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Deck 18: Microevolution: Changes Within Populations

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Question
What is the natural selection that shifts the adaptation of an entire population called?

A)stabilizing selection
B)directional selection
C)disruptive selection
D)artificial selection
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Question
The development of penicillin-resistant bacteria in the twentieth century represents an example of which of the following?

A)punctuated equilibrium
B)speciation
C)microevolution
D)mutation
Question
Which of the following defines characters between individuals that exist in two or more discrete states?

A)quantitative variation
B)qualitative variation
C)genetic variation
D)punctuated equilibrium
Question
Which of the following best describes the condition in which evolution could have taken place?

A)when a population experiences a shift in allele frequencies
B)when a mutation occurs in a population
C)when a feature of an individual animal changes through use or disuse
D)when a population has different forms of the same gene
Question
What is the evolution of the humpback whale an example of?

A)homology
B)microevolutionc macroevolution
C)analogy
Question
Which of the following best explains variation that approximates a bell-shaped curve when plotted on a bar graph?

A)The variation is undergoing disruptive selection.
B)The variation is undergoing stabilizing selection.
C)The variation is quantitative.
D)The variation is qualitative.
Question
Which of the following is a correct expression of the Hardy-Weinberg equation?

A)p2 + 2pq + q2 = 0
B)p2 + pq − q2 = 1
C)p2 + 2pq + q2 = 1
D)p + q = 0
Question
All of the population attributes listed below can be calculated with the Hardy-Weinberg equation EXCEPT which?

A)the frequency of heterozygotes
B)the frequency of a dominant allele
C)the frequency of a recessive allele
D)the frequency of mutation
Question
Which of the following best describes microevolution?

A)the formation of a new species
B)the occurrence of a new mutation
C)a change in allele frequencies within a population
D)the gradual change in the form of fossils over geological time
Question
Which of the following is describing the situation when microevolution takes place?

A)when a population experiences a shift in allele frequencies
B)when a mutation occurs in a population
C)when several mutations occur in a population
D)when a population has different forms of the same gene
Question
For which of the following is the Hardy-Weinberg formula valuable?

A)calculating changes in population size
B)calculating changes in speciation
C)calculating changes in allele frequencies
D)calculating changes in mutation
Question
Which of the following does directional selection favour?

A)intermediate phenotypes
B)phenotypes at one end of the distribution
C)phenotypic extremes at both ends
D)heterozygotes
Question
Which of the following processes listed below will NOT disrupt Hardy-Weinberg equilibrium?

A)nonrandom mating
B)natural selection
C)migration
D)punctuated equilibrium
Question
In which of the following sexually reproducing populations does the Hardy-Weinberg principle of genetic equilibrium tell us what to expect?

A)in a population that is decreasing with each generation
B)in a population that is increasing with each generation
C)in a population that is evolving
D)in a population that is not evolving
Question
Which of the following is NOT a condition for the genetic equilibrium?

A)The population is not migratory to other populations.
B)The population is closed to migration from other populations.
C)The population is infinite in size.
D)The population is small in size.
Question
In an isolated population of fruit flies, 4% of the individuals have pink eyes, a homozygous recessive condition, and 96% have the dominant black eye phenotype. What percentage of the population are heterozygotes?

A)4%
B)16%
C)32%
D)48%
Question
Which of the following is the most accurate definition of microevolution?

A)a heritable change in the genetics of a population over time
B)natural selection leading to adaptation over time
C)the occurrence of a series of mutations over time
D)the origin of major new forms of life over time
Question
What is the one measurement we have to make if we want to know the percentage of particular genotypes within an actual population, assuming complete dominance and two alleles?

A)the frequency of heterozygous phenotypes
B)the frequency of heterozygous genotypes
C)the frequency of dominant phenotypes
D)the frequency of recessive phenotypes
Question
Which of the following will disrupt Hardy-Weinberg equilibrium the least?

