Adaptation & Speciation Flashcards

Question 1

Q

How did the Galapagos Finches change by the drought?

Answer

A

The birds who were able to eat the harder seeds survived compared to those who ate the smaller seeds

Question 2

Q

What finch is the medium ground finch? What type of beak do they have?

Answer

A

Geospiza fortis, and a larger beak for larger seeds

Question 3

Q

What finch is the small ground finch?

Answer

A

Geospiza fuliginosa, and smaller beak for small seeds

Question 4

Q

How did the beak size of finches change after the drought?

Answer

A

Average beak size grew larger

Question 5

Q

How do oldfield mice change their coat color based on their surroundings?

Answer

A

Dark coat color mice match the dark soil while mice on beaches have light coats to match sand

Question 6

Q

What are the benefits of the coat color for the mice?

Answer

A

Coat colors prevent predators from finding the mice. More offspring because of higher survival rate.

Question 7

Q

How does high gene flow affect populations?

Answer

A

It makes speciation more difficult since it will recombine the gene pools of groups of species

Question 8

Q

What is the definition of gene flow?

Answer

A

How quickly alleles move between populations

Question 9

Q

What does the amount of gene flow movement depend upon?

Answer

A

How far individual organisms move and how far their gametes move

Question 10

Q

Alleles don’t affect the ____ of populations, but rather the ___ traits

Answer

A

selection; phenotypic

Question 11

Q

What is aposematism?

Answer

A

anti-predator strategy used by potential prey to signal danger or lack of palatability (ex. coloration)

Question 12

Q

How is lactose intolerance part of natural selection?

Answer

A

feeding on milk was once rare, but as it became more popular and a way to get nutrients, the people able to drink milk survived for longer…milk tolerance more common in cattle herding cultures

Question 13

Q

What is sweep?

Answer

A

sweep is: reduction or elimination of variation among the nucleotides in neighboring DNA of a mutation as the result of recent and strong positive natural selection

Question 14

Q

What is selective sweep?

Answer

A

when sweep occurs faster than recombination can separate the allele from the nearby regions of the genome, leaves a fingerprint of natural selection

Question 15

Q

How have humans impacted selection?

Answer

A

Artificial selection for dogs/domestic animals, picking wheat for seeds that don’t shatter, pesticides, hunting and fishing

Question 16

Q

Do deleterious mutations always affect an individual?

Answer

A

It may have no effect on fitness if the mutation is deleterious in old age, since the animal is likely to die from external causes

Question 17

Q

Do deleterious mutations that appear early in life affect individuals?

Answer

A

They tend to have a stronger effect on fitness because the odds of an animal being alive is much higher.

Question 18

Q

What are the consequences of having an unbalanced number of litters on the mother?

Answer

A

Too many litters can be hard on the mother, because the offspring require many resources, while too little can prevent enough genes from being passed on in the population. Selection would want the best strategy to maximize the number of offspring that survive to maturity to pass on the genes. Therefore, the mother must find the right balance.

Question 19

Q

How do the island opossums and the mainland opossums differ from one another, in terms of predation, likelihood to survive, and number of offspring?

Answer

A

On the mainland, there are more predators and selection favors earlier sexual maturity and large litters to ensure that genes as passed on as much as possible. On the island, there is no predation, so opossums are likely to survive till old age, and therefore don’t have to expend resources to produce large litters. Mainland opossums deteriorate faster than the island ones.

Question 20

Q

In the guppy case study, how does the offspring growth rate change based on their surroundings?

Answer

A

In areas that don’t face predators, the offspring would grow up slowly. Females will produce fewer offspring at a time because of longer period of time to reproduce. Areas with predators have smaller offspring, and males mate often to spread their genes.

Question 21

Q

What is the cost of parental investment?

Answer

A

There is the expense of other reproductive options, such as producing additional young later or seeking other mating opportunities.

Question 22

Q

Why are females more likely to care for their offspring?

Answer

A

Females want to increase probability of their offspring’s survival, since they are the definite parent. Males have less certainty on whether the partner’s offspring are his.

Question 23

Q

Why are males less involved in the raising of offspring?

Answer

A

They have less certainty about the paternity of the offspring. Males are only adding cheap sperm and invest less because they have less to lose.

Question 24

Q

What sets up the sexual selection traits found on male species today?

Answer

A

The excess of males to mate causes males to look for something that makes them look unique to females. The males are expected to outcompete rivals and gain access to females.

Question 25

Q

Operational Sex Ratio

Answer

A

ratio of sexually competing males that are ready to mate to sexually competing females that are ready to mate

Question 26

Q

How are miscarriages anything good for the woman?

