Chapter 21

Question 1

A group of individuals that can exchange genetic material through interbreeding to produce fertile offspring.

Answer 1

Species

Question 2

All the alleles present in all individuals in a population or species.

Answer 2

gene pool

Question 3

All the individuals of a given species that live and reproduce in a particular place; one of several interbreeding groups of organisms of the same species living in the same geographical area.

Answer 3

Population

Question 4

A mutation that occurs in somatic cells.

Answer 4

Somatic mutation

Question 5

A mutation that occurs in eggs and sperm or in the cells that give rise to these reproductive cells and therefore is passed on to the next generation.

Answer 5

germ-line mutation

Question 6

Genetic changes that have no effect or negligible effects on the organism, or whose effects are not associated with differences in survival or reproduction.

Answer 6

neutral mutations

Question 7

Genetic changes that are harmful to an organism.

Answer 7

deleterious mutations

Question 8

Genetic changes that improve their carriers’ chances of survival or reproduction.

Answer 8

Advantageous mutations

Question 9

Among all the alleles of a gene in a population, the proportion that are of a specified allele.

Answer 9

allele frequency

Question 10

Describes a population that exhibits only one allele at a particular gene.

Answer 10

fixed

Question 11

A state in which particular allele and genotype frequencies do not change over time, implying the absence of evolutionary forces. It also specifies a mathematical relationship between allele frequencies and genotype frequencies.

Answer 11

Hardy-Weinberg equilibrium

Question 12

The retention or elimination of mutations in a population of organisms.

Answer 12

selection

Question 13

A change in the frequency of an allele due to the random effects of finite population size.

Answer 13

genetic drift

Question 14

Mate selection biased by genotype or relatedness.

Answer 14

non-random mating

Question 15

The current theory of evolution, which combines Darwin’s theory of natural selection and Mendelian genetics.

Answer 15

Modern Synthesis

Question 16

Natural selection that increases the frequency of a favorable allele.

Answer 16

Positive selection

Question 17

Natural selection that reduces the frequency of a deleterious allele.

Answer 17

Negative Selection

Question 18

Natural selection that acts to maintain two or more alleles of a given gene in a population.

Answer 18

Balancing selection

Question 19

A form of balancing selection in which the heterozygote’s fitness is higher than that of either of the homozygotes, resulting in selection that ensures that both alleles remain in the population at intermediate frequencies.

Answer 19

Heterozygote advantage

Question 20

A form of selection that selects against extremes and so maintains the status quo.

Answer 20

Stabilizing selection

Question 21

A form of selection that selects against one of two extremes and leads over time to a change in a trait.

Answer 21

Directional Selection

Question 22

A form of directional selection analogous to natural selection, but without the competitive element; successful genotypes are selected by the breeder, not by competition.

Answer 22

Artificial Selection

Question 23

A form of selection that operates in favor of extremes and against intermediate forms, selecting against the mean.

Answer 23

Disruptive Selection

Question 24

A form of selection that promotes traits that increase an individual’s access to reproductive opportunities.

Answer 24

Sexual Selection

Question 25

A form of sexual selection involving interactions between individuals of one sex, as when members of one sex compete with one another for access to the other sex.

Answer 25

Intrasexual Selection

Question 26

A form of sexual selection involving interaction between males and females, as when females choose from among males.

Answer 26

Intersexual Selection

Question 27

The movement of individuals from one population to another.

Answer 27

Migration

Question 28

The movement of alleles from one population to another through interbreeding of some of their respective members.

Answer 28

Gene Flow

Question 29

An extreme, usually temporary, reduction in population size that often results in marked genetic drift.

Answer 29

Bottleneck

Question 30

A type of bottleneck that occurs when only a few individuals establish a new population.

Answer 30

Founder Event

Question 31

A reduction in fitness resulting from breeding among relatives causing homozygosity of deleterious recessive mutations.

Answer 31

Inbreeding depression

Question 32

Evolution at the level of DNA, which in time results in the genetic divergence of populations.

Answer 32

Molecular Evolution

Question 33

Estimates of the time when different taxa diverged, based on the amount of genetic divergence between them.

Answer 33

Molecular Clock

Question 34

A gene that is no longer functional.

Answer 34

Pseudogene

Question 35

What is the definition of biological evolution and how does it differ from other definitions of evolution?

Answer 35

Changes in gene frequencies in populations and it is different because other definitions describe evolution as organisms changing over time

Question 36

What is the relevance of mutation to the process of evolution?

Answer 36

It generates new variation

Question 37

How does a gene pool relate to levels of variation?

Answer 37

Individuals represent different combinations of alleles.

Question 38

Why are populations important for understanding evolution?

Answer 38

It answers detailed questions about patterns of variations. Small differences, given enough time, can lead to the major differences we see among organisms today.

Question 39

How does generation time relate to discussions of evolution?

Answer 39

How the allele frequencies change from generation to generation according to the allele’s impact on the survival and reproduction of individuals

Question 40

How does gene flow differ from genetic drift?

Answer 40

Gene flow is the process of alleles moving from one population to another and genetic drift is the changes in allele frequency in a gene pool

Question 41

Can genetic drift have a stronger effect than natural selection?

Answer 41

Yes, because genetic drift in a population can lead to elimination of an allele from a population by chance where as natural selection is over time

Question 42

How does natural selection operate? What is necessary for natural selection to occur?

Answer 42

It is adaptations to the surrounding environment. Reproduction, heredity, variation in fitness or organisms, variation in individual characters among members of the population

Question 43

What is biological fitness?

Answer 43

A measure of the extent to which an individual’s genotype is represented in the next generation

Question 44

How do you determine whether a given trait is adaptive? What does it mean to be adaptive?

Answer 44

b

Question 45

How do you determine whether a given trait is (or has been in the past) influenced by evolution?

Answer 45

b

Question 46

Are any mechanisms of evolution random? Are any adaptive? Are any goal oriented?

Answer 46

b