A)directional selection
B)stabilizing selection
C)migration
D)reduction to a small population size
Question
What would changing environmental conditions most likely cause in an existing species?

A)disruptive selection
B)mutation
C)directional selection
D)stabilizing selection
Question
Which process below is NOT an agent of microevolutionary change?

A)mutation
B)genetic drift
C)natural selection
D)random mating
Question
What is the production of random evolutionary changes in small breeding populations known as?

A)gene flow
B)genetic drift
C)disruptive selection
D)mutation
Question
What does "2pq" represents in the Hardy-Weinberg equation?

A)It represents the homozygous recessive genotypes.
B)It represents the heterozygous genotypes.
C)It represents the homozygous dominant genotypes.
D)It represents the heterozygous phenotypes.
Question
In a colony of 100 guinea pigs, 16 show the recessive trait of bristly hair. What is the frequency of the recessive allele in the population?

A)0.400
B)0.160
C)0.040
D)0.016
Question
Because of fluctuations in the environment, such as depletion of food supply or an outbreak of disease, a population may periodically experience a rapid and marked decrease in the number of individuals, leading to a form of genetic drift. What is this form of genetic drift called?

A)a founder effect
B)migration
C)gene flow
D)a genetic bottleneck
Question
Which of the following is the source of new alleles in a population?

A)natural selection
B)mutation
C)microevolution
D)genetic drift
Question
Which of the following is NOT an agent of microevolutionary change?

A)mutation
B)gene flow
C)random mating
D)genetic drift
Question
In a colony of 100 guinea pigs, 16 show the recessive trait of bristly hair. What is the percentage of heterozygotes in the population?

A)24%
B)36%
C)48%
D)52%
Question
According to the modern synthetic theory of evolution, what does the accumulation of mutations over time result in?

A)microevolution
B)adaptation
C)an increase in genetic variation
D)speciation
Question
Which process below is NOT a component of natural selection?

A)genetic drift
B)overproduction of offspring
C)limitations in vital resources
D)genetic variation
Question
What does a sudden reduction in population size generally result in?

A)extinction
B)mutation
C)speciation
D)genetic drift
Question
A baby is born with wrinkled, poorly-formed skin and blood vessels prone to rupturing. What can we say the baby has inherited?

A)a lethal mutation
B)a deleterious mutation
C)an advantageous mutation
D)a partial mutation
Question
In which of the following scenarios will genetic drift have a progressively larger impact on allele frequencies in a population?

A)when gene flow increases
B)when population size decreases
C)when mutation rate decreases
D)when random mating increases
Question
If individuals move from one population to another, it may cause a shift in allele frequencies. What causes this shift?

A)genetic drift
B)directional selection
C)mutation
D)gene flow
Question
Which of the following best characterize mutations that confer no apparent selective advantage or disadvantage in a particular environment?

A)random mutations
B)deleterious mutations
C)neutral mutations
D)stabilizing mutations
Question
Which of the following processes results in microevolution without any form of natural selection?

A)genetic drift
B)mutation
C)development of new characteristics during an individual's lifetime
D)genetic variation
Question
We are sending a small number of dogs to colonize a new planet. Through a random selection process, we end up only with dachshunds and Chihuahuas. The subsequent colony is all small dogs with short legs. What is this an example of?

A)adaptive radiation
B)punctuated equilibrium
C)genetic drift
D)microevolution
Question
Imagine that the only survivors of a colony on Venus are a man and a woman, who happen to be both originally from southern Ukraine. Which of the following will their descendants show?

A)genetic drift
B)punctuated equilibrium
C)excessive mutation
D)heterozygote advantage
Question
If the frequency of the recessive allele (q) for a particular two-allele gene in a population is 0.20, what percentage of the individuals in the population will be heterozygotes for that gene?

A)0.16
B)0.20
C)0.32
D)0.80
Question
There are two alleles for a gene in a population, and the frequency of the dominant allele (p) is 0.50. What is the frequency of the recessive allele (q) then?