Answer

A

They are a way for the female body to reject embryos that have abnormalities and reduce body’s waste in resources

Question 27

Q

Do females ever leave their parental offspring role?

Answer

A

Yes, sometimes more females are ready to mate than males, and females abandon their eggs with the expectation that males protect them. This is true for wattled jacanas.

Question 28

Q

Why do some species manipulate the ratio of offspring sex?

Answer

A

Seychelles warblers do so because females stay behind to help the mothers raise more offspring. If there is more help in the nest, more offspring will survive. However, sometimes, too many females cause problems, so the mother will have more males next season who will leave and clear out the nest.

Question 29

Q

Do males treat females differently based on size? Why or why not?

Answer

A

Males give more resources to offspring of bigger females and less for small females. This ensures that only the offspring that are likely to survive (those from the bigger females) will be given all necessary to reproduce themselves.

Question 30

Q

What is parental conflict and how does it affect the offspring?

Question 31

Q

What is parental offspring conflict?

Answer

A

This strategy allows parents to benefit from withholding care or resources from some offspring and invest in other offspring.

Question 32

Q

What are consequences of parental offspring conflict?

Answer

A

Deprived offspring could benefit more if they received the withheld care or resources. Chicks often manipulate the intensity of their begging for food to get most possible. Some bird offspring fight siblings to the death to ensure that they receive all the resources.

Question 33

Q

What is behavior? Can it evolve, and if so, what is an example?

Answer

A

Behavior is an internally generated response to external stimulus. It evolves through natural selection, and an example are the foxes and their changes in aggression based on selective breeding.

Question 34

Q

How can behavior affect fitness?

Answer

A

Different behaviors affect fitness because they change the amount of food animals find, mating success, and the ability to avoid accidents.

Question 35

Q

What is an example of behavior changing based on cross breeding?

Answer

A

Oldfield mice were crossbred, with one creating long tunnels and another creating small/short tunnels. The new offspring creates a variety of tunnels.

Question 36

Q

How are individual selection and group selection different?

Answer

A

Individual selection helps traits of individuals that perform well be spread. Group selection favors behaviors that contribute to the better performance of the group.

Question 37

Q

What is individual selection?

Answer

A

occurs when behaviors that cause particular individuals within a population to perform well relative to other individuals are favored and spread

Question 38

Q

What is group selection?

Answer

A

favors behaviors that contribute to the performance of that group, so that groups performing these behaviors fare better than groups lacking them

Question 39

Q

What causes a particular behavior to increase in frequency?

Answer

A

If the behavior is successful, then selection should make the behavior more common.

Question 40

Q

Are some species selfish individuals? In such a case, what happens to behavior?

Answer

A

Species can be selfish, and this causes the behavior to depend on whether individual or group is stronger.

Question 41

Q

Is selection stronger for differences in fitness of individuals within a group or for the success of the group?

Answer

A

Selection is stronger for the differences in relative fitness of individuals within a group than the success of the group relative to other groups.

Question 42

Q

What does it mean for a new behavior to “invade” a population?

Answer

A

A new behavior can “invade” a population and spread to fixation, eliminating earlier behavior.

Question 43

Q

Can behavior resist invasions of new behaviors?

Answer

A

Yes, behavior that resists all possible invasions is evolutionary stable strategy.

Question 44

Q

How can fitness strategies change in their stability?

Answer

A

Fitness of particular strategies change depending on frequencies of other strategies, so that no one strategy is stable. One example is the competition between lizards with orange, blue and yellow throats.

Question 45

Q

What is the dilution effect? When does it occur?

Answer

A

It occurs in group living, and essentially each group member faces a smaller risk of being the target of an attack.

Question 46

Q

When do individuals choose group living over living alone?

Answer

A

When the gains brought to the individual outweigh the costs.

Question 47

Q

Name 5 benefits of living in a group.

Answer

A

Increased vigilance, dilution effect, enhanced defense capability, cooperative hunting, improved defense of resources

Question 48

Q

Name 5 costs of living in a group.

Answer

A

Increased conspicuousness to predators, increased competition for food & mates, decreased capacity of paternity/maternity, increased transmission of disease/parasites

Question 49

Q

What is altruism?

Answer

A

Whenever a helping individual behaves in a way that benefits another individual at a cost to its own fitness

Question 50

Q

Why is helping other individuals possibly more beneficial than having one’s own?

