Evolution

Question 1

Evolution

Answer 1

is the changes in populations, species or groups; changes in allele (traits) frequencies in populations over time.

Question 2

Microevolution

Answer 2

the changes in allele frequencies that occur over time within a population due to mutation, selection, gene flow, gene drift, and nonrandom mating.

Question 3

Macroevolution

Answer 3

the patterns of changes in groups of related species over broad periods of geologic time. Patterns determine phylogeny
(evolutionary relationships among species and groups of species). These patterns can be used to establish a phylogenetic tree

Question 4

Cuvier proposed

Answer 4

catastrophism

Question 5

catastrophism

Answer 5

Catastrophes lead to mass extinctions of species in those areas. The different populations in different areas were shaped
by what catastrophes had occurred, and what random organisms then survived and
populated that area.

Question 6

Lamarck proposed:

Answer 6

Use and disuse, Inheritance of acquired characteristics

Question 7

Use and disuse

Answer 7

used body parts will
develop and unused ones are weakened,
leading to evolution.

Question 8

Inheritance of acquired traits

Answer 8

traits acquired through use and disuse are passed onto offspring (eg. giraffe stretching neck will cause its neck to
develop, and produce long necked offspring). This is incorrect - acquired characteristics are generally not heritable.

Question 9

Darwin theory

Answer 9

Theory of Natural Selection.

Question 10

Natural Selection

Answer 10

survival of the fittest without any luck. Allele frequencies increase or decrease in order to adapt to the environment.

Question 11

Survival of the fittest

Answer 11

occurs as individuals with greatest fitness (ability to survive and produce viable
and fertile offspring) have greatest success, and pass on more DNA to future generations
compared to less fit parents.

Question 12

Descent with modification

Answer 12

coined by Darwin, this occurs via natural selection. Over time and generations, traits
providing reproductive advantage become more common within the population.

Question 13

Paleontology

Answer 13

fossils reveal prehistoric
existence of extinct species, and are often found in sediment layers. Deepest fossils represent the oldest specimens. Large, rapid changes produce new species.

Question 14

Fossil types

Answer 14

actual remains, petrification,
imprints, molds, and casts

Question 15

Biogeography

Answer 15

The geography that describes
the distribution of species. Unrelated species in different regions of the world look alike when found in a similar environment. The supercontinent Pangea slowly broke apart to 7 continents due to continental drift.

Question 16

Embryology

Answer 16

similar stages of development
among related species establishes evolutionary
relationships. Gill slits and tails are found in fish, chickens, pigs, and human embryos.

Question 17

Ontogeny

Answer 17

The development of an organism.

Question 18

Phylogeny

Answer 18

The evolutionary development and diversification of a species.

Question 19

Comparative anatomy

Answer 19

this describes two kinds of structures that contribute to the
identification of an evolutionary relationship.

Question 20

Homologous structures

Answer 20

body parts that resemble one another between different species that descended from a
common ancestor. E.g., bat forelimbs vs. bird forelimbs

Question 21

Analogous structures

Answer 21

body parts that resemble one another between different species that evolved independently. They have similar structures as adaptations to similar environments. These structures are also called homoplasies. E.g., bat wings vs. bee wings

Question 22

Molecular biology

Answer 22

this field examines nucleotide and amino acid sequences of DNA and proteins from different species. More than
98% of nucleotide sequences in humans and chimpanzees are identical. Amino acids in the
protein cytochrome c are often compared

Question 23

Comparative biochemistry

Answer 23

organisms with a common ancestor mean they have common biochemical pathways.

Question 24

what are the key points of natural selection

Answer 24

1. population possess an enormous reproductive potential
2. Population size remains stable
3. Resources are limited
4. Individuals compete for survival
5. There is variation among individuals in a population
6. Much of the variation is heritable
7. Only the most fit individuals survive
8. Evolution occurs as favorable traits accumulate in the population

Question 25

Stabilizing selection

Answer 25

the bell curve favors an intermediate, like how the average height in humans is in the middle.

Question 26

Directional selection

Answer 26

the favoring of traits that is at one extreme of the range. Traits at opposite extremes are selected against.