A)0.05
B)0.25
C)0.50
D)0.75
Question
Under what circumstance might measuring the frequency of homozygous recessive genotypes lead to erroneous predictions of allele frequencies in a population?

A)The population is under Hardy-Weinberg equilibrium.
B)The population is affected by heterozygote advantage.
C)The population has undergone genetic drift in the past.
D)The population is affected by homozygote advantage.
Question
What is inbreeding primarily due to?

A)migration
B)nonrandom mating
C)mutation
D)adaptive radiation
Question
Which of the following is the least likely result of a genetic bottleneck?

A)an increase in the frequency of the less common allele
B)allele frequencies identical to the previous generation
C)a decrease in the frequency of an uncommon allele
D)a decrease in the frequency of the most common allele
Question
What is the decline in the occurrence of sickle cell anemia in the American population most likely the result of?

A)a lower mutation rate in the United States than in Africa
B)the advantage of both homozygous forms over the heterozygous form
C)the development of appropriate medical treatment for the sickle cell condition in the United States
D)a decline in the occurrence of malaria in the United States
Question
The distribution of the genetic disorder called sickle cell anemia is correlated with the distribution of malaria in tropical countries. What is this an example of?

A)heterozygote advantage
B)a genetic bottleneck
C)genetic drift
D)evolutionary convergence
Question
What is any product of natural selection that increases the relative fitness of an organism in its environment called?

A)mutation
B)adaptive trait
C)adaptation
D)variation
Question
If you wanted to calculate the frequencies of the two different alleles for a particular gene in a population, what data would you have to gather and how would you use it?
Question
How could parasitism by wasps and feeding by birds result in a higher percentage of galls (made by gall-making flies) of medium size rather than small or large galls (or an even percentage of all sizes of galls)?
Question
People with the disease known as sickle cell anemia are often better able to survive malaria. What is the cause of this?

A)balanced polymorphism
B)heterozygote advantage
C)disruptive selection
D)stabilizing selection
Question
What is the founder effect a type of?

A)natural selection
B)mutation
C)genetic drift
D)gene flow
Question
Intermediate forms are often absent in characters showing qualitative variation.
Question
Studies of chromosomal and mitochondrial DNA suggest that every locus exhibits some variability in its nucleotide sequence. Which of the following does NOT apply?

A)Every locus exhibits some variability in its nucleotide sequence among individuals from a single population.
B)Every locus exhibits some variability in its nucleotide sequence between populations of the same species.
C)Every locus exhibits some variability in its nucleotide sequence between related species.
D)Every locus exhibits some variability in its nucleotide sequence within an individual.
Question
Which evolution-related events are in the correct cause-and-effect sequence?

A)mutation → variation → natural selection → adaptation → speciation
B)variation → adaptation → mutation → natural selection → speciation
C)speciation → adaptation → variation → mutation → natural selection
D)mutation → speciation → adaptation → variation → natural selection
Question
Distinguish between quantitative and qualitative variation.
Question
What is the stable presence of more than one allele for a particular gene in a population called?

A)balanced polymorphism
B)mixed gene pool
C)mutation pressure
D)genetic drift
Question
What does natural selection result in?

A)adaptation
B)mutation
C)a new species
D)genetic drift
Question
How does gene flow introduce novel genetic variants into populations?
Question
What is the contribution that an individual makes to the gene pool of the next generation in relation to the contributions of other individuals called?

A)competition
B)genetic drift
C)relative fitness
D)gene flow
Question
Phenotypic variation CANNOT be passed on from one generation to the next.
Question
What is balanced polymorphism in a population likely the result of?

