Exam 21: Evolution: How Genotypes and Phenotypes Change Over Time

A) In species that demonstrate intersexual selection, male advertisement displays are often used to attract females.
B) In species that demonstrate intersexual selection, smaller males often accumulate less territory (and have limited mating opportunities) , as they are unable to win fights against larger males.
C) The antlers of male moose are likely the result of intrasexual selection.
D) The bright and elaborate feathers of birds of paradise are likely the result of intersexual selection.
E) All of these choices are correct.

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A) Populations may grow faster than their resources.
B) Populations may grow quickly and spread out over the planet.
C) Populations may grow faster than other competing populations.
D) Populations grow quickly, but predators grow more quickly.
E) Populations may grow quickly, and then will evolve more quickly.

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A) random change; small
B) random change; large
C) change due to selection; small
D) change due to selection; large

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A) molecular clock.
B) natural selection.
C) Hardy-Weinberg equilibrium.
D) artificial selection.
E) Modern Synthesis.

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A) intersexual
B) intrasexual
C) directional
D) stabilizing
E) disruptive

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A) They do not share the same mutations.
B) They do not live in the same areas.
C) They do not exchange genetic material.
D) They do not originate from the same population.
E) They do not evolve.

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A) Because the genetic code has redundancy built in.
B) Because if a mutation changes the primary structure of a protein, the protein may no longer work.
C) Because the body has no way to detect or correct mutations.
D) Most mutations are actually beneficial, not deleterious.
E) Any change in the DNA sequence means that DNA no longer functions properly.

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A) A small population of lizards is isolated on a small island.
B) A mouse develops a fur coat that enables it to hide more readily from predators.
C) Two schools of tuna merge together to form one large population.
D) A river changes course, changing the local environment for a population of butterflies.

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It seems that selection is operating, to...

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A) 0) 09
B) 0) 3
C) 0) 42
D) 0) 49
E) The genotype frequency cannot be calculated from the information provided.

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A) It usually occurs at the same pace because mutations occur at the same rate.
B) It usually is less efficient because there is no competition between individuals.
C) It usually is more efficient because it is controlled through breeding and not reproductive success.
D) It works well, but will only be able to produce a range of phenotypes based on the initial variation seen within the initial population.
E) It works equally well, because both principles use the idea of hereditary traits to pass along variation to offspring.

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A) selection.
B) genetic drift.
C) fixation.
D) migration.
E) evolution.

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A) No. The frequency of heterozygotes would be 1 if the population was in Hardy-Weinberg equilibrium.
B) No. The highest frequency of heterozygotes under Hardy-Weinberg equilibrium is 0.5.
C) No. There would be no heterozygotes if the population was in Hardy-Weinberg equilibrium.
D) No. The frequency of each genotype would be equal if the population was in Hardy-Weinberg equilibrium.

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