Question 27

Industrial selection

Answer 27

the selection of dark-colored, melanic, varieties in various species of moths, like the peppered moth, as a result of industrial pollution. This is a specific type of directional selection.

Question 28

Disruptive selection

Answer 28

this selection occurs when the environment favors extreme or unusual traits while selecting against common traits. For example, a certain environment may favor short and tall heights while the average height is selected against.

Question 29

Sexual selection

Answer 29

the differential mating of males or females in a population

Question 30

Intersexual selection

Answer 30

females choose superior males, which increases the fitness of the offspring. Because females invest more energy into their offspring, they want to maximize the quality of their offspring by picking fit males.

Question 31

intrasexual selection

Answer 31

when males compete and fight with other males for better mating opportunities. Males increase fitness of offspring by maximizing quantity. Intrasexual selection favors traits like musculature, horns, large stature, etc.

Question 32

Sexual dimorphism

Answer 32

the differences in appearance of males and females, which is a form of disruptive selection. This occurs because female choice leads to traits and behaviors in males that are favorable to females. Male traits like colorful plumage or elaborate mating behavior will be selected for by females.

Question 33

Artificial selection

Answer 33

this is a form of directional selection carried out by humans when they breed favorable traits, and is not natural selection

Question 34

Mutation

Answer 34

new alleles could be introduced to the population with genetic mutations.

Question 35

Sexual reproduction

Answer 35

genetic recombination such as crossing over, independent assortment, and random joining of gametes can occur during sexual reproduction

Question 36

Diploidy

Answer 36

Diploid organisms have two copies of each chromosome. In heterozygous conditions, the recessive allele is stored for later generations, and thus more variations are maintained in the gene pool

Question 37

Outbreeding

Answer 37

mating with unrelated partners results in mixing of different alleles and creating new allele combinations.

Question 38

Heterozygote advantage

Answer 38

Two parents produce an offspring that is more fit than either parent.

Question 39

Hybrid vigor (heterosis)

Answer 39

the superior quality of offspring resulting from crosses between two different inbred strains, species, or varieties of organisms. Hybrid superior quality results from reducing deleterious recessive homozygous conditions and increasing heterozygous advantage

Question 40

Frequency-dependent selection (minority advantage)

Answer 40

rare phenotypes offer higher fitness. Cycle between high and low frequency. (eg. advantageous against hunters’ search images).

Question 41

The Hardy-Weinberg formula

Answer 41

calculates genetic frequency during genetic equilibrium (no change in gene frequencies). If both equations hold true, the population is under Hardy-Weinberg equilibrium.

Question 42

Hardy-Weinberg Equation: all individuals sum to 100%

Answer 42

p² + 2pq + q² = 1 (all individuals sum to 100%)

Question 43

Hardy-Weinberg Equation: all alleles sum to 100%

Answer 43

p + q = 1 (all alleles sum to 100%)

Question 44

Requirements to be in Hardy-Weinberg Equilibrium:

Answer 44

1. No mutations - no new alleles can be introduced to the population 2. No natural selection - the environment is not impacting allele frequencies, and so traits are neutral 3. No gene flow - also happens as a result of no migration. An isolated population will have no gene flow 4. Large populations - this decreases the effects of genetic drift 5. Random mating - this decreases the chance of any allele from changing in frequency

Question 45

Genetic Drift:

Answer 45

allele frequencies change by chance. Larger effects on small populations.

Question 46

Bottleneck effect:

Answer 46

smaller gene pool, some alleles may be lost (eg. disaster killing majority of population).

Question 47

Founder effect:

Answer 47

some individuals migrate away from the population.

Question 48

Non-random Mating:

Answer 48

sexual selection, outbreeding, inbreeding.

Question 49

Mutations:

Answer 49

can be dormant until environmental change allows it to flourish.

Question 50

Gene Flow:

Answer 50

migration (non-random) moving alleles between populations, leading to variation through mixing.

Question 51

Neutral Variations

Answer 51

may become beneficial if the environment changes.

Question 52

Polyploidy

Answer 52

plants have multiple copies of alleles introducing more variety and preserving different alleles. Can also mask effects of a harmful recessive allele.

Question 53

Prezygotic Isolation

Answer 53

mechanisms are barriers that prevent fertilization and zygote formation from occurring between species.