A)disruptive selection
B)sexual selection
C)directional selection
D)stabilizing selection
Question
Genetic drift can eliminate alleles from a population more quickly than natural selection.
Question
Match the Hardy-Weinberg factor with the correct genetic designation.
a.frequency of heterozygotes
b.frequency of the dominant allele
c.frequency of the recessive allele
d.the total gene pool for a gene with two alleles
e.frequency of homozygous recessive genotypes
f.frequency of homozygous dominant genotypes
q
Question
Match the Hardy-Weinberg factor with the correct genetic designation.
a.frequency of heterozygotes
b.frequency of the dominant allele
c.frequency of the recessive allele
d.the total gene pool for a gene with two alleles
e.frequency of homozygous recessive genotypes
f.frequency of homozygous dominant genotypes
p
Question
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
random changes in allele frequencies caused by chance events
Question
If you were planning the colonization of a distant planet, what would you do to ensure that the population remained genetically healthy for a long time?
Question
Small populations on islands can be said to have experienced a form of genetic drift called the founders effect.
Question
Population bottleneck greatly reduces population size even if the population numbers later rebound.
Question
Genetic drift is non-selective and therefore does not contribute to microevolution.
Question
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
choice of mates based on their phenotypes and genotypes
Question
New traits arise from scratch through the formation of a new gene.
Question
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
differential survivorship or reproduction of individuals with different genotypes
Question
Natural selection results in organisms perfectly adapted to their environments.
Question
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
change in allele frequencies as individuals join a population and reproduce
Question
Genetic variation can originate both from the production of new alleles and from the arrangement of existing alleles.
Question
Natural selection quickly eliminates harmful alleles from the population.
Question
How can organisms with the same phenotype have different genotypes and vice versa, and what is the significance?
Question
The reason why some specialty breeds of dogs are more prone to genetic disease is because of genetic drift.
Question
When multiple colour forms of an organism exist in a population, the least abundant form is likely to increase in frequency.
Question
In an unchanging environment, a well-adapted population is likely to experience no natural selection of any kind.
Question
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
a heritable change in DNA
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Deck 18: Microevolution: Changes Within Populations
1
What is the natural selection that shifts the adaptation of an entire population called?

A)stabilizing selection
B)directional selection
C)disruptive selection
D)artificial selection
B
2
The development of penicillin-resistant bacteria in the twentieth century represents an example of which of the following?

A)punctuated equilibrium
B)speciation
C)microevolution
D)mutation
D
3
Which of the following defines characters between individuals that exist in two or more discrete states?

A)quantitative variation
B)qualitative variation
C)genetic variation
D)punctuated equilibrium
B
4
Which of the following best describes the condition in which evolution could have taken place?

A)when a population experiences a shift in allele frequencies
B)when a mutation occurs in a population
C)when a feature of an individual animal changes through use or disuse
D)when a population has different forms of the same gene
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
5
What is the evolution of the humpback whale an example of?

A)homology
B)microevolutionc macroevolution
C)analogy
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
6
Which of the following best explains variation that approximates a bell-shaped curve when plotted on a bar graph?

A)The variation is undergoing disruptive selection.
B)The variation is undergoing stabilizing selection.
C)The variation is quantitative.
D)The variation is qualitative.
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
7
Which of the following is a correct expression of the Hardy-Weinberg equation?

A)p2 + 2pq + q2 = 0
B)p2 + pq − q2 = 1
C)p2 + 2pq + q2 = 1
D)p + q = 0
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
8
All of the population attributes listed below can be calculated with the Hardy-Weinberg equation EXCEPT which?

A)the frequency of heterozygotes
B)the frequency of a dominant allele
C)the frequency of a recessive allele
D)the frequency of mutation
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
9
Which of the following best describes microevolution?

A)the formation of a new species
B)the occurrence of a new mutation
C)a change in allele frequencies within a population
D)the gradual change in the form of fossils over geological time
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
10
Which of the following is describing the situation when microevolution takes place?

A)when a population experiences a shift in allele frequencies
B)when a mutation occurs in a population
C)when several mutations occur in a population
D)when a population has different forms of the same gene
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
11
For which of the following is the Hardy-Weinberg formula valuable?