Answer

A

May allow individuals to gain experience that will help them breed, leading to more successful reproductive efforts and enabling more of their own young to survive. May also allow helpers to acquire nesting territory, and if helping close relatives, it will ensure some of own alleles are carried on

Question 51

Q

What is the difference between direct fitness and indirect fitness?

Answer

A

Direct fitness is the organism’s own success in transmitting alleles, while indirect fitness is the reproductive success of other individuals that carry same alleles as individuals

Question 52

Q

Explain inclusive fitness.

Answer

A

It includes both kinds of alleles in an organism. It could account for how selection on individuals could lead to altruistic behavior.

Question 53

Q

Why would helping behavior spread in a population?

Answer

A

If the benefit to the recipient, weighted by the chance that the recipient shares the same alleles as the donor, exceeded the cost to the donor

Question 54

Q

State the equation of Hamilton’s Rule and what each symbol represents.

Answer

A

rB > C
r = coefficient of relatedness between donor and recipient
B = benefit to recipient arising from help
C = cost to donor from helping

Question 55

Q

What is the range for the coefficient of relatedness?

Answer

A

Range from 0 (strangers) to 1 (pair of identical twins or clones)

Question 56

Q

Would an individual ever help unrelated individuals? Do the benefits of helping change based on the relatedness of individuals?

Answer

A

Benefits decline in proportion to how distantly related the individuals are. Helping an unrelated individual is not advantageous at all, unless behavior comes at no cost to the donor.

Question 57

Q

What is kin selection?

Answer

A

It makes the explicit prediction that animals should proffer help to relatives.

Question 58

Q

What is one indicator of relatedness?

Answer

A

Physical proximity, since those that are close to one another are likely relatives

Question 59

Q

Why is male paternal care rare?

Answer

A

Low certainty of paternity; males do better finding more mates instead of remaining with one female and her children

Question 60

Q

What are hermaphrodites?

Answer

A

Animals/plants that have male and female sex organs and can fertilize themselves

Question 61

Q

Name two disadvantages of being sexual rather than asexual.

Answer

A

asexual lineages multiply faster

2. males can’t produce, which halves rate of replication.

Question 62

Q

Name the major benefit of sex.

Answer

A

Parents rapidly generate novel genotypes in offspring which means quick adaptation; animals develop faster if mutations are combined

Question 63

Q

What is one consequence of being an asexual creature?

Answer

A

Beneficial mutations only help the individual since they are stuck within own lineage

Question 64

Q

What is Muller’s Ratchet and why is it an issue?

Answer

A

Causes bad mutations to accumulate continuously, and the burden that these mutations place on the fitness of individuals (genetic load) increases

Answer 64

A

Seen in coevolving populations, to maintain relative fitness, each population must constantly adapt to the other
ex. hosts build resistance to parasites

Answer 65

A

Yes, though sex makes the variation in populations larger, so the host is a moving target for parasites because of the genetic variation

Answer 66

A

It is sexual reproduction involving the fusion of two dissimilar gametes. Larger gametes are from females, but smaller gametes are from males.

Answer 67

A

It is the reproductive capacity of an individual, like the number of offspring produced, and the number and quality of eggs or sperm.

Answer 68

A

Females are never limited by the number of male gametes available, but are limited by the resources that they have to reproduce. Males are limited by the number of females willing to reproduce.

Answer 69

A

They mate with many females

Answer 70

A

Males find the best use of time is to leave females after mating and use available time and resources to find other chances to mate.

Answer 71

A

They invest in nourishment or protection of offspring.

Answer 72

A

No, it is usually very low.

Answer 73

A

Males face competition for opportunity to mate and reproduce with females.

Answer 74

A

Differential reproductive success resulting from competition for fertilization, which can occur through competition among individuals of same sex or through attraction to opposite sex

Answer 75

A

members of limiting sex (generally females) actively discriminate among suitors of less limited sex (generally males); female choice

Answer 76

A

members of less limiting sex (males) compete with each other over reproductive access to the limiting sex (females); male-male competition

Answer 77

A

Difference in form between females and males of species (color, size, presence/absence of structures)

Answer 78

A

One way is to fight other males to keep the females. Another is guarding resources that females need to survive.

Answer 79

A

Over time sexual selection has led to males evolving to aid them in contests (ex. antlers)

Answer 80

A

If there is no variance in fitness, there is no selection. If there is large variance in fitness, there is a great opportunity for selection.

Answer 81

A

Males often bear gifts, such as food. This gives females advantages. Another option is for females to choose mates based on ornamental traits.

Answer 82

A

Direct benefits affect the female directly, such as food, nest sites, and protection. Indirect benefits affect the genetic quality of a female’s offspring, such as male offspring that are more desirable to females.

