selection
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48
When a species lives in a constant environment for a long time, the ʺaverage typeʺ of individual may have the best chance of surviving and producing the most offspring. What type of selection is occurring?

A) Sexual
B) Stabilizing
C) Artificial
D) Disruptive
E) Directional
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49
Which trait is the best example of an adaptation?

A) A mutation resulting in a heat-resistant enzyme in a bacterium living in a hot spring
B) A shorter neck in a giraffe that lives in an area with many rival males and tall trees
C) A longer tongue in an insect-eating mammal that feeds on insects that live in shallow burrows
D) A new mutation that confers Tay-Sachs disease in humans
E) A mutation resulting in weak branches in a species of tree that lives in windy regions
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50
Female finches, which do not sing, often choose to mate with males that sing a specific, elaborate song. This is an example of

A) inbreeding.
B) fitness.
C) sexual selection.
D) coevolution.
E) assortative mating.
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51
The male peacockʹs beautiful tail is really a trade-off between

A) sexual selection and natural selection.
B) disruptive selection and natural selection.
C) artificial selection and natural selection.
D) natural selection and genetic drift.
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52
In some butterfly populations, there are equal frequencies of alleles that code for black and yellow coloration. This is an example of

A) balanced polymorphism.
B) nonrandom mutations.
C) directional selection.
D) stabilizing selection.
E) sexual selection.
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53
Evolution by natural selection is

A) constantly occurring at the same rate in all organisms.
B) a rare event that has never been observed by scientists.
C) a process that has occurred only in the past.
D) currently occurring but only in scientific laboratories.
E) a process that occurs as a result of differences in fitness.
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54
In one butterfly species, the colors of individuals range from white to black, with many shades of gray in between. If the butterflies in a mountain population become more and more similar in color over several generations (e.g., if most butterflies are the same shade of gray), what kind of evolutionary force is likely acting on the population?

A) Artificial selection
B) Directional selection
C) Disruptive selection
D) Stabilizing selection
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55
The change in one population driven by a change in an associated population is called

A) fitness.
B) assortative evolution.
C) coevolution.
D) genetic drift.
E) random mutation.
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56
Members of one gender influence allele frequencies in a population by choosing mates according to some conspicuous feature in the other gender in the process called

A) genetic drift.
B) random evolution.
C) random mutation.
D) fitness.
E) sexual selection.
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57
A population of hummingbirds with a variety of beak sizes finds a new food source in a plant that has a long trumpet flower with nectar at the bottom of the trumpet. Over time, these hummingbirds develop longer beaks. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
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58
Suppose a new mutation that improves metabolic efficiency is lost from a small population of mammals living in a region of seasonal food scarcity after a hurricane eliminates half the mammal population. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
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59
If two or more phenotypes in a population are both favored by selection, what is happening?

A) Stabilizing selection
B) Sexual selection
C) Balanced polymorphism
D) Gene flow
E) Directional selection
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60
As predator and prey species acquire new adaptations to help them survive the constant ʺarms raceʺ between them, what evolutionary phenomenon is occurring?

A) Coevolution
B) Sexual selection
C) Artificial selection
D) Competition
E) Genetic drift
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61
Bright coloration in birds makes them stand out to predators. In female birds that sit on the nest, bright coloration is rare. This is likely the result of

A) artificial mutations.
B) gene flow.
C) natural selection.
D) coevolution.
E) stabilizing selection.
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62
Multidrug-resistant bacteria

A) have always been common in the natural environment.
B) have been eradicated worldwide.
C) are becoming less widespread.
D) are not serious threats to human health.
E) are becoming more widespread.
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63
The net migration of alleles into or out of a population from neighboring populations is called

A) gene flow.
B) genetic drift.
C) sexual selection.
D) stabilizing selection.
E) coevolution.
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64
The use of antibiotics caused the mutation that produced methicillin-resistant Staphylococcus aureus
(MRSA).
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65
In a population, the most common phenotype represents the dominant allele.
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66
When natural selection tends to split a population into two phenotypic groups, it is called

A) coevolution.
B) genetic drift.
C) stabilizing selection.
D) gene flow.
E) balanced polymorphism.
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67
The nonliving components of an environment, such as weather and water availability, are

A) biotic components.
B) abiotic components.
C) phenotypes.
D) genotypes.
E) alleles.
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68
Gene flow results when new individuals migrate into an area and join the breeding population there.
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69
The bright coloration of male birds is often the result of

A) gene flow.
B) genetic drift.
C) sexual selection.
D) stabilizing selection.
E) coevolution.
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70
Organisms that have the greatest reproductive success are considered the most evolutionarily fit.
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71
Imagine that a mutation for red eye color becomes very common in a population of flies because female flies in this population prefer to mate with red -eyed males. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
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72
Which of the following can affect a small, endangered population so severely that it goes extinct?

A) Artificially adding new genes
B) Matings with a closely related species
C) Sexual selection
D) Increased mating opportunities
E) Lost alleles and/or low genetic diversity
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73
Natural selection causes genetic changes in populations.
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74
When one species evolves a new phenotypic feature and another species evolves new adaptations in response, it is called

A) gene flow.
B) genetic drift.
C) sexual selection.
D) stabilizing selection.
E) coevolution.
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75
Genetic drift is more common in large populations than in small populations.
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76
When different species closely interact for an extended period of time and develop new adaptations in response to each other, it is called

A) gene flow.
B) genetic drift.
C) sexual selection.
D) stabilizing selection.
E) coevolution.
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77
In a single family, the parents have brown eyes but all five of their children have green eyes. This is an example of evolution.
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78
Which of the following occurs due to chance events that change the allele frequencies in small populations?

A) Gene flow
B) Genetic drift
C) Sexual selection
D) Stabilizing selection
E) Coevolution
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79
Suppose a population of mostly sand-colored crabs migrates from a sand beach to a pebble beach and evolves a darker, speckled coloration that closely resembles the pebble beach. This is an example of

A) directional selection.
B) stabilizing selection.
C) disruptive selection.
D) sexual selection.
E) genetic drift.
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80
Which of the following phenomena favors individuals with average phenotypes over those with extreme phenotypes?

A) Gene flow
B) Genetic drift
C) Sexual selection
D) Stabilizing selection
E) Coevolution
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