A)calculating changes in population size
B)calculating changes in speciation
C)calculating changes in allele frequencies
D)calculating changes in mutation
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
12
Which of the following does directional selection favour?

A)intermediate phenotypes
B)phenotypes at one end of the distribution
C)phenotypic extremes at both ends
D)heterozygotes
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Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
13
Which of the following processes listed below will NOT disrupt Hardy-Weinberg equilibrium?

A)nonrandom mating
B)natural selection
C)migration
D)punctuated equilibrium
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
14
In which of the following sexually reproducing populations does the Hardy-Weinberg principle of genetic equilibrium tell us what to expect?

A)in a population that is decreasing with each generation
B)in a population that is increasing with each generation
C)in a population that is evolving
D)in a population that is not evolving
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
15
Which of the following is NOT a condition for the genetic equilibrium?

A)The population is not migratory to other populations.
B)The population is closed to migration from other populations.
C)The population is infinite in size.
D)The population is small in size.
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
16
In an isolated population of fruit flies, 4% of the individuals have pink eyes, a homozygous recessive condition, and 96% have the dominant black eye phenotype. What percentage of the population are heterozygotes?

A)4%
B)16%
C)32%
D)48%
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
17
Which of the following is the most accurate definition of microevolution?

A)a heritable change in the genetics of a population over time
B)natural selection leading to adaptation over time
C)the occurrence of a series of mutations over time
D)the origin of major new forms of life over time
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
18
What is the one measurement we have to make if we want to know the percentage of particular genotypes within an actual population, assuming complete dominance and two alleles?

A)the frequency of heterozygous phenotypes
B)the frequency of heterozygous genotypes
C)the frequency of dominant phenotypes
D)the frequency of recessive phenotypes
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
19
Which of the following will disrupt Hardy-Weinberg equilibrium the least?

A)directional selection
B)stabilizing selection
C)migration
D)reduction to a small population size
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
20
What would changing environmental conditions most likely cause in an existing species?

A)disruptive selection
B)mutation
C)directional selection
D)stabilizing selection
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
21
Which process below is NOT an agent of microevolutionary change?

A)mutation
B)genetic drift
C)natural selection
D)random mating
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
22
What is the production of random evolutionary changes in small breeding populations known as?

A)gene flow
B)genetic drift
C)disruptive selection
D)mutation
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
23
What does "2pq" represents in the Hardy-Weinberg equation?

A)It represents the homozygous recessive genotypes.
B)It represents the heterozygous genotypes.
C)It represents the homozygous dominant genotypes.
D)It represents the heterozygous phenotypes.
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
24
In a colony of 100 guinea pigs, 16 show the recessive trait of bristly hair. What is the frequency of the recessive allele in the population?

A)0.400
B)0.160
C)0.040
D)0.016
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
25
Because of fluctuations in the environment, such as depletion of food supply or an outbreak of disease, a population may periodically experience a rapid and marked decrease in the number of individuals, leading to a form of genetic drift. What is this form of genetic drift called?

A)a founder effect
B)migration
C)gene flow
D)a genetic bottleneck
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
26
Which of the following is the source of new alleles in a population?

A)natural selection
B)mutation
C)microevolution
D)genetic drift
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
27
Which of the following is NOT an agent of microevolutionary change?

A)mutation
B)gene flow
C)random mating
D)genetic drift
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
28
In a colony of 100 guinea pigs, 16 show the recessive trait of bristly hair. What is the percentage of heterozygotes in the population?

A)24%
B)36%
C)48%
D)52%
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
29
According to the modern synthetic theory of evolution, what does the accumulation of mutations over time result in?

A)microevolution
B)adaptation
C)an increase in genetic variation
D)speciation
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
30
Which process below is NOT a component of natural selection?

A)genetic drift
B)overproduction of offspring
C)limitations in vital resources
D)genetic variation
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
31
What does a sudden reduction in population size generally result in?