Answer 83

A

They are assemblages of rival males who cluster together to perform courtship displays to those in proximity.

Answer 84

A

Females choose males of highest quality

Answer 85

A

Choosy females are attracted to males with showy ornaments (Sexy son hypothesis)

Answer 86

A

It shows that if they are able to use energy to create the ornaments, then they are stronger than those who don’t have ornaments. They are therefore not weak or under some stress.

Answer 87

A

occurs when male and female form stable pair bond and cooperate to raise young, even if either or both partners sneak extra-pair copulations (ex. some birds, fish, mammals)

Answer 88

A

Males compete with others so females may choose the male with the highest quality gene. This could boost the health of offspring, lower the cost to mate, and those that are gift giving species will allow the female to benefit

Answer 89

A

males with large testicles swamp female ovaries with sperm; sperm from larger animal is likely to be used
some species have aggregate sperm that swim faster and reach sooner
male guarding

Answer 90

A

Males increase reproductive success by getting rid of sperm females carry from other matings.

Answer 91

A

Females store and separate sperm from different males and decide which sperm to use to fertilize their eggs.

Answer 92

A

Through sexual conflict, they are evolving phenotypic characteristics that confer a fitness benefit to one sex but a fitness cost to the other. Males want to increase their reproduction while females want to avoid strategies of males that lower their own fitness.

Answer 93

A

species are the smallest possible groups whose members are descended from a common ancestor and who all possess defining or derived characteristics that distinguish them from other groups

Answer 94

A

species are groups of actually interbreeding natural populations that are reproductively isolated from other such groups

Answer 95

A

group of spatially separated populations of same species that interact at some level (exchange alleles)

Answer 96

A

metapopulations of organisms that exchange alleles frequently enough that they comprise of the same gene pool and therefore the same evolutionary image

Answer 97

A

aspects of environment, genetics, behavior, physiology, or ecology of a species that reduces or impedes gene flow from individuals of other species; can be geographic or reproductive

Answer 98

A

evolutionary process by which new species arise; causes one evolutionary lineage to split into two or more lineages

Answer 99

A

Extrinsic (geographic) or intrinsic (reproductive)

Answer 100

A

populations separated by isolating barriers will eventually become so different from one another that they can no longer reproduce with each other

Answer 101

A

Populations are separate, non-overlapping geographic areas. This is not enough to cause populations to become two separate species;
populations must be unable or unlikely to breed to be different species

Answer 102

A

reproductive barriers strongly limit or prevent reproduction between populations; few/no genes exchanged between the populations

Answer 103

A

Populations are in the same geographic area, but do not breed. Coexistence depends on existence of reproductive isolating barriers
reproductive barriers are intrinsic to species; differences in phenotypes reduces chance of interbreeding between populations

Answer 104

A

Time, ecology of different species, limited pollinator range (plants), distinct courting rituals, female preferences for male signals

Answer 105

A

sperm or pollen from one species fails to penetrate or fertilize the egg or ovule of another species

Answer 106

A

aspects that prevent sperm from one species from fertilizing eggs of another species; reduces likelihood that a zygote will form

Answer 107

A

aspects of a species that prevent zygotes from successfully developing and reproducing themselves

Answer 108

A

embryos with diff. species as parents may fail to develop; hybrids can be born with deformities, and healthy hybrids are often sterile

Answer 109

A

1. population of organisms whose genetic variation is continuous &amp; no barriers to reproduction
#2: geographic or minor reproductive barriers emerge, so populations reproduce within each group rather than between them; more genetically similar within each group rather than between groups
#3: reproductive barriers are stronger and two groups become more genetically discontinuous; reproductive barriers can still be reversed if enviro conditions change again
#4: reproductive isolation between groups is complete and irreversible

Answer 110

A

speciation from geographic separation

Answer 111

A

if barriers are weak, then rejoined populations will interbreed; if barriers are strong, populations may not interbreed and speciation is complete

Answer 112

A

reinforcement, parapatric, isolation by distance, ecological

Answer 113

A

increase of reproductive isolation between populations through selection against hybrid offspring

Answer 114

A

evolution of new species within a spatially extended population that still has some gene flow (partial separation)

Answer 115

A

pattern in which populations that live in close proximity are genetically more similar to each other than those far apart

Answer 116

A

evolution of reproductive barriers between populations by adaptation to different environments or ecological niches

Answer 117

A

Splitting an ocean (Panama and shrimp), shifting from fruit to fruit, song of speciation (birds on different islands), polar bears and brown bears

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Adaptation & Speciation Flashcards

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