Question 54

Habitat Isolation

Answer 54

occupying different habitats

Question 55

Temporal Isolation

Answer 55

reproducing at different times/seasons.

Question 56

Behavioral Isolation

Answer 56

different courtship rituals

Question 57

Mechanical Isolation

Answer 57

male and female genitalia are not compatible.

Question 58

Gamete Isolation (Incompatibility)

Answer 58

gametes do not recognize or are unable to fertilize each other.

Question 59

Postzygotic Isolation

Answer 59

refers to barriers to organism success after zygote has formed.

Question 60

Hybrid Mortality (inviability)

Answer 60

hybrid zygote not-viable and does not survive past embryonic stage (often due to different chromosome numbers).

Question 61

Hybrid Sterility

Answer 61

hybrid zygote sterile (infertile).

Question 62

Hybrid F2 Breakdown

Answer 62

Hybrid F2 generation have reduced fitness compared to their parental generation.

Question 63

Speciation

Answer 63

is how species form, starting with reproductive isolation, which leads to interruption of gene flow between populations that gradually develop into two species.

Question 64

Allopatric Speciation:

Answer 64

occurs due to a geographical barrier.

Question 65

Adaptive Radiation:

Answer 65

occurs when many species arise from one ancestor as they adapt differently to their environments. During adaptive radiation, species can specialize to fill different niches within the same environment.

Question 66

Sympatric Speciation:

Answer 66

occurs without a geographical barrier.

Question 67

Balanced Polymorphism:

Answer 67

different phenotypes are isolated within the same area.

Question 68

Hybridization

Answer 68

some hybrids are more fit than purebreds.

Question 69

Phyletic gradualism:

Answer 69

evolution happened gradually via accumulation of small intermediary changes. Not likely to be true (not supported by fossil evidence).

Question 70

Punctuated equilibrium:

Answer 70

short spurts of evolutionary changes during periods of stasis (supported by fossil evidence).

Question 71

Divergent Evolution:

Answer 71

species diverge from common ancestor.

Question 72

Convergent Evolution (Homoplasy):

Answer 72

unrelated species adapt to similar environments becoming more alike (analogous structures).

Question 73

Parallel Evolution:

Answer 73

species diverge from a common ancestor but undergo similar changes.

Question 74

Coevolution:

Answer 74

two species impart selective pressure on each other. Classic examples are hummingbirds and flowers.

Question 75

Camouflage

Answer 75

match appearance to environment to avoid detection. Strictly visual method of concealment.

Question 76

Crypsis:

Answer 76

Similar to camouflage, except includes olfactory (smell) or auditory methods of concealment (ex. scent masking, silencing).

Question 77

Aposematic Coloration

Answer 77

(warning coloration): vibrant coloration in poisonous animals to warn predators.

Question 78

Mimicry:

Answer 78

evolving to resemble another species.

Question 79

Batesian mimicry

Answer 79

a non-harmful animal resembles a harmful one.

Question 80

Mullerian mimicry,

Answer 80

two poisonous animals resemble each other to warn their predator.

Question 81

Phylogenetic tree

Answer 81

is a branched diagram that shows inferred evolutionary relationships between different taxa.

Question 82

clade

Answer 82

is a cluster with an ancestor and all its descendants.

Question 83

monophyletic

Answer 83

(an ancestor and all its descendants)

Question 84

paraphyletic

Answer 84

(ancestor and some but not all of its descendants).

Question 85

cladogram

Answer 85

is a type of phylogenetic tree that shows such inferred evolutionary relationships among various biological species.

Question 86

internal node

Answer 86

is a branch point on a cladogram, and represents the splitting (divergence) of a single group into two descendant groups.

Question 87

Cladogenesis

Answer 87

is a type of phylogenetic tree that shows such inferred evolutionary relationships among various biological species.

Question 88

internal node

Answer 88

is a branch point on a cladogram, and represents the splitting (divergence) of a single group into two descendant groups.

Question 89

Cladogenesis

Answer 89

refers to the splitting apart of evolutionary lineages (formation of new clades). Anagenesis describes the gradual evolution of an interbreeding population without splitting.

Question 90

Parsimony

Answer 90

means the simpler the evolutionary explanation, the better.