A)extinction
B)mutation
C)speciation
D)genetic drift
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
32
A baby is born with wrinkled, poorly-formed skin and blood vessels prone to rupturing. What can we say the baby has inherited?

A)a lethal mutation
B)a deleterious mutation
C)an advantageous mutation
D)a partial mutation
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
33
In which of the following scenarios will genetic drift have a progressively larger impact on allele frequencies in a population?

A)when gene flow increases
B)when population size decreases
C)when mutation rate decreases
D)when random mating increases
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
34
If individuals move from one population to another, it may cause a shift in allele frequencies. What causes this shift?

A)genetic drift
B)directional selection
C)mutation
D)gene flow
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
35
Which of the following best characterize mutations that confer no apparent selective advantage or disadvantage in a particular environment?

A)random mutations
B)deleterious mutations
C)neutral mutations
D)stabilizing mutations
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
36
Which of the following processes results in microevolution without any form of natural selection?

A)genetic drift
B)mutation
C)development of new characteristics during an individual's lifetime
D)genetic variation
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
37
We are sending a small number of dogs to colonize a new planet. Through a random selection process, we end up only with dachshunds and Chihuahuas. The subsequent colony is all small dogs with short legs. What is this an example of?

A)adaptive radiation
B)punctuated equilibrium
C)genetic drift
D)microevolution
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
38
Imagine that the only survivors of a colony on Venus are a man and a woman, who happen to be both originally from southern Ukraine. Which of the following will their descendants show?

A)genetic drift
B)punctuated equilibrium
C)excessive mutation
D)heterozygote advantage
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
39
If the frequency of the recessive allele (q) for a particular two-allele gene in a population is 0.20, what percentage of the individuals in the population will be heterozygotes for that gene?

A)0.16
B)0.20
C)0.32
D)0.80
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
40
There are two alleles for a gene in a population, and the frequency of the dominant allele (p) is 0.50. What is the frequency of the recessive allele (q) then?

A)0.05
B)0.25
C)0.50
D)0.75
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
41
Under what circumstance might measuring the frequency of homozygous recessive genotypes lead to erroneous predictions of allele frequencies in a population?

A)The population is under Hardy-Weinberg equilibrium.
B)The population is affected by heterozygote advantage.
C)The population has undergone genetic drift in the past.
D)The population is affected by homozygote advantage.
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
42
What is inbreeding primarily due to?

A)migration
B)nonrandom mating
C)mutation
D)adaptive radiation
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
43
Which of the following is the least likely result of a genetic bottleneck?

A)an increase in the frequency of the less common allele
B)allele frequencies identical to the previous generation
C)a decrease in the frequency of an uncommon allele
D)a decrease in the frequency of the most common allele
Unlock Deck
Unlock for access to all 84 flashcards in this deck.
Unlock Deck
k this deck
44
What is the decline in the occurrence of sickle cell anemia in the American population most likely the result of?

A)a lower mutation rate in the United States than in Africa
B)the advantage of both homozygous forms over the heterozygous form
C)the development of appropriate medical treatment for the sickle cell condition in the United States
D)a decline in the occurrence of malaria in the United States
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45
The distribution of the genetic disorder called sickle cell anemia is correlated with the distribution of malaria in tropical countries. What is this an example of?

A)heterozygote advantage
B)a genetic bottleneck
C)genetic drift
D)evolutionary convergence
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46
What is any product of natural selection that increases the relative fitness of an organism in its environment called?

A)mutation
B)adaptive trait
C)adaptation
D)variation
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47
If you wanted to calculate the frequencies of the two different alleles for a particular gene in a population, what data would you have to gather and how would you use it?
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48
How could parasitism by wasps and feeding by birds result in a higher percentage of galls (made by gall-making flies) of medium size rather than small or large galls (or an even percentage of all sizes of galls)?
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49
People with the disease known as sickle cell anemia are often better able to survive malaria. What is the cause of this?

A)balanced polymorphism
B)heterozygote advantage
C)disruptive selection
D)stabilizing selection
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50
What is the founder effect a type of?

A)natural selection
B)mutation
C)genetic drift
D)gene flow
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51
Intermediate forms are often absent in characters showing qualitative variation.
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52
Studies of chromosomal and mitochondrial DNA suggest that every locus exhibits some variability in its nucleotide sequence. Which of the following does NOT apply?

A)Every locus exhibits some variability in its nucleotide sequence among individuals from a single population.
B)Every locus exhibits some variability in its nucleotide sequence between populations of the same species.
C)Every locus exhibits some variability in its nucleotide sequence between related species.
D)Every locus exhibits some variability in its nucleotide sequence within an individual.
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53
Which evolution-related events are in the correct cause-and-effect sequence?

A)mutation → variation → natural selection → adaptation → speciation
B)variation → adaptation → mutation → natural selection → speciation
C)speciation → adaptation → variation → mutation → natural selection
D)mutation → speciation → adaptation → variation → natural selection
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54
Distinguish between quantitative and qualitative variation.
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55
What is the stable presence of more than one allele for a particular gene in a population called?

A)balanced polymorphism
B)mixed gene pool
C)mutation pressure
D)genetic drift
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56
What does natural selection result in?

A)adaptation
B)mutation
C)a new species
D)genetic drift
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57
How does gene flow introduce novel genetic variants into populations?
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58
What is the contribution that an individual makes to the gene pool of the next generation in relation to the contributions of other individuals called?

A)competition
B)genetic drift
C)relative fitness
D)gene flow
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59
Phenotypic variation CANNOT be passed on from one generation to the next.
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60
What is balanced polymorphism in a population likely the result of?

A)disruptive selection
B)sexual selection
C)directional selection
D)stabilizing selection
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61
Genetic drift can eliminate alleles from a population more quickly than natural selection.
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62
Match the Hardy-Weinberg factor with the correct genetic designation.
a.frequency of heterozygotes
b.frequency of the dominant allele
c.frequency of the recessive allele
d.the total gene pool for a gene with two alleles
e.frequency of homozygous recessive genotypes
f.frequency of homozygous dominant genotypes
q
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63
Match the Hardy-Weinberg factor with the correct genetic designation.
a.frequency of heterozygotes
b.frequency of the dominant allele
c.frequency of the recessive allele
d.the total gene pool for a gene with two alleles
e.frequency of homozygous recessive genotypes
f.frequency of homozygous dominant genotypes
p
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64
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
random changes in allele frequencies caused by chance events
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65
If you were planning the colonization of a distant planet, what would you do to ensure that the population remained genetically healthy for a long time?
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66
Small populations on islands can be said to have experienced a form of genetic drift called the founders effect.
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67
Population bottleneck greatly reduces population size even if the population numbers later rebound.
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68
Genetic drift is non-selective and therefore does not contribute to microevolution.
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69
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
choice of mates based on their phenotypes and genotypes
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70
New traits arise from scratch through the formation of a new gene.
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71
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
differential survivorship or reproduction of individuals with different genotypes
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72
Natural selection results in organisms perfectly adapted to their environments.
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73
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
change in allele frequencies as individuals join a population and reproduce
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74
Genetic variation can originate both from the production of new alleles and from the arrangement of existing alleles.
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75
Natural selection quickly eliminates harmful alleles from the population.
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76
How can organisms with the same phenotype have different genotypes and vice versa, and what is the significance?
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77
The reason why some specialty breeds of dogs are more prone to genetic disease is because of genetic drift.
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78
When multiple colour forms of an organism exist in a population, the least abundant form is likely to increase in frequency.
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79
In an unchanging environment, a well-adapted population is likely to experience no natural selection of any kind.
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80
Match each of the following definitions with the correct agent.
a.gene flow
b.nonrandom mating
c.genetic drift
d.mutation
e.natural selection
a heritable change in